[Federal Register Volume 60, Number 243 (Tuesday, December 19, 1995)]
[Rules and Regulations]
[Pages 65387-65436]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 95-30257]
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ENVIRONMENTAL PROTECTION AGENCY
40 CFR Part 60
[AD-FRL-5327-5]
RIN 2060-AD00
Standards of Performance for New Stationary Sources and Emission
Guidelines for Existing Sources
Municipal Waste Combustors
AGENCY: Environmental Protection Agency (EPA).
ACTION: Final rule.
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SUMMARY: This action adds standards of performance for new municipal
waste combustor (MWC) units and emission guidelines for existing MWC's.
The standards and guidelines implement sections 111 and 129 of the
Clean Air Act and are based on the Administrator's determination that
MWC's cause, or contribute significantly to, air pollution that may
reasonably be anticipated to endanger public health or welfare. The
standards and guidelines apply to MWC units at plants with aggregate
capacities to combust greater than 35 megagrams per day (Mg/day)
(approximately 40 tons per day) of municipal solid waste (MSW) and
require sources to achieve emission levels reflecting the maximum
degree of reduction in emissions of air pollutants that the
Administrator determined is achievable, taking into consideration the
cost of achieving such emission reduction, and any non-air-quality
health and environmental impacts and energy requirements. The
promulgated standards and guidelines establish emission levels for MWC
organics (dioxins/furans), MWC metals (cadmium (Cd), lead (Pb), mercury
(Hg), particulate matter (PM), and opacity), MWC acid gases (hydrogen
chloride (HCl) and sulfur dioxide (SO2)), nitrogen oxides
(NOX), and MWC fugitive ash emissions. Some of the pollutants
being regulated are considered to be carcinogens and at sufficient
concentrations can cause toxic effects following exposure. The
standards and guidelines also establish requirements for MWC operating
practices (carbon monoxide (CO), load, flue gas temperature at the PM
control device inlet, and operator training/certification).
Additionally, the standards for new MWC plants also require a siting
analysis and materials separation plan.
DATES: Effective Dates. June 19, 1996 for the standards for new sources
(Secs. 60.50b through 60.59b) and December 19, 1995 for the emission
guidelines for existing sources (Secs. 60.30b through 60.39b). The
incorporation by reference of certain publications listed in the
regulations is approved by the Director of the Federal Register as of
June 19, 1996 for the standards for new sources. See table 3 of this
preamble for a summary of the retrofit schedules for existing MWC
sources. See SUPPLEMENTARY INFORMATION for a discussion of the schedule
for judicial review.
Comments. Comments on the Information Collection Request (ICR)
document associated with the final standards for new sources are
requested, as discussed in section VI.B of this preamble. Comments on
the ICR document must be received on or before February 20, 1996. Refer
to Section VI.B for further information on this request for comment.
ADDRESSES: Comments. As noted above, comments on the ICR document
[[Page 65388]]
associated with the final standards for new source are requested. See
section VI.B and the SUPPLEMENTARY INFORMATION section of this preamble
for further information on obtaining a copy of the ICR document and
addresses for submitting comments on the ICR document.
Background Information. The principal background information for
the final standards and guidelines includes: (1) A background
information document (BID) entitled, ``Municipal Waste Combustion:
Background Information for Promulgated Standards and Guidelines--
Summary of Public Comments and Responses'' (EPA-453/R-95-0136), which
contains a summary of all the significant public comments submitted
regarding the proposed standards and guidelines, the EPA's response to
these comments, and a summary of the changes made to the standards and
guidelines as a result of the comments; and (2) several technical
documents listed under SUPPLEMENTARY INFORMATION, including all of the
background information documents that supported the proposal and
promulgation of the subpart Ea standards and subpart Ca guidelines. A
document entitled ``FACT SHEET: New Municipal Waste Combustors--Subpart
Eb Standards,'' which succinctly summarizes the final standards, and a
document entitled ``FACT SHEET: Existing Municipal Waste Combustors--
Subpart Cb Emission Guidelines,'' which succinctly summarizes the
guidelines, are also available. See SUPPLEMENTARY INFORMATION for
instructions and addresses for obtaining these documents.
Docket. Docket Nos. A-90-45 and A-89-08, containing supporting
information used in developing the standards and guidelines, are
available for public inspection and copying between 8:00 a.m. and 4:00
p.m., Monday through Friday except for Federal holidays at the
following address: U.S. Environmental Protection Agency, Air and
Radiation Docket and Information Center (Mail Code 6102), 401 M Street
SW, Washington DC 20460 [phone: (202) 260-7548]. The docket is located
at the above address in room M-1500, Waterside Mall (ground floor,
central mall). A reasonable fee may be charged for copying.
FOR FURTHER INFORMATION CONTACT: Mr. Walter Stevenson at (919) 541-5264
or Mr. Fred Porter at (919) 541-5251, Combustion Group, Emission
Standards Division (MD-13), U.S. Environmental Protection Agency,
Research Triangle Park, North Carolina 27711.
SUPPLEMENTARY INFORMATION:
Background Information.
On December 20, 1989, the EPA proposed standards and guidelines for
MWC's in subparts Ea and Ca of 40 CFR 60, respectively. The subparts Ea
and Ca were promulgated on February 11, 1991 and were developed under
authority of paragraph (b) of section 111 of the Clean Air Act of 1977.
The 1990 Amendments to the Clean Air Act required the EPA to review
these emission standards and guidelines and determine if they were
fully consistent with the requirements of section 129. The EPA reviewed
the subpart Ea standards and subpart Ca guidelines and concluded that
they were not fully consistent with the requirements of section 129.
Therefore, the EPA proposed to revise the standards and guidelines in a
September 20, 1994 proposal to make the standards and guidelines fully
consistent with the requirements of section 129. Municipal waste
combustors that begin construction after September 20, 1994 or that
begin modification or reconstruction after June 19, 1996 and that meet
all other applicability criteria are subject to the revised standards
(subpart Eb). Municipal waste combustors that were constructed on or
before September 20, 1994 and that meet all other applicability
criteria are subject to the revised guidelines (subpart Cb). Municipal
waste combustors that were constructed after December 20, 1989 and on
or before September 20, 1994 and that meet all other applicability
criteria are subject to both the subpart Ea standards (1991 standards
for new sources) and the subpart Cb guidelines (1995 retrofit
guidelines for existing sources). In this final rule, the EPA is
withdrawing the subpart Ca guidelines (1991 guidelines for existing
sources). In a separate action in today's Federal Register the EPA is
publishing a direct final rule amending the text of subpart Ea.
This Federal Register final rule discusses: (1) The standards for
new MWC's, (2) the guidelines for existing MWC's, (3) the withdrawal of
the 1991 subpart Ca guidelines for existing MWC's, and (4) a request
for public comment on the ICR document. This preamble and regulatory
text are available on the EPA's Technology Transfer Network (TTN)
electronic bulletin board. Also available on the EPA's TTN are FACT
SHEETS, which summarize the final standards and guidelines. They are
suggested reading for persons requiring an overview of the standards
and guidelines. The FACT SHEETS can also be obtained by calling Donna
Collins at (919) 541-5578. The TTN contains 18 electronic bulletin
boards, and the following 5 items are included in the Clean Air Act
Amendments (CAAA) bulletin board under menu item ``Recently Signed
Rules'' in file ``MWC2.ZIP'':
(1) ``FACT SHEET: New Municipal Waste Combustors--Subpart Eb
Standards (1995).''
(2) ``FACT SHEET: Existing Municipal Waste Combustors--Subpart Cb
Emission Guidelines (1995).''
(3) Federal Register notice for this promulgation: ``Standards of
Performance for New Stationary Sources and Emission Guidelines for
Existing Sources: Municipal Waste Combustors'' (this document).
(4) ``Municipal Waste Combustion: Background Information for
Promulgated Standards and Guidelines--Summary of Public Comments and
Responses,'' EPA-453/R-95-0136.
(5) Information Collection Request document for these standards for
new sources: ``Standard Form 83 Supporting Statement for ICR No.
1506.5--1995 Standards for New Municipal Waste Combustors (Subpart
Eb),'' September 29, 1995.
The TTN is accessible 24 hours per day, 7 days per week except
Monday morning from 8:00 a.m. to 12:00 p.m. when the system is updated.
The service is free except for the cost of the phone call. Dial (919)
541-5742 to access the TTN. The TTN is compatible with up to a 14,400
bits-per-second (bps) modem. An alternative way to access the TTN is by
``telenet,'' using access code ``ttnbbs.rtpnc.epa.gov''. Further
instructions for accessing the TTN can be obtained by calling the help
desk at (919) 541-5384.
Documents in the Docket. The background information for today's
promulgation includes all of the documents that supported the proposal
and promulgation of the subpart Ea standards and subpart Ca guidelines
(docket No. A-90-45 and docket No. A-89-08). Key background information
documents used in developing the subpart Ea standards, the subpart Ca
guidelines, and today's promulgated standards and guidelines are as
follows:
(1) ``Municipal Waste Combustors--Background Information for
Proposed Standards: 111(b) Model Plant Description and Cost Report,''
EPA-450/3-89-27b, August 1989;
(2) ``Municipal Waste Combustors--Background Information for
Proposed Standards: Post-Combustion Technology Performance,'' EPA-450/
3-89-27c, August 1989;
(3) ``Municipal Waste Combustion Assessment: Combustion Control at
[[Page 65389]]
Existing Facilities,'' EPA-600/8-89-057, August 1989;
(4) ``Municipal Waste Combustion Assessment, Technical Basis for
Good Combustion Practices,'' EPA-600/8-89-063, August 1989;
(5) ``Municipal Waste Combustors--Background Information for
Proposed Standards: Control of NOX Emissions,'' EPA-450/3-89-27d,
August 1989;
(6) ``Municipal Waste Combustors--Background Information for
Proposed Standards: Cost Procedures,'' EPA-450/3-89-27a, August 1989;
(7) ``Economic Impact Analysis for Proposed Emission Standards and
Guidelines for Municipal Waste Combustors,'' EPA-450/3-91-029, March
1994;
(8) ``Municipal Waste Combustors--Background Information for
Proposed Guidelines for Existing Facilities,'' EPA-450/3-89-27e, August
1989;
(9) ``Municipal Waste Combustion: Background Information for
Promulgated Standards and Guidelines--Summary of Public Comments and
Responses,'' EPA-453/R-95-0136, 1995.
These documents and additional technical information are contained
in dockets A-90-45 and A-89-08. Docket materials are available for
inspection and copying as described in the ADDRESSES section of this
preamble.
Judicial Review. Under section 307(b)(1) of the Clean Air Act,
judicial review of the actions taken by this notice is available by
filing of a petition for review in the U.S. Court of Appeals for the
District of Columbia Circuit within 60 days of today's publication of
this rule. Under section 307(b)(2) of the Clean Air Act, the
requirements that are in today's notice may not be challenged later in
the civil or criminal proceedings brought by the EPA to enforce these
requirements (42 U.S.C. 7607(b)).
Preamble Outline. The following outline is provided to aid in
locating information in the introductory text (preamble) to the final
standards and guidelines.
I. Acronyms, Abbreviations, and Measurement Units
A. Acronyms
B. Abbreviations and Measurement Units
II. Background and Withdrawal of the 1991 Subpart Ca Emission
Guidelines
III. Summary of Considerations in Developing the 1995 Standards for New
Sources and Guidelines for Existing Sources
A. Purpose of the Standards and Guidelines
B. Technical Basis of the Standards and Guidelines
C. Stakeholders and Public Involvement
IV. Standards of Performance for New Sources (1995)--Summary of the
Standards, Impacts of the Standards, and Significant Issues and Changes
to the Proposed Standards
A. Summary of the Standards
B. Significant Issues and Changes to the Proposed Standards
1. Applicability
2. Emission Limits for MWC Metals, Acid Gases, Organics,
Nitrogen Oxides, and Ash Fugitive Emissions
3. Good Combustion Practices
4. Operator Training and Certification
5. Air Curtain Incinerators
6. Siting Analysis/Materials Separation Plan
7. Compliance and Performance Testing
8. Reporting and Recordkeeping Requirements
C. Impacts of the Standards
V. Guidelines for Existing Sources (1995)--Summary of the Guidelines,
Impacts of the Guidelines, and Significant Issues and Changes to the
Proposed Guidelines
A. Summary of the Guidelines
B. Significant Issues and Changes to the Proposed Guidelines
1. Designated Facilities
2. Emission Limits for MWC Metals, Acid Gases, Organics,
Nitrogen Oxides, and Fugitive Ash Emissions
3. Good Combustion Practices
4. Operator Training and Certification
5. Air Curtain Incinerators
6. Compliance and Performance Testing
7. Reporting and Recordkeeping Requirements and Compliance
Schedules
C. Impacts of the Guidelines
VI. Administrative Requirements
A. Docket
B. Paperwork Reduction Act
C. Executive Order 12866
D. Unfunded Mandates Act
E. Executive Order 12875
F. Regulatory Flexibility Act
G. Clean Air Act Procedural Requirements
I. Acronyms, Abbreviations, and Measurement Units
The following definitions, acronyms, and measurement units are
provided to clarify the preamble to the final standards and guidelines.
A. Acronyms
ASME American Society of Mechanical Engineers
BID Background Information Document
CEMS continuous emissions monitoring system(s)
COMS continuous opacity monitoring system(s) dioxins/furans
polychlorinated dibenzo-p-dioxins and polychlorinated dibenzofurans
DSI dry sorbent injection
EPA U.S. Environmental Protection Agency
ESP electrostatic precipitator
FF fabric filter
GCP good combustion practices
ICR information collection request
MACT maximum achievable control technology
MSW municipal solid waste
MWC municipal waste combustor
MWI medical waste incinerator
NSR New Source Review
NOX nitrogen oxides
OAQPS Office of Air Quality Planning Standards
OMB Office of Management and Budget
PM particulate matter
RDF refuse-derived fuel
RFA Regulatory Flexibility Act
SD spray dryer
SNCR selective noncatalytic reduction
TEQ basis 2,3,7,8-tetrachlorinated dibenzo-p-dioxin toxic equivalent
based on the 1989 international toxic equivalency factors
B. Abbreviations and Measurement Units
deg.C=degrees Celsius (degrees Fahrenheit= deg.C*9/5+32)
Cd=cadmium
CO=carbon monoxide
CO2=carbon dioxide
dscf=dry standard cubic feet (at 14.7 pounds per square inch, 68
deg.F)
dscm=dry standard cubic meters (at 14 pounds per square inch, 68
deg.F)
g=gram (454 grams per pound)
g/yr=grams per year
gr=grains (7,000 grains per pound)
HCl=hydrogen chloride
Hg=mercury
kg=kilogram (0.454 kilograms per pound)
kg/yr=kilograms per year
m3=cubic meter (35.3 cubic feet per cubic meter)
mg=milligrams (10-3 grams)
Mg=megagram (1.1 tons)
Mg/d=megagrams per day
Mg/yr=megagrams per year
ng=nanogram (10-9 grams)
Pb=lead
ppmv=parts per million by volume
SO2=sulfur dioxide
tons/d=tons per day
tons/yr=tons per year
total mass basis (dioxins/furans=total mass of tetra- through octa-
chlorinated dibenzo-p-dioxins and dibzofurans
II. Background and Withdrawal of the 1991 Subpart Ca Emission
Guidelines
By the mid-1980's, several studies had been performed to determine
whether MWC emissions should be regulated and, if so, under what
section of the Clean Air Act. As set forth in the Advanced Notice of
Proposed Rulemaking (52 FR 25399, July 7, 1987), the EPA decided to
regulate air emissions from MWC's under section 111 of the Clean Air
Act, and to base the
[[Page 65390]]
regulation on best demonstrated technology, as required by section 111.
On December 20, 1989, the EPA proposed standards for new MWC's and
guidelines for existing MWC's (54 FR 52251 and 54 FR 52209,
respectively). On November 15, 1990, 1990 Amendments to the Clean Air
Act were enacted and added section 129 to the Clean Air Act. Section
129 of the Clean Air Act specifies that revised standards and
guidelines must be developed for MWC's in accordance with the
requirements of both section 111 and new section 129. Section 129
further specifies that revised standards and guidelines be developed
for both large and small MWC plants and that the revised standards and
guidelines must reflect more restrictive performance levels. Section
129 includes a schedule for revising the 1991 standards and guidelines.
When the EPA did not comply with the section 129 schedule, the
Sierra Club, the Natural Resources Defense Council, and the Integrated
Waste Services Association filed complaints with the U.S. District
Court for the Eastern District of New York. The resulting consent
decree required the EPA Administrator to sign a notice of proposed
rulemaking not later than September 1, 1994 and a notice of
promulgation not later than October 31, 1995 (Nos. CV-92-2093, CV-93-
0284, and CV-93-5144). The proposal notice for the standards and
guidelines was signed as scheduled and published on September 20, 1994
(59 FR 48198 and 59 FR 48228, respectively). This notice responds to
the requirement for the Administrator to sign the final standards and
guidelines by October 31, 1995.
The standards and guidelines promulgated on February 11, 1991 (56
FR 5488 and 56 FR 5514, respectively) apply to only large MWC's
(capacities above 225 Mg/day) and reflect best demonstrated technology.
Today's notice promulgates revised standards and guidelines that are
fully consistent with sections 111 and 129 of the Clean Air Act and
extend coverage of the revised standards and guidelines to MWC units
located at MWC plants with aggregate plant capacity above 35 Mg/day.
Today's promulgated standards for new sources are more stringent
than the standards promulgated on February 11, 1991. Today's
promulgated standards will apply to plants for which construction
commenced after September 20, 1994 or for which reconstruction or
modification commenced after June 19, 1996. The guidelines will apply
to all MWC's constructed prior to September 20, 1994. The February 11,
1991 subpart Ea standards will remain in effect for plants constructed,
modified, or reconstructed between December 20, 1989 and September 20,
1994. Sources subject to the February 11, 1991 subpart Ea standards are
also subject to the guidelines being promulgated today under subpart
Cb. In some cases, the promulgated subpart Cb guidelines are more
stringent than the existing subpart Ea standards. The control
technologies being used to meet the emission limits included in the
1991 subpart Ea standards will be able to comply with the promulgated
subpart Cb guidelines, except supplemental controls would be required
to reduce Hg emissions and fugitive ash emissions. The direct final
rule also being published in today's Federal Register will provide
consistency between the subpart Ea and Cb rules.
Today's promulgated guidelines under subpart Cb for existing
sources are more stringent than the guidelines promulgated under
subpart Ca on February 11, 1991. Today's promulgated guidelines will
apply to MWC's for which construction commenced on or before September
20, 1994. Today's promulgated guidelines are based on maximum
achievable control technology, or MACT, and will require MWC plants to
purchase and install different types of air pollution control equipment
than the best demonstrated technology-based guidelines promulgated in
1991 under subpart Ca. In consideration of public comments, which
supported the withdrawal of subpart Ca, and to satisfy the MACT
requirements of section 129 of the Clean Air Act, the EPA is
withdrawing the 1991 subpart Ca guidelines as a part of today's action.
III. Summary of Considerations in Developing the 1995 Standards for New
Sources and Guidelines for Existing Sources
A. Purpose of the Standards and Guidelines
Under sections 111 and 129 of the Clean Air Act, the EPA is
required to develop and adopt performance standards and guidelines for
MWC's. Congress specifically added section 129 to the Clean Air Act to
address public concerns about MWC's and other solid waste combustion
units. Under section 111, performance standards and guidelines must be
developed for new and existing stationary sources that may contribute
to air pollution and that may reasonably be anticipated to endanger
public health or welfare. Under section 129 of the Clean Air Act, the
standards and guidelines adopted for MWC's must be based on MACT.
Independent of Clean Air Act requirements, the general public is
concerned about emissions from all sources including MWC's. This is
understandable considering (1) about two-thirds of the MWC population
is located in air quality nonattainment areas with high population
densities, and (2) the EPA's 1994 MWC Dioxin Survey identified a
limited number of older poorly controlled MWC's with atypically high
dioxin/furan emissions (interim corrective actions have been taken at
these MWC's).
The MWC industry has aggressively controlled new MWC plants built
since 1990, and almost half of the existing population currently is
equipped with high efficiency air pollution control equipment. The
other older half of the population has control equipment with lower
efficiency. As mentioned earlier, health effects are associated with
many of the pollutants emitted from MWC's, and the standards and
guidelines being promulgated today will bring all MWC units up to the
same high performance level.
The EPA estimates that in the United States, there are about 307
operating MWC units at 128 plants, providing a total U.S. MSW
combustion capacity of about 94,000 Mg/day. Approximately 16 percent of
MSW generated in the United States is combusted.
Emissions from MWC's contain organics (dioxins/furans), metals (Cd,
Pb, Hg, PM, and opacity), acid gases (Hcl and SO2), and NOX.
These pollutants can have adverse effects on both public health and
welfare. The EPA recently released a draft report reassessing the
health effects of human exposure to dioxins/furans. In the draft
report, which is currently undergoing review, MWC's are identified as
one source of dioxin/furan emissions. Other MWC emissions of principal
concern include Pb, Cd, and Hg. Acid gas and NOX emissions
contribute to acid rain when emissions of SO2 and NOX are
chemically transformed in the atmosphere into sulfuric and nitric acids
and return to earth as wet deposition such as rain, fog, or snow, or as
dry deposition such as fine particles or gases. Acid deposition damages
lakes and harms forests and buildings. Nitrogen oxides also contribute
to low-level ozone and urban area smog formation.
Today's standards and guidelines are set forth as emission limits
and will significantly reduce MWC emissions.
[[Page 65391]]
B. Technical Basis of Standards and Guidelines
Section 129(a)(2) of the Clean Air Act requires the revised
standards for new MWC's and revised guidelines for existing MWC's to
reflect the maximum degree of reduction in emissions of designated air
pollutants, taking into consideration the cost of achieving such
emission reduction, and any non-air-quality health and environmental
impacts and energy requirements that the Administrator determines are
achievable for a particular category of sources. (This control level is
commonly referred to as the ``maximum achievable control technology, or
``MACT''.) Section 129 also provides that standards for new sources may
not be less stringent than the emissions control achieved in practice
by the best controlled similar unit. This is commonly referred to as
the ``MACT floor'' for new MWC units. Additionally, section 129
provides that the emission limitations in the guidelines for existing
MWC's may not be less stringent than the average emission limitations
achieved by the best performing 12 percent of units in the category.
This is commonly referred to as the ``MACT floor'' for existing MWC
units. Emission control options less stringent than the MACT floor can
not be considered in developing section 129 standards and guidelines.
Technical data on the number and size of MWC's, control
technologies in use, permit emission limits, and emission test data
were used to determine the MACT floor for new and existing MWC's and to
define control alternatives. The types of data EPA considered in
selecting final standards and guidelines included the following: (1)
Over 100 MWC plant-specific questionnaires; (2) emissions information
from literature, and State and local agencies; and (3) EPA and industry
test reports. Overall, the EPA used performance test data from over 60
MWC plants to develop the standards and guidelines. After proposal, the
EPA reviewed additional data submitted with public comments on the
proposal and data that EPA gathered from States and industry. Based on
the new information, the EPA reviewed both the proposed MACT
determinations for new and existing MWC's and the regulatory
alternatives. The reassessment of the standards and guidelines in light
of the new data resulted in the EPA revising the MACT emission rates
for some pollutants.
The most significant changes to the standards and guidelines since
proposal are summarized in sections IV.B and V.B., respectively, of
this preamble. The rationales for these changes as well as other
changes are summarized in the preamble and discussed in more detail in
the BID. In keeping with the Administrator's ``reinventing government''
initiative, several of the changes to the guidelines and standards were
made to streamline the regulations and provide increased flexibility
while optimizing environmental control by using common sense
initiatives. Examples of these changes include the following: (1)
Reduced dioxin/furan testing for MWC plants with low dioxin/furan
emission levels; (2) NOX guidelines for large MWC plants that
allow plants to use an emissions averaging plan to demonstrate
compliance for two or more existing MWC units located at the same
facility; (3) clarification of siting requirements for new MWC's; (4)
providing additional time for MWC operators to obtain operator training
and certification; (5) replacing quarterly reporting with annual
reporting (semiannual reporting if noncompliance); (6) revised text to
clarify that the regulations do not apply to MWC plants with combustion
capacity less than 35 Mg/day; (7) exemption for plants firing small
amounts of MSW (10 Mg/day or less); (8) exemption for combustion of
clean wood; and (9) allowing certain records to be maintained in either
electronic or paper format without duplication. All of these changes
are discussed further in sections IV and V of this preamble, and
represent changes that improve the effectiveness and efficiency of the
standards and guidelines without any reduction in environmental
protection.
C. Stakeholders and Public Involvement
Prior to proposal, in accordance with section 117 of the Clean Air
Act, the EPA consulated with advisory committees, independent experts,
Federal departments and agencies, and owners, operators, and
manufacturers of MWC's. Numerous discussions were held with
governmental entities, industry representatives, and environmental
groups including, but not limited to, the following groups: the U.S.
Conference of Majors, the National League of Cities, the National
Association of Counties, the Municipal Waste Management Association,
the Solid Waste Association of North America, the Integrated Waste
Services Association, the Sierra Club, and the Natural Resources
Defense Council.
The standards and guidelines being adopted today were proposed in
the Federal Register on September 20, 1994 (59 FR 48198 and 59 FR
48228, respectively). The preambles for the proposed standards and
guidelines describe the rationale for the proposed standards and
guidelines. After proposal, the EPA provided interested persons the
opportunity to comment through a written comment period. The public
comment period was from September 20, 1994 to November 21, 1994.
Comments were received from private citizens, industry representatives,
environmental groups, and governmental entities. The comments have been
carefully considered, and changes have been made in the standards and
guidelines where appropriate. Sections IV and V of this preamble
discuss the major revisions to the standards and guidelines to address
the commenters' concerns.
IV. Standards of Performance for New Sources (1995)--Summary of the
Standards, Impacts of the Standards, and Significant Issues and Changes
to the Proposed Standards
This section presents a summary of the final standards, including
identification of the source category and pollutants being regulated,
and presentation of the final emission limits and their associated
performance testing, monitoring, recordkeeping and reporting
requirements. This section also discusses the most significant changes
to the proposed standards. Also discussed are the impacts of the final
standards.
A. Summary of the Standards
The final standards (subpart Eb) apply to each new MWC unit located
at an MWC facility that has an aggregate plant capacity to combust over
35 Mg/day of MSW, for which construction commenced after September 20,
1994 or modification or reconstruction commenced after June 19, 1996.
Municipal waste combustors that commenced construction on or before
September 20, 1994 are not covered under the subpart Eb standards.
Municipal waste combustors constructed on or before September 20, 1994
are considered existing sources and are subject to the guidelines that
are addressed in section V of this notice.
An MWC is defined as any setting or equipment that combusts MSW
including air curtain incinerators. Municipal solid waste combustion
includes the direct combustion of MSW or the combustion of MSW gases
from pyrolysis or gasification. The MWC unit includes any type of
setting or equipment including combustion equipment with or without
heat recovery.
[[Page 65392]]
Municipal solid waste is defined as a mixture or a single-item
waste stream of household, commercial, and/or institutional discards.
This would include materials such as paper, yard waste, plastics,
leather, rubber, glass, metals, and other combustible and
noncombustible materials. The final MSW definition is revised slightly
from proposal to make it clear that MSW does not include used motor
oil; sewage sludge; wood pallets; construction, renovation, and
demolition wastes (including but not limited to railroad ties and
telephone poles); clean wood; industrial process or manufacturing
wastes; medical waste; or motor vehicles. Although these wastes are not
MSW, they can be intermixed with MSW and can be combusted in MWC
plants. The regulations do not prohibit their combustion. The
definition of MSW includes RDF, which is municipal solid waste that is
shredded (or pelletized) before combustion. Any medical, industrial, or
other type of waste combustor plant with capability to combust greater
than 35 Mg/day of MSW and is in compliance with a federally enforceable
permit to combust less than 10 Mg/day of MSW is not covered by this
standard. Furthermore, cofired MWC plants that combust less than 30
percent MSW (on a calendar quarter basis) are exempt. A summary of the
final standards is presented in table 1. In table 1, significant
revisions made since proposal are marked with an asterisk (*) and are
discussed in section IV.B.
Table 1.--Summary of Standards for new MWC's (Subpart Eb)a
[* indicates a significant change since proposal and the change is
discussed in this preamble]
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Applicability
The final standards apply to new MWC
units located at plants with
capacities to combust greater than 35
Mg/day of residential, commercial, and/
or institutional discards. Industrial
manufacturing discards are not covered
by the standards. Any medical,
industrial manufacturing, municipal,
or other type of waste combustor plant
with capacity to combust greater than
35 Mg/day of MSW and with a federally
enforceable permit to combust less
than 10 Mg/day of MSW is not covered.*
Plant Size (MSW combustion capacity) Requirement.
35 Mg/day*.................. Not covered by standards.
>Mg/day but 225 Mg/day Subject to provisions listed
(referred to as small MWC plants). below.
>225 Mg/day (referred to as large MWC Subject to provisions listed
plants). below.
Good Combustion Practices
Applies to large and small MWC plants.
A site-specific operator training manual is required to be
developed and made available for MWC personnel.
The EPA or State MWC operator training course must be completed
by the MWC chief facility operator, shift supervisors, and control room
operators.
The ASME (or State-equivalent) operator certification must be
obtained by the MWC chief facility operator (mandatory), shift
supervisors (mandatory), and control room operators (optional).*
The MWC load level is required to be measured and not to exceed
110 percent of the maximum load level measured during the most recent
dioxin/furan performance test.
The PM control device inlet flue gas temperature is required to
be measured and not to exceed the temperature 17 deg.C above the
maximum temperature measured during the most recent dioxin/furan
performance test.
The CO level is required to be measured using CEMS, and the
concentration in the flue gas is required not to exceed the following:
------------------------------------------------------------------------
Averaging
MWC type CO level time
(hours)
Modular starved-air and excess-air. 50 ppmv............... 4
Mass burn waterwall and refractory. 100 ppmv.............. 4
Mass burn rotary refractory........ 100 ppmv.............. 4
Fluidized-bed combustion........... 100 ppmv.............. 4
Pulverized coal/RDF mixed fuel- 150 ppmv*............. 4
fired.
Spreader stoker coal/RDF mixed fuel- 150 ppmv*............. 24
fired.
RDF stoker......................... 150 ppmv.............. 24
Mass burn rotary waterwall......... 100 ppmv.............. 24
MWC Organic Emissions (measured as
total mass dioxins/furans):
Dioxins/furans
(performance test by EPA Reference
Method 23)
Large and small MWC plants......... 13 ng/dscm total mass
(mandatory) or 7 ng/
dscm total mass
(optional to qualify
for less frequent
testing).*b.
[[Page 65393]]
Basis for dioxin/furan GCP and SD/FF/carbon
limit injection.
MWC Metal Emissions:
PM (performance test by
EPA Reference Method 5)
Large and small MWC plants....... 24 mg/dscm (0.010 gr/
dscf).*
Opacity (performance test
by EPA Reference Method 9)
Large and small MWC plants....... 10 percent (6-minute
average)
Cd (performance test by
EPA Reference Method 29)
Large and small MWC plants....... 0.020 mg/dscm (8.7 gr/
million dscf).*
Pb (performance test by
EPA Reference Method 29)
Large and small MWC plants....... 0.20 mg/dscm (87 gr/
million dscf).*
Hg (performance test by
EPA Reference Method 29)
Large and small MWC plants....... 0.080 mg/dscm (35 gr/
million dscf) or 85-
percent reduction in
Hg emissions
Basis for PM, opacity, Cd,
Pb, and Hg limits
Large and small MWC plants....... See basis for dioxin/
furan limit
MWC Acid Gas Emissions:
SO2 (performance test by
CEMS)
Large and small MWC plants....... 30 ppmv or 80-percent
reduction in SO2
emissions
HCl (performance test by
EPA Reference Method 26)
Large and small MWC plants....... 25 ppmv or 95-percent
reduction in HCl
emissions
Basis for SO2 and HCl See basis for dioxin/
limits furan limit..
Nitrogen Oxides Emissions:
NOx (performance test by
CEMS)
Large MWC plants................. 150 ppmv, except 180
ppmv is allowed for
the first year of
operation.*
Small MWC plants................. No NOX control
requirement
Basis for NOX limit
Large MWC plants................. SNCR
Small MWC plants................. No NOX control
requirement.
[[Page 65394]]
Fugitive Ash Emissions:
Fugitive emissions
(performance test by EPA Reference
Method 22)
Large and small MWC plants....... Visible emissions less
than 5 percent of the
time from the ash
transfer system
except during
maintenance and
repair activities.*.
Basis for fugitive Wet ash handling or
emissions limit. enclosed ash handling.
Siting Requirements:
Large and small MWC (1) Siting analysis*,
plants. (2) materials
separation plan, and
(3) public meetings
(including response
to comments)
Performance Testing and Monitoring
Requirements:
Reporting frequency..... Annual (semiannual if
violation).*
Load, flue gas Continuous monitoring,
temperature. 4-hour block
arithmetic average.
CO...................... CEMS, 4-hour block or
24-hour daily
arithmetic average,
as applicable.
Dioxins/furans, PM, Cd,
Pb, HC1, and Hg
Large MWC plants................. Annual stack test (see
reduced testing
option for low
emitters of dioxins/
furans).*
Small MWC plants................. Annual or third year
stack test.*
Opacity................. COMS (6-minute
average) and annual
stack test.
SO2..................... CEMS, 24-hour daily
geometric mean.
[[Page 65395]]
NOX (large MWC plants CEMS, 24-hour daily
only). arithmetic average.
Fugitive ash emissions.. Annual test.
*=a significant change since proposal, and the change is discussed in
this preamble.
a All concentration levels in the table are corrected to 7 percent O2,
dry basis.
b Although not part of the dioxin/furan limit, the limit of 13 ng/dscm
total mass is equal to about 0.1 to 0.3 ng/dscm TEQ. The optional
reduced testing limit of 7 ng/dscm total mass is equal to about 0.1 to
0.2 ng/dscm TEQ.
B. Significant Issues and Changes to the Proposed Standards (Issues
were marked with the ``*'' symbol in table 1)
The most significant changes to the standards since proposal are
discussed below. Additional rationales for these changes, as well as
other changes being made are provided in the promulgation BID (EPA-453/
R-95-0136). Some of the changes made that are not discussed below
include GCP requirements, monitoring requirements, and reporting and
recordkeeping requirements.
1. Applicability
At proposal, an MWC plant of 35 Mg/day capacity that cofired 30
percent (10 Mg/day) or less MSW would have been exempt from the
standards. This 30 percent cofiring provision was retained in the final
rule. Additionally, a 10 Mg/day exemption has been added to the final
rule to exempt all combustion units independent of size that fire only
a small amount of MSW. In the final standards, any medical, industrial
manufacturing, or other type of waste combustor capable of combusting
more than 35 Mg/day MSW but actually combusting less than 10 Mg/day of
MSW is not subject to this rule, provided it submits an initial report
containing a copy of the plant's federally enforceable permit limiting
the amount of MSW that may be combusted by the plant to less than 10
Mg/day and keeps records on the daily weight of MSW fired.
At proposal, a cofired combustor was defined as a unit combusting a
fuel feed stream where 30 percent or less was comprised of MSW, as
measured on a 24-hour daily basis. Several commenters expressed concern
about a cofired status determination being made on a daily basis. For
example, some facilities that burn biomass material including yard
waste would have difficulty making a determination of cofired status on
a daily basis. Biomass material including yard waste (which is MSW) and
clean wood (which is not MSW) are often collected together and stored
on- or off-site for a period of time and intermixed before being
combusted. In such cases, it is difficult or impossible to determine
what percentage of the waste combusted daily was yard waste. After
considering the public comments, the EPA determined that the definition
of cofired combustor should be revised to allow for measuring the
percent MSW burned on a calendar quarterly basis. This change is
consistent with current waste refuse storage and recordkeeping
procedures.
Also under the proposal, MWC plants of 25 to 35 Mg/day capacity
were required to submit an initial notification of construction, but
they were not subject to the proposed standards or guidelines. Only MWC
plants greater than 35 Mg/day capacity were covered by the proposal. As
part of the Administrator's ``reinventing government'' initiative, the
initial notification requirement for MWC plants between 25 and 35 Mg/
day capacity was removed from the final rule to minimize the reporting
requirement for smaller plants. This change reduced reporting and
recordkeeping requirements for both the MWC and the EPA, but did not
reduce the level of environmental protection provided by the standards
and guidelines being adopted today.
Under the proposed standards, clean wood was included in the
definition of MSW. Several commenters disagreed with this decision to
cover clean wood under the MWC standards. Under the final rule, clean
wood is not considered to be MSW. Clean wood includes untreated wood or
untreated wood products including clean untreated lumber, tree stumps
(whole or chipped), and tree limbs (whole or chipped). Clean wood is
exempt from the definition of MSW because available data indicate that
combustion of clean wood results in low emission of dioxins/furans, Hg,
and other pollutants. Clean wood is predominantly an agricultural,
industrial, or other nonmunicipal solid waste; regulation of the
combustion of these types of wastes is currently being addressed under
a separate rulemaking. Clean wood does not include yard waste, which is
covered by the final MWC standards; yard waste includes grass, grass
clippings, bushes, shrubs, and clippings from bushes and shrubs that
are generated by residential, commercial/retail, institutional, or
nonmanufacturing industrial sources as part of maintenance activities
associated with yards or other private or public lands.
2. Emission Limits for MWC Metals, Acid Gases, Organics, Nitrogen
Oxides, and Ash Fugitive Emissions
Many commenters expressed concern as to whether the proposed
emission limits for all regulated pollutants are actually achievable by
an MWC. These commenters noted that no single MWC existed with all the
controls proposed as MACT (SD/FF/SNCR and carbon injection) and the
standards may not be achievable. Since proposal, the EPA has obtained
data from 12 new MWC units at 5 MWC plants that have recently begun
operation and all are equipped with the full set of controls proposed
as MACT (SD/FF/SNCR and carbon injection). Data from these plants show
that all proposed emission limits for all pollutants are simultaneously
being achieved. Therefore, the EPA remains convinced that properly
designed, constructed, maintained, and operated MWC plants can comply
with all pollutant emission limits included in the final standards.
For new sources, the MACT floor for each regulated pollutant was
established as the emission level achievable by the best controlled
source. To determine new source MACT for proposal, the EPA evaluated
the performance of SD/FF/SNCR/carbon injection. Since proposal, the EPA
obtained additional information regarding the performance of the
control technologies determined to be MACT (SD/FF/SNCR/carbon
injection). Based on the new information and a reevaluation of the data
used for proposal, the EPA revised the achievable performance levels
for PM, Cd, Pb, Hg, dioxins/furans, and NOX. Changes to the MACT
floor levels and the selected MACT standards resulting from these
reevaluations are discussed below.
[[Page 65396]]
a. MWC Acid Gases. The MACT floor levels and selected MACT emission
limits for MWC acid gases are the same as proposed.
b. MWC Metals. Based on comments and data received since proposal,
the EPA reassessed the achievable performance levels for PM, Cd, and Pb
by SD/FF systems. Based on this reassessment of available data, the
selected PM, Cd, and Pb MACT emission limits were revised. For both
large and small plants, the PM MACT floor and selected MACT limit were
revised to 24 mg/dscm (proposal was 15 mg/dscm). The Cd MACT floor and
selected MACT limit were revised to 0.020 mg/dscm (proposal was 0.010
mg/dscm). The Pb MACT floor and selected MACT limit were revised to
0.20 mg/dscm (proposal was 0.10 mg/dscm). The selected MACT limits for
all three pollutants were revised because, based on available data,
emission levels more stringent than these levels are not considered to
be continuously achievable.
The final MACT limits for Hg emissions for large and small plants
remain at the same levels as proposed (0.080 mg/dscm or an 85 percent
reduction in Hg emissions); however, the MACT floor level was revised.
At proposal, the MACT floor for Hg was based on use of an SD/FF system
combined with GCP. Carbon injection was not commercially operational at
any MWC. At proposal, MACT for Hg was based on use of an SD/FF system
in combination with carbon injection. This MACT selection was based on
evaluation of emission reductions, costs, and other factors, as
described in the proposal preamble (59 FR 48198, September 20, 1994).
Several commenters questioned the selection of an Hg MACT limit based
on carbon injection when carbon injection was not commercially
operated. Since proposal, data have become available for 12 new MWC
units initiating operation using carbon injection commercially, and all
were meeting the proposed Hg limits. Since carbon injection is now in
commercial operation, the EPA revised the final MACT floor for Hg to be
based on SD/FF in combination with carbon injection and GCP.
c. MWC Organics. The final emission limits for dioxins/furans for
new MWC's remain at the same level as proposed; however, the technology
basis for the floor level of control has been changed. As discussed in
section IV.B.2.b regarding MWC metals (Hg), the EPA reviewed new data
received since proposal and concluded that SD/FF combined with GCP and
carbon injection is the best emission control technology being used by
MWC's for Hg and dioxin/furan control, and is, therefore, the basis of
the final MACT floor. The data gathered prior to proposal as well as
data for new units operating with these controls show that a dioxin/
furan level of 13 ng/dscm is achievable. The final MACT emission limit
for dioxins/furans for new units at both large and small plants is
equal to the MACT floor and remains at 13 ng/dscm (total mass basis).
The format of the final dioxin/furan emission limit changed from
the proposed format. The EPA proposed a dual format for the dioxin/
furan emission limit (total or TEQ) and requested comments on the use
of this dual format. No commenters agreed with the dual format as
proposed. The EPA has selected total mass dioxin/furan emissions in the
final standards. The TEQ format is not used. There is no indication
that TEQ's would be a better measure of emissions control performance
than total dioxins/furans. Furthermore, most test data on which the
standards are based were expressed as total dioxins/furans.
Additionally, because there have been different methods for calculating
TEQ over time and the ratio of total dioxins/furans to TEQ dioxins/
furans varies among MWC's, there would be additional uncertainty in
using a TEQ data base. Refer to the promulgation preamble (56 FR 5504)
for the 1991 subpart Ea standards for additional discussion.
Although not part of the dioxin/furan limit, the limit of 13 ng/
dscm total mass is equal to about 0.1 to 0.3 ng/dscm TEQ.
In addition to the final dioxin/furan limit of 13 ng/dscm, a
provision has been added to the final standards allowing less frequent
dioxin/furan testing for new plants achieving dioxin/furan emission
levels lower than 7 ng/dscm. Data for new MWC's using SD/FF/SNCR/carbon
injection technology suggest this is a realistic goal for many new
MWC's and will encourage MWC's to optimize performance of pollution
control systems. Refer to section IV.B.7 for a description of the
alternative dioxin/furan testing schedule.
d. Nitrogen Oxides. As explained at proposal (59 FR 48198,
September 20, 1994), the combination of SD/FF, GCP, and SNCR was the
basis of the new source MACT floor for NOX. These technologies
remain the basis for the final NOX MACT floor. Since proposal, the
EPA has obtained additional NOX data showing that large MWC plants
equipped with SNCR can continuously achieve an emission level of 150
ppmv over a 24-hour averaging period. The new data were obtained from
the same plant that was the basis of the proposed NOX emission
level of 180 ppmv. The new data are representative of what NOX
emission level can be achieved after a plant has had a period of time
to adjust to operation with the SNCR system. Applications of SNCR
typically require some site-specific fine-tuning to achieve optimum
performance levels. Based on the revised data, a two-phase standard is
being adopted. The final NOX standard for MWC's at large plants
allows time to ``fine-tune'' the SNCR system. The final standard for
MWC's at large plants is 180 ppmv (24-hour averaging period) for the
first year of operation, and 150 ppmv (24-hour averaging period)
thereafter.
The final standards do not require NOX control for MWC's at
small plants.
e. MWC Fugitive Ash Emissions. The proposed fugitive ash emission
limit allowed no visible emissions from ash handling and transfer
points. Several commenters objected to the proposed level of no visible
emissions. The commenters were concerned that even where the best ash
management practices such as wetting the ash or enclosing transfer
systems, there may be short periods of time when visible emissions are
observed, such as during maintenance. The proposal was based on about
16 hours of method 22 visible emissions data for ash handling practices
at two MWC plants and observations (not using method 22) at two
additional MWC plants. Since proposal, the EPA has reviewed visible
emission data from other industries that use similar transfer systems.
Based on comments received and the review of additional data, the final
fugitive ash emission limit was revised to limit visible emissions to
no more than 5 percent of the time.
As part of the final fugitive ash emission requirements, an
exemption has been provided during maintenance and repair activities,
because these necessary activities may require opening of an enclosure
that could generate short-term visible emissions.
3. Good Combustion Practices
The proposed standards included CO limits for nine categories of
combustor technologies, including, among others, RDF stoker combustors
and coal/RDF mixed fuel-fired combustors. Commenters requested
clarification on which CO limit applies to a stoker unit that is
designed to combust coal and RDF but only combusts RDF. Under the final
standards, a spreader stoker unit burning RDF only or cofiring RDF with
coal would be subject to the proposed RDF stoker CO limit. To clarify
this
[[Page 65397]]
requirement, the final CO requirements include an additional category
of combustor technology referred to as ``spreader stoker coal/RDF mixed
fuel-fired combustors,'' which are assigned the same CO limit and
averaging time as RDF stoker combustors (150 ppmv, 24-hour averaging
time). The final standards further clarify that the category of
combustors referred to in the proposed standards as coal/RDF mixed
fuel-fired combustors only includes pulverized coal/RDF mixed fuel
streams, and the CO limit and averaging time remains the same as
proposed (150 ppmv, 4-hour averaging time).
4. Operator Training and Certification
The proposed standards required full ASME certification of chief
facility operators and shift supervisors within 6 months of startup of
an affected MWC. Various commenters including ASME pointed out that the
proposed standards did not include sufficient time for ASME to conduct
full certification exams for all MWC operators. After considering these
comments, the EPA revised the operator training requirements to allow
additional time for ASME (or State) certification exams. In the final
standards, chief facility operators and shift supervisors at new MWC
plants must obtain ASME or State-approved provisional certification
within 1 year after promulgation or 6 months after startup, whichever
is later. In addition, by this same date (1 year after promulgation or
6 months after startup, whichever is later), the same personnel must be
either fully certified or scheduled with ASME or the State to take a
full certification exam (instead of actually obtaining full
certification within 1 year, as proposed).
5. Air Curtain Incinerators
No changes were made to the proposed standards for air curtain
incinerators. As discussed above in section IV.B.1, the final standards
do not cover combustion of clean wood; therefore, air curtain
incinerators combusting only clean wood are not covered by the
standards.
6. Siting Analysis/Materials Separation Plan
Various commenters said the proposed siting analysis was not
consistent with section 129 of the Clean Air Act. Commenters also
argued that the proposed siting requirements were either too stringent
or not stringent enough. The siting analysis in the final rule has been
reworded to allow for a consideration of alternatives, on a site-
specific basis, to minimize to the maximum extent practicable potential
risks to the public health or the environment. These changes ensure
consistency with section 129(a)(3) of the Clean Air Act.
7. Compliance and Performance Testing
Both the proposed and final standards require all plants to perform
annual performance tests for dioxin/furan emissions. However, a
provision for less frequent dioxin/furan testing has been added to the
final rule to encourage MWC plants to achieve emission levels
significantly lower than 13 ng/dscm. By achieving low dioxin/furan
emissions, they would qualify for less frequent testing and thereby
reduce their testing costs. If all MWC units at an MWC plant achieve 7
ng/dscm dioxins/furans or less during performance testing for 2
consecutive years of operation, the plant can elect to conduct dioxin/
furan testing on one unit per year. The plant must test units in
sequence (e.g., a 3-unit plant would test unit 1 (year 1), unit 2 (year
2), unit 3 (year 3), unit 1 (year 4), etc.). If an annual performance
test conducted on any unit indicates total dioxin/furan emissions are
greater than 7 ng/dscm, the plant must revert to testing all units
annually beginning the following year until the 2-year compliance
record is reestablished.
For small plants, two options are provided. The one-unit incentive
schedule discussed above is provided for dioxin/furan testing. An
alternative 3-year testing option is also provided for small plants.
The alternative 3-year testing option allows small plants to conduct
performance tests for dioxins/furans, as well as PM, HCl, Cd, Pb, and
Hg only once every 3 years if the plant demonstrates compliance with
all pollutant emission limits for 3 consecutive years and continues to
demonstrate compliance every third year. The owner or operator of a
small plant may choose either option for performance testing.
8. Reporting and Recordkeeping Requirements
Reporting requirements have been changed from quarterly as proposed
to annual (semiannual if any emission limits or operating parameters
are violated) to reduce the burden on affected plants. In recognition
of the cost associated with reporting requirements, the EPA
reconsidered the effectiveness of quarterly versus annual reporting for
the purpose of determining compliance. After careful reconsideration,
the EPA has concluded that annual reporting will provide adequate
information for most plants. [The EPA notes, however, that once an MWC
is required to obtain a Title V Operating Permit, the Title V reporting
requirements given in Section 504(a) of the Act will supersede the
annual reporting requirements presented above. Section 504(a) requires
permittees to submit monitoring reports to the permitting authority no
less often than every six months. See 42 U.S.C. 7661c(a).]
C. Impacts of the Standards
The final standards can be achieved by utilizing any technology.
The basis for the MACT-based limits at both proposal and promulgation
remain the combination of GCP/SD/FF and carbon injection for new large
and small plants, and the additional use of SNCR at large plants.
Because the technology basis for the final standards is the same as at
proposal, the impacts analysis presented at proposal has not been
revised. Table 2 provides a brief summary of the air and cost impacts
of the standards. The summary in table 2 provides impacts estimates
relative to two baseline scenarios: a pre-1989 baseline (typical
control prior to the 1991 subpart Ea standards) and a 1991 baseline
(typical control under the 1991 subpart Ea standards). Refer to the
preamble to the proposed standards (59 FR 48198) for a detailed summary
of these air and control cost impacts, as well as a discussion of the
water, solid waste, energy, and economic impacts of the rule. The
national impacts estimates provided in table 2 and discussed in the
proposal preamble represent the EPA's estimate of the worst case of
impacts that would result from implementation of the standards. Recent
data suggest a reduction in the construction of new MWC's. This would
reduce the cost of the standards.
[[Page 65398]]
Table 2.--Impacts of the Current Subpart Ea and Promulgated Subpart Eb Standards
----------------------------------------------------------------------------------------------------------------
Increment of
promulgated
Parameter standards over 1991 Standards Total b
the 1991 a
standards
----------------------------------------------------------------------------------------------------------------
New MWC's subject to Standards in the Fifth Year After
Promulgation:
Combustion capacity (106 Mg/yr)............................. 0.8 16.8 17.6
Number of MWC plants........................................ 24 48 72
Cost (1990 Dollars):
Capital cost ($106)......................................... 156 613 769
Annualized cost ($106/yr)................................... 43 157 200
Average cost increase ($/Mg MSW combusted).................. 1.95 11.55 13.50
Annual Emissions Reduction (Mg/yr):
SO2......................................................... 3,000 35,000 38,000
Hcl......................................................... 4,000 46,000 50,000
PM.......................................................... 800 5,700 6,500
Cd.......................................................... 1 9 10
Pb.......................................................... 17 140 157
Hg.......................................................... 18 9 27
Nox......................................................... 200 10,300 10,500
Total dioxins/furans (kg/yr)................................ 1 28 29
----------------------------------------------------------------------------------------------------------------
a The impacts are based on a pre-1989 baseline (i.e., a baseline prior to the effective date of the subpart Ea
standards.
b The total impacts are calculated by adding the incremental impacts of the promulgated standards (subpart Eb)
to the impacts of the 1991 standards (subpart Ea). These impacts would be equivalent to the total impacts of
the promulgated standards over a pre-1989 baseline.
A number of comments were received on the possible effects on EPA's
costing analysis following the recent Supreme Court decision that
``flow control'' is unconstitutional. The EPA considered the effect of
flow control on the financing of new MWC's. In summary, the EPA finds
that if tipping fees are raised to cover the increased costs of these
regulations, then the lack of ``flow control'' requirements will likely
result in fewer MWC's being constructed and a shift of wastes to other
disposal options. The impacts of the flow control decision is likely to
be very place-specific depending on the relative tipping fees of MWC's
and other disposal options, transportation costs, and institutional
factors.
V. Guidelines for Existing Sources (1995)--Summary of the Guidelines,
Impacts of the Guidelines, and Significant Issues and Changes to the
Proposed Guidelines
This section presents a summary of the final guidelines, including
identification of the source category and pollutants being regulated,
and presentation of the final emission limits and their associated
performance testing, monitoring, recordkeeping, and reporting
requirements and compliance schedules. This section also provides a
discussion of the most significant issues and changes to the proposed
guidelines. Also mentioned are the impacts of the final guidelines.
The EPA strongly believes (based on emissions data from MWC's which
incorporate the necessary control technology) that the air pollution
control technology to be retrofitted to existing MWC's to meet the
emission guidelines will reduce actual emissions to levels
significantly below the limits established by the emission guidelines.
There remains, however, some uncertainty as to the actual performance
level that will be achieved on a continuous basis by the control
technology when installed at large MWC plants where ESP-based scrubber
systems are used. Therefore, the dioxin/furan emission limits included
in the emission guidelines for some types of MWC's, while still
significantly below the MACT floor, are slightly less stringent than
those included in the proposal.
The EPA will track the implementation of the guidelines and annual
performance test results in order to monitor the level of emissions
including dioxin/furan control actually achieved by the guidelines.
Additionally, the EPA may conduct supplemental dioxin/furan tests. The
EPA will also meet with MWC owners and operators as needed to review
the performance of the air pollution control technology and the
effectiveness of maintenance and operational practices in order to
provide information that will lead to optimal performance of emission
control technology, and will work with MWC owners and operators to
assure a continued high level of public safety.
A. Summary of the Guidelines
The final guidelines require States to develop emission regulations
limiting air emissions from each existing MWC unit located at a MWC
plant that has an aggregate plant capacity to combust more than 35 Mg/
day of MSW, for which construction commenced on or before September 20,
1994.
The aggregate design capacity of all existing MWC's at an MWC plant
shall be considered in determining: (1) Whether a plant is subject to
the guidelines; and (2) what control levels are applicable. The
capacity of new MWC's (i.e., those that commenced construction after
September 20, 1994 or that commenced modification or reconstruction
after June 19, 1996 that are located at the MWC plant are not
considered in determining applicability of the guidelines but would be
considered in determining the applicability of subpart Eb (standards
for new sources). Only MWC units constructed before September 20, 1994
are considered for determining the applicability of the guidelines.
Modification of an existing MWC (or funds spent) to comply with the
emission guidelines would not be considered in determining if an
existing MWC unit was subject to the standards for new MWC's (subpart
Ea or Eb).
Municipal waste combustion plants with a federally enforceable
permit to combust less than 10 Mg/day of MSW are exempt from the
requirements of the guidelines as long as they submit a notification of
exemption and keep daily records of the weight of MSW combusted.
Cofired combustors (i.e., that combust less than 30 percent MSW)
located at a plant with an aggregate plant capacity greater than 35 Mg/
day are exempt from the requirements of the guidelines as
[[Page 65399]]
long as they submit a notification of exemption and keep records of the
weight of MSW combusted on a calendar quarter basis.
The definitions of MWC and MSW have been revised but are the same
for the guidelines as for the standards, and are discussed in the
summary of the standards in section IV.A of this notice.
A summary of the final guidelines is presented in table 3.
Table 3. Summary of Guidelines for Existing MWC's (Subpart Cb) a
[* indicates a significant change since proposal and the change is
discussed in this preamble]
------------------------------------------------------------------------
------------------------------------------------------------------------
Applicability
The final guidelines apply to existing
MWC's located at plants with
capacities to combust greater than 35
Mg/day of residential, commercial, and/
or institutional discards. Industrial
manufacturing discards are not covered
by the guidelines. Any medical,
industrial manufacturing, municipal,
or other type of waste combustor plant
with capacity to combust greater than
35 Mg/day of MSW and with a federally
enforceable permit to combust less
than 10 Mg/day of MSW is not covered.*
Plant Size (MSW combustion capacity) Requirement
<35 mg/day*............................="" not="" covered="" by="" guidelines.=""> 35 Mg/day but 225 Mg/day Subject to provisions listed
(referred to as small MWC plants). below.
> 225 Mg/day (referred to as large MWC Subject to provisions listed
plants). below.
Good Combustion Practices
Applies to large and small MWC plants.
A site-specific operator training manual is required to be
developed and made available for MWC personnel.
The EPA or a State MWC operator training course would be
required to be completed by the MWC chief facility operator, shift
supervisors, and control room operators.
The ASME (or State-equivalent) provisional and full operator
certification must be obtained by the MWC chief facility operator
(mandatory), shift supervisors (mandatory), and control room operators
(optional).*
The MWC load level is required to be measured and not to exceed
110 percent of the maximum load level measured during the most recent
dioxin/furan performance test.
The maximum PM control device inlet flue gas temperature is
required to be measured and not to exceed the temperature 17 deg.C
above the maximum temperature measured during the most recent dioxin/
furan performance test.
The CO level is required to be measured using a CEMS, and the
concentration in the flue gas is required not to exceed the following:
------------------------------------------------------------------------
Averaging
MWC type CO level time
(hours)
Modular starved-air and excess-air. 50 ppmv............... 4
Mass burn waterwall and refractory. 100 ppmv.............. 4
Mass burn rotary refractory........ 100 ppmv.............. 24
Fluidized-bed combustion........... 100 ppmv.............. 4
Pulverized coal/RDF mixed fuel- 150 ppmv*............. 4
fired.
Spreader stoker coal/RDF mixed fuel- 200 ppmv*............. 24
fired.
RDF stoker......................... 200 ppmv.............. 24
Mass burn rotary waterwall......... 250 ppmv.............. 24
MWC Organic Emissions (measured as total mass dioxins/furans):
Dioxins/furans (performance test by EPA Reference Method 23)
Large MWC plants
MWC units utilizing an ESP-based 60 ng/dscm total mass
air pollution control system. (mandatory) or 15 ng/dscm
total mass (optional to
qualify for less frequent
testing).* c
MWC units utilizing a nonESP-based 30 ng/dscm total mass
air pollution control system. (mandatory) or 15 ng/dscm
total mass (optional to
qualify for less frequent
testing).* c
Small MWC plants..................... 125 ng/dscm total mass
(mandatory) or 30 ng/dscm
total mass (optional to
qualify for less frequent
testing).* c
Basis for dioxin/furan limits
Large MWC plants..................... GCP and SD/ESP or GCP and SD/
FF, as specified above.
Small MWC plants..................... GCP and DSI/ESP.
MWC Metal Emissions:
PM (performance test by EPA Reference Method 5)
Large MWC plants..................... 27 mg/dscm (0.012 gr/dscf).
Small MWC plants..................... 70 mg/dscm (0.030 gr/dscf).*
Opacity (performance test by EPA Reference Method 9)
Large and small MWC plants........... 10 percent (6-minute average)
Cd (performance test by EPA Reference Method 29)
Large MWC plants..................... 0.040 mg/dscm (18 gr/million
dscf).
Small MWC plants..................... 0.10 mg/dscm (44 gr/million
dscf).
Pb (performance test by EPA Reference Method 29)
Large MWC plants..................... 0.49 mg/dscm (200 gr/million
dscf).*
Small MWC plants..................... 1.6 mg/dscm (700 gr/million
dscf).
Hg (performance test by EPA Reference Method 29)
Large and small MWC plants........... 0.080 mg/dscm (35 gr/million
dscf) or 85-percent reduction
in Hg emissions.
Basis for PM, opacity, Cd, Pb, and Hg limits
Large MWC plants..................... GCP and SD/ESP/CI or GCP and SD/
FF/CI
[[Page 65400]]
Small MWC plants..................... GCP and DSI/ESP/CI.
MWC Acid Gas Emissions:
SO2 (performance test by CEMS)
Large MWC plants..................... 31 ppmv or 75-percent reduction
in SO2 emissions.*
Small MWC plants..................... 80 ppmv or 50-percent reduction
in SO2 emissions.
HCl (performance test by EPA Reference Method 26)
Large MWC plants..................... 31 ppmv or 95-percent reduction
in HCl emissions.*
Small MWC plants..................... 250 ppmv or 50-percent
reduction in HCl emissions.
Basis for SO2 and HCl limits
Large and small MWC plants........... See basis for MWC metals.
Nitrogen Oxides Emissions
NOX (performance test by CEMS)
Large MWC plants:
Mass burn waterwall................ 200 ppmvb.
Mass burn rotary waterwall......... 250 ppmvb.
Refuse-derived fuel combustor...... 250 ppmvb.
Fluidized bed combustor.............. 240 ppmvb.
Mass burn refractory................. No NOX controlb requirement
Other................................ 200 ppmvb.
Small MWC plants..................... No NOx control requirement.
Basis for NOx limits
Large MWC plants..................... SNCR.
Refractory MWC plants................ No NOX control requirement
Small MWC plants..................... No NOX control requirement.
Fugitive Ash Emissions:
Fugitive Emissions
(performance test by EPA Reference
Method 22)
Large and small plants............... Visible emissions 5 percent of
the time from ash transfer
systems except for maintenance
and repair activities.*
Basis for fugitive emission Wet ash handling or enclosed
limit ash handling.
Performance Testing and Monitoring
Requirements:
Reporting frequency Annual (semiannual if
violation)*.
Load, flue gas temperature Continuous monitoring, 4-hour
block arithmetic average
CO CEMS, 4-hour block or 24-hour
daily arithmetic average, as
applicable
Dioxins/furans, PM, Cd, Pb,
HCl, and Hg
Large MWC plants..................... Annual stack test.*
Small MWC plants..................... Annual or third year stack
test.
Opacity COMS (6-minute average) and
annual stack test.
SO2 CEMS, 24-hour daily geometric
mean.
NOX (large MWC plants only) CEMS, 24-hour daily arithmetic
average.
Fugitive ash emissions Annual test.*
Compliance Schedule:
Large MWC plants
State plans are required to include one of the following three
retrofit schedules for compliance with regulatory requirements: (1)
Full compliance or closure within 1 year following EPA approval of
the State plan; (2) full compliance in 1 to 3 years following
issuance of a revised construction or operation permit if a permit
modification is required or 1 to 3 years following EPA approval of
the State plan if a permit modification is not required, provided the
State plan includes measurable and enforceable incremental steps of
progress toward compliance; or (3) closure in 1 to 3 years following
approval of the State plan, provided the State plan includes a
closure agreement. If a State plan allows the second or third
scheduling options (i.e., more than 1 year), the State plan submitted
to EPA must contain post-1990 test data for dioxins/furans for all
MWC units at large plants under the extended schedule. (See Sec.
60.21(h) of subpart B of 40 CFR 60 for additional information
relating to measurable and enforceable incremental steps of progress
toward compliance).
Small MWC plants
State plans must require full
compliance or closure with
regulatory requirements in 3 years
or less following issuance of a
revised construction or operation
permit if a permit modification is
required, or within 3 years
following EPA approval of the State
plan if a permit modification is not
required.
State plans are required to specify that all MWC's at large MWC
plants for which construction was commenced after June 26, 1987 comply
with the guidelines for Hg and dioxins/furans within 1 year following
issuance of a revised construction or operation permit if a permit
modification is required, or within 1 year following EPA approval of
the State plan, whichever is later.
State plans are required to
specify that owners or operators of
MWC's comply with the operator
training and certification
requirements by 6 months after startup
or 1 year after State plan approval by
the EPA, whichever is later, for large
plants and by 6 months after startup
or 18 months after State plan approval
by the EPA, whichever is later, for
small plants.
*=significant change since proposal, and the change is discussed in this
preamble.
a All concentration levels in the table are converted to 7 percent O2,
dry basis.
b State plans may allow NOX emissions averaging between existing MWC
units at a large MWC plant. The daily weighted average NOX emissions
concentration from the MWC units included in the emissions averaging
plan must comply with the following 24-hour limits: 180 ppmv for mass
burn waterwall combustors; 220 ppmv for mass burn rotary waterwall
combustors; 230 ppmv for refuse-derived fuel combustors; 220 ppmv for
fluidized bed combustors; and 180 ppmv for other combustor types
(excluding mass burn refractory combustors). Refer to the regulatory
text of the emission guidelines for additional requirements. State
plans may also establish a program to allow emissions trading between
non-contiguous MWC plants. Such a program shall meet the requirements
of the Open Market Trading Rule of Ozone Smog Precursors, proposed
August 3, 1995 (60 FR 39668) as finally promulgated.
c Although not part of the dioxin/furan limit, the dioxin/furan total
mass limits of 30 ng/dscm, 60 ng/dscm, and 125 ng/dscm are equal to
about 0.3 to 0.8 ng/dscm TEQ, 0.7 to 1.4 ng/dscm TEQ, and 1.7 to 2.9
ng/dscm TEQ, respectively. The optional reduced testing limits of 15
ng/dscm and 30 ng/dscm total mass are equal to about 0.1 to 0.3 ng/
dscm TEQ and 0.3 to 0.8 ng/dscm TEQ, respectively.
[[Page 65401]]
B. Significant Issues and Changes to the Proposed Guidelines
The most significant changes to the proposed guidelines are
discussed below. Rationales for these changes as well as other changes
not discussed below are provided in the promulgation BID (EPA-453/R-95-
0136). Issues not discussed below include additional changes to GCP
requirements, monitoring requirements, recordkeeping and reporting
requirements, and compliance schedules.
1. Designated Facilities
Under the final guidelines, any medical, municipal, industrial
manufacturing, or other type of waste combustion plant capable of
combusting greater than 35 Mg/day MSW but actually combusting less than
10 Mg/day of MSW is not a designated facility, as long as the plant
submits an initial report and keeps certain records. This exemption was
not included in the proposed guidelines. This exemption is identical to
the exemption in the standards for new sources. Section IV.B.1 provides
further discussion of the exemption.
Under the final guidelines, a cofired combustor is defined as a
unit combusting a fuel feed stream 30 percent or less MSW, as measured
on a calendar quarterly basis. At proposal, determination of status as
a cofired combustor was measured on a daily basis. This change is
identical to the change made in the standards. Refer to section IV.B.1
for further discussion on the change.
The initial reporting requirement in the proposed guidelines for
MWC plants with combustion capacity greater than 25 Mg/day but less
than or equal to 35 Mg/day is not included in the final guidelines.
Both the proposed and final guidelines exempt plants with capacity less
than 35 Mg/day. Also, an exemption for combustion of clean wood or
clean wood products is included in the final guidelines. This exemption
is identical to the exemption in the standards. Refer to section IV.B.1
for discussion of EPA's rationale for this exemption.
2. Emission Limits for MWC Metals, Acid Gases, Organics, and Nitrogen
Oxides, and Ash Fugitive Emissions
For existing MWC's, the MACT floor levels and the emission limits
for several pollutants have been revised since proposal. See the
proposal preamble (59 FR 48228, September 20, 1994), the promulgation
BID (EPA-453/R-95-0136), and docket A-90-45 for additional details on
the MACT floor analysis methodology and the selection of MACT.
Since proposal, the EPA revised the MACT floors for existing plants
based on new permit information received and an updated inventory of
operating MWC plants. This revision resulted in revised MACT floor
levels for various pollutants for small and large MWC plants. The
revised MACT floor pollutant levels for large plants have resulted in
more stringent MACT emission limits for SO2, HCl, and Pb. In
addition, the revised MACT floors and emission limits for NOX for
large plants include emission levels based on combustor type. Revisions
to the MACT floor that resulted in revisions to the selected MACT level
of control for specific pollutants are discussed below.
While the final emission limits are somewhat different from
proposal, the limits can be achieved using the same control
technologies that were the basis of the proposed emission limits. The
technology bases for large and small plants are summarized in table 3.
a. MWC Acid Gases. Based on the new information and test data
received after proposal and the revised MACT floor analysis, the EPA
revised the MACT limits for SO2 and HCl for the final guidelines
for large plants.
The revised SO2 MACT floor for large plants is 31 ppmv. The
final SO2 emission limit for large plants, which was set at the
MACT floor level of 35 ppmv at proposal, is 31 ppmv because of the
change in the MACT floor at promulgation.
The MACT-based SO2 limit of 80 ppmv for small plants has not
changed from proposal; however, the SO2 MACT floor for small
plants is revised to 98 ppmv. Because the revised floor is more
stringent than the proposal floor (the floor at proposal was 118 ppmv),
the EPA's conclusion that acid gas controls will be needed to achieve
the floor remains the same. In addition, the EPA's conclusion that a
lower emission rate of 80 ppmv is achievable at minimal cost also
remains the same. Therefore, the final SO2 emission limit for
small plants remains at 80 ppmv.
The revised HCl MACT floor for large plants is 31 ppmv. The final
HCl emission limit for large plants, which was set at the MACT floor
level of 35 ppmv at proposal, is 31 ppmv because of the change in the
MACT floor at promulgation.
b. MWC Metals. Based on the new information and test data received
after proposal and the revised MACT floor analysis, the Pb limit for
large plants was revised for the final guidelines. The proposed Pb MACT
emission level for large plants was 0.50 mg/dscm; however, the revised
Pb MACT floor emission level for large plants is 0.49 mg/dscm.
Therefore, the final Pb emission limit for large plants has been
revised to 0.49 mg/dscm.
c. MWC Organics. The dioxin/furan emission limits for large and
small plants were revised since proposal. The MACT floor for dioxins/
furans for MWC's at large plants is 126 ng/dscm total mass. As
documented in the preambles to these proposed guidelines (59 FR 48228,
September 20, 1994) and the promulgated subpart Ca guidelines (56 FR
5514, February 11, 1991), in combination with GCP, SD/ESP systems can
achieve dioxin/furan total mass emissions of 60 ng/dscm and SD/FF
systems can achieve dioxin/furan total mass emissions of 30 ng/dscm.
Therefore, the MACT floor of 126 ng/dscm can be achieved with either
SD/ESP or SD/FF systems.
When determining the final MACT standard (which may be more
stringent than the MACT floor), section 129(a)(2) requires the
Administrator to consider certain factors, including the cost of
achieving the emission reduction. In the Administrator's judgment, it
would be prohibitively expensive and unreasonable to require existing
MWC's with ESP's that can meet a dioxin/furan emission limit of 60 ng/
dscm to retrofit an SD/FF in order to achieve an additional 30 ng/dscm
reduction in emissions. For example, at a typical 1,400 Mg/day MWC
plant already equipped with an SD/ESP, the capital cost to remove the
ESP and retrofit a new FF would be about $14 million. This cost would
be in addition to paying the remaining debt for a relatively new ESP
(about $5 million including interest payments) and would result in a
relatively small increase in control device efficiency.
For the final rule, the Administrator considered several regulatory
options more stringent than the MACT floor; however, because of this
high pollution control device retrofit cost, the Administrator decided
to set separate MACT limits for MWC's with ESP-based control systems
and MWC's with nonESP-based control systems. For MWC's with ESP-based
control systems, the EPA selected a MACT level of 60 ng/dscm total
mass, based on the performance of SD/ESP systems. For MWC's using or
retrofitting nonESP-based control systems, the EPA selected a MACT
level of 30 ng/dscm total mass, based on the performance of SD/FF
systems. The number of MWC plants that will comply by using an SD/ESP
will be limited (only about 10 percent of the MWC plants). The vast
majority of MWC's are expected to use SD/FF systems to comply.
[[Page 65402]]
The MACT floor for dioxins/furans at small MWC plants is 1,500 ng/
dscm total mass. As with large MWC plants, the final emission
guidelines limit for dioxins/furans is more stringent than the MACT
floor. The final guideline limit for dioxins/furans at small MWC plants
is 125 ng/dscm total mass and is based on DSI/ESP technology.
The final MACT limit for Hg is based on use of activated carbon
injection. Activated carbon injection technology used in combination
with DSI/ESP, SD/ESP, or SD/FF technology is expected to result in
supplemental dioxin/furan control, reducing dioxin/furan emissions from
these control systems by more than 50 percent. The final MACT guideline
levels for dioxins/furans for existing units at small and large plants
do not consider supplemental dioxin/furan control from activated carbon
injection because an insufficient amount of emissions data exist to
adequately determine the performance level of activated carbon
injection retrofitted to existing MWC air pollution control systems.
Nonetheless, it is expected that the use of activated carbon injection
will result in additional reduction of dioxins/furans to levels below
the emission limits in the final guidelines.
As with the standards for new MWC's, the final guidelines include a
provision that allows less frequent dioxin/furan testing if a plant is
achieving a significantly lower level of dioxin/furan emissions (15 ng/
dscm for MWC's at large plants and 30 ng/dscm for MWC's at small
plants). This option will encourage optimal performance and minimal
emissions. Refer to section IV.B.7 for a description of the alternative
testing schedule.
Relative to the proposal, the optional TEQ format of the proposed
dioxin/furan emission limits was removed in the final standards, as
explained in section IV.B.2.c. Although not part of the dioxin/furan
limit, the dioxin/furan total mass limits of 30 ng/dscm, 60 ng/dscm,
and 125 ng/dscm are equal to about 0.3 to 0.8 ng/dscm TEQ, 0.7 to 1.4
ng/dscm TEQ, and 1.7 to 2.9 ng/dscm TEQ, respectively.
d. Nitrogen Oxides. After considering data submitted by commenters
regarding requiring SNCR for MWC units at large plants where some could
already achieve the MACT floor level without SNCR, the EPA changed the
proposed NOX emission limit of 180 ppmv for all large plants. The
NOX MACT floor was revised by calculating the MACT floor
separately for each subcategory of combustor type, and the MACT limits
are being promulgated at levels equivalent to the MACT floors for each
combustor type. The final guideline MACT limits are: 200 ppmv for mass
burn waterwall combustors; 250 ppmv for refuse-derived fuel combustors;
250 ppmv for mass burn rotary waterwall combustors; 240 ppmv for
fluidized bed combustors; no limit for mass burn refractory combustors;
and 200 ppmv for other combustors not listed above.
In addition, the EPA has revised the emission guidelines to allow
States to include in their State plans options for averaging of
emissions from units within a large MWC plant, and for trading
emissions between MWC plants. The plant average emission limits for
units being included in an emissions averaging plan within a plant are
approximately 10 percent less than the MACT limits for each combustor
type, as follows: 180 ppmv for mass burn waterwall combustors; 220 ppmv
for mass burn rotary waterwall combustors; 230 ppmv for refuse-derived
fuel combustors; 220 ppmv for fluidized bed combustors; and 180 ppmv
for other combustor types (excluding mass burn rotary refractory
combustors). Emissions trading between units at noncontiguous plants
must be consistent with the requirements of the Open Market Trading
Rule for Ozone Smog Precursors, proposed August 3, 1995 (60 FR 39668),
as finally promulgated. Until the Open Market trading rule is
finalized, it is not possible to reference the rule in the guidelines
text. In the interim, the guideline text indicates NOX emissions
trading must be approved by the Administrator prior to implementation.
After the Open Market Trading Rule is finalized, it is preapproved for
use under the guidelines.
e. Fugitive Ash Emissions. The emission limit for fugitive ash
emissions under the final guidelines is visible emissions no more than
5 percent of the time from ash conveying and transfer systems at MWC's.
An exemption for maintenance and repair activities has been added.
These same changes were made to the standards for new sources. See the
discussion of the standards in section IV.B.2.e for an explanation of
the reasons for these changes.
3. Good Combustion Practices
The final CO guidelines include an additional category of combustor
technology referred to as ``spreader stoker coal/RDF mixed fuel-fired
combustors,'' which is assigned the same CO limit and averaging time as
the RDF stoker combustor category (200 ppmv, 24-hour averaging time).
In the final guidelines, the category of combustors referred to in the
proposal as ``coal/RDF mixed fuel-fired combustors'' was revised to
``pulverized coal/RDF mixed fuel-fired combustors,'' and the CO limit
and averaging time remains the same as proposed (150 ppmv, 4-hour
averaging time). These same changes were made to the standards for new
sources. See the discussion of the standards in section IV.B.3 for an
explanation of the reasons for these changes.
4. Operator Training and Certification
As discussed in section IV.B.4 for the standards for new sources,
the EPA has clarified the provisional certification requirements and
revised the schedule for full certification of chief facility operators
and shift supervisors to allow sufficient time to schedule exams. As
stated in the proposal preamble, a State-approved ASME-equivalent
certification program may be substituted for ASME certification.
For large plants, the final guidelines specify that a State plan
must require chief facility operators and shift supervisors to obtain
ASME provisional certification by 1 year after State plan approval or 6
months after startup, whichever is later. In addition, a State plan
must require that, by the same date, these personnel obtain full
certification or be scheduled with ASME to take the ASME full
certification exam (instead of actually obtaining full certification
within 1 year as proposed).
For small plants, the final guidelines specify that a State plan
must require chief facility operators and shift supervisors to obtain
ASME provisional certification by 18 months after State plan approval
or 6 months after startup, whichever is later. In addition, a State
plan must require that, by the same date, these personnel obtain full
certification or be scheduled with ASME to take the ASME full
certification exam (instead of actually obtaining full certification
within 1 year as proposed).
5. Air Curtain Incinerators
No changes were made to the proposed guidelines for air curtain
incinerators. As discussed in section V.B.1, the final guidelines do
not cover combustion of clean wood; therefore, air curtain incinerators
combusting only clean wood are not covered by the guidelines.
6. Compliance and Performance Testing
Under the final guidelines, State plans must specify that all
plants are required to perform annual performance testing for dioxin/
furan emissions. However, a provision for less frequent testing has
been added to encourage plants to
[[Page 65403]]
optimize performance and achieve emission levels significantly lower
than the dioxin/furan emission limits in the final guidelines. State
plans may require that, to take advantage of this provision, existing
MWC's must meet a dioxin/furan level of 15 ng/dscm (large plants) or 30
ng/dscm (small plants), for 2 consecutive years. Refer to the
discussion on the standards for new MWC's under section IV.B.7 for a
description of this reduced testing schedule.
7. Reporting and Recordkeeping Requirements and Compliance Schedules
Reporting requirements have been changed from quarterly to annual
(semiannual if exceeding the emission limit for any pollutant) to
reduce the economic burden on MWC's. Refer to section IV.B.8 for an
explanation of the reasons for this change.
The EPA revised the proposed compliance schedule for large and
small plants to allow more time for small plants to comply with the
guidelines and to clarify the schedule for plants that select to close
down operation rather than retrofit to comply with the guidelines. The
final compliance schedule is as follows. For large MWC plants, State
plans may allow three alternative compliance schedules: (1) Full
compliance or closure within 1 year following approval of the State
plan; (2) full compliance in 1 to 3 years following issuance of a
revised construction or operation permit if a permit modification is
required or 1 to 3 years following approval of the State plan if a
permit modification is not required, provided the State plan includes
measurable and enforceable incremental steps of progress toward
compliance; or (3) closure in 1 to 3 years following approval of the
State plan, provided the State plan includes a closure agreement. If a
State plan allows the second or third scheduling options (i.e., more
than 1 year), the State plan submitted to EPA must include post-1990
test data for dioxins/furans for all MWC units at large plants under
the schedule. For small MWC plants, State plans must require full
compliance or closure in up to 3 years following issuance of a revised
construction or operation permit if a permit modification is required,
or 3 years following approval of the State plan if a permit
modification is not required.
C. Impacts of the Guidelines
The final guidelines can be achieved by designated facilities that
utilize the same control technologies that were the basis for the
proposed guidelines. The basis for the MACT guidelines selected at both
proposal and promulgation is GCP/SD/ESP(or FF)/SNCR and carbon
injection for large plants and GCP/DSI/ESP and carbon injection for
small plants. Because the technology basis for the final guidelines is
the same as at proposal, the impacts analysis presented at proposal has
not been revised for the promulgated rule. Table 4 provides a brief
summary of the air and cost impacts of the guidelines. The summary in
table 4 provides impacts estimates based on two baseline scenarios: A
pre-1989 baseline (control level prior to the 1991 subpart Ca
guidelines) and a 1991 baseline (control level after the 1991 subpart
Ca guidelines.) Refer to the preamble to the proposed guidelines (59 FR
48228) for a detailed summary of these air and control cost impacts, as
well as a discussion of the water, solid waste, energy, and economic
impacts of the guidelines.
Table 4.--Impacts of the 1991 Subpart Ca and Promulgated Subpart Cb Guidelines
----------------------------------------------------------------------------------------------------------------
Increment of
promulgated 1995
1991 subpart Ca Promulgated 1995 subpart Cb
Parameter guidelines a subpart Cb guidelines over
guidelines a the 1991 subpart
Ca guidelines b
----------------------------------------------------------------------------------------------------------------
Characteristics of Existing MWC's:
Combustion capacity (10 \6\ Mg/yr)................... 35.9 39.0 3.1
Number of MWC plants................................. 158 179 21
Cost (1990 Dollars):
Capital cost ($10 \6\)............................... 888 2,100 1,212
Annualized cost ($10 \6\/yr)......................... 168 445 277
Average cost increase ($/Mg MSW combusted)........... 6.40 13.60 7.20
Annual Emissions Reduction (Mg/yr):
SO2.................................................. 25,000 43,000 18,000
HCl.................................................. 36,000 56,000 20,000
PM................................................... 1,100 3,100 2,000
Cd................................................... 2 5 3
Pb................................................... 30 83 53
Hg................................................... 11 47 36
NOX.................................................. 0 19,000 19,000
Total dioxins/furans (kg/yr)..................... 117 157 40
----------------------------------------------------------------------------------------------------------------
a The impacts are based on a pre-1989 baseline (i.e., a baseline prior to the effective date of the subpart Ca
guidelines).
b The impacts are calculated by subtracting the impacts of the 1991 subpart Ca guidelines from the impacts of
the promulgated 1995 subpart Cb guidelines (based on a pre-1989 baseline).
The national impacts estimates provided in table 4 and discussed in
the proposal preamble represent EPA's estimate of the upper limit of
impacts that would result from implementation of the guidelines. To the
extent that any existing MWC's close rather than comply with the
guidelines or switch to other disposal options that may cost less, the
national costs will be lower and air emissions will be less.
A number of comments were received on the possible effects on EPA's
costing analysis following the recent Supreme Court decision that
``flow control'' is unconstitutional. The EPA considered the effect of
flow control on the financing of existing MWC's. In summary, the EPA
finds that if MWC's raise tipping fees to cover the increased costs of
these regulations, then the lack of ``flow control'' will likely result
in a shift of some wastes to other disposal options. The combined
impacts of no flow control and increased tipping fees on individual
MWC's and municipalities are likely to be very
[[Page 65404]]
place-specific depending on the relative tipping fees of MWC's and
other disposal options, transportation costs, and institutional
factors. If tipping fees are not raised to offset emission control
costs, then operators of MWC's will have to finance the costs of the
regulations out of current revenues.
The EPA has identified several ways that State and local
governments can guarantee a continued source of MSW for the MWC's and
provide funds from the general revenue to support the operation of MWC
facilities, accomplishing some of the outcomes that flow control can
produce, including: (1) Government provision of collection services;
(2) contractor provision of collection services under government
contract; (3) franchising collection and hauling to designated
facilities; (4) subsidizing facilities from the general revenues; and
(5) supporting integrated solid waste management programs from the
general revenue.
VI. Administrative Requirements
This section addresses the following administrative requirements:
Docket, Paperwork Reduction Act, Executive Orders 12866 and 12875,
Unfunded Mandates Act, Regulatory Flexibility Act, and Clean Air Act
Procedural Requirements.
A. Docket
The docket is an organized and complete file of all the information
considered in the development of this rulemaking. The principal
purposes of the docket are: (1) To allow interested parties to identify
and locate documents so that they can effectively participate in the
rulemaking process; and (2) to serve as the record in case of judicial
review, except for interagency review material. 42 U.S.C.
Sec. 7607(d)(7)(A). The docket number for this rulemaking is A-90-45.
Docket No. A-89-08 also includes background information for this
rulemaking that supported the proposal and promulgation of the subpart
Ea standards and subpart Ca guidelines.
B. Paperwork Reduction Act
The information collection requirements in this rule have been
submitted for approval to the Office of Management and Budget (OMB)
under the Paperwork Reduction Act, 44 U.S.C. 3501 et seq. An
Information Collection Request (ICR) document has been prepared by EPA
(ICR No. 1506.5) and a copy may be obtained from Sandy Farmer, OPPE
Regulatory Information Division; U.S. Environmental Protection Agency
(2136); 401 M St., S.W.; Washington, DC 20460 or by calling (202) 260-
2740. This ICR document is also available on the EPA's TTN Clean Air
Act Amendments electronic bulletin board. See the SUPPLEMENTARY
INFORMATION section of this preamble for information on accessing EPA's
TTN electronic bulletin board.
The information required to be collected by this rule is necessary
to identify the regulated entities who are subject to the rule and to
ensure their compliance with the rule. The recordkeeping and reporting
requirements are mandatory and are being established under authority of
Section 114 of the Act. All information submitted as part of a report
to the Agency for which a claim of confidentiality is made will be
safeguarded according to the Agency policies set forth in Title 40,
Chapter 1, part 2, subpart B--Confidentiality of Business Information
(see 40 CFR 2; 41 FR 36902, September 1, 1976, amended by 43 FR 39999,
September 28, 1978; 43 FR 42251, September 28, 1978; 44 FR 17674, March
23, 1979).
The annual reporting and recordkeeping burden presented in this ICR
document reflects only part of the burden imposed by this rule. The
rest of the burden was presented to and approved by the OMB in an ICR
document in 1991 for the subpart Ea NSPS promulgated in February 1991.
The ICR document that accompanied the subpart Ea rulemaking summarized
the reporting and recordkeeping requirements that MWC owners and
operators of large MWC units are required to follow to demonstrate
compliance with the 1991 NSPS. As explained elsewhere in this document,
the Clean Air Act Amendments were passed by Congress in 1990, and they
included section 129 that directs the Administrator to extend the NSPS
to small MWC plants, as well as to include emission limits for
additional pollutants and siting requirements. This ICR document for
subpart Eb presents this additional burden imposed by section 129 of
the Act, by summarizing the total annual burden on small plants (i.e.,
for the reporting and recordkeeping requirements associated with all
pollutant emission limits and siting) and the additional annual burden
on large MWC plants (i.e., only for requirements associated with Cd,
Pb, Hg, and fugitive ash emission limits and siting).
The total annual reporting and recordkeeping burden summarized in
this ICR document for this collection averaged over the first 3 years
of NSPS application to new MWC's is estimated to be about 69,700 person
hours per year. This would be the estimated annual burden for 64
respondents (i.e., MWC units). This is a worst-case burden estimate, as
discussed under section IV.C. If fewer MWC units are constructed than
have been projected, then the burden will be less than reported here.
The average burden per respondent is about 1,100 person hours per year.
The rule requires an initial one-time notification from each new MWC
regarding all pollutant emission levels and siting and subsequent
annual compliance reports regarding all pollutant emission levels.
Additionally, if any of the pollutant emission limits are exceeded,
respondents would be required to submit semi-annual reports. The rule
includes continuous monitoring requirements for SO2, opacity, CO,
CO2, O2 and annual stack testing requirements for PM,
dioxins/furans, opacity, HCl, Cd, Pb, Hg, and fugitive ash. Efforts
were made to reduce the burden on small plants by allowing them to test
emissions once every 3 years instead of annually if they demonstrate
that they consistently meet the emissions requirements. This burden
estimate includes the time needed to review instructions; develop,
acquire, install, and utilize technology and systems for the purposes
of collecting, validating, and verifying information, processing and
maintaining information, and disclosing and providing information;
adjust the existing ways to comply with any previously applicable
instructions and requirements; train personnel to be able to respond to
a collection of information; search data sources; complete and review
the collection of information; and transmit or otherwise disclose the
information.
Comments on the ICR document are requested, including the Agency's
need for the information presented in this ICR document, the accuracy
of the provided burden estimates, and any suggested methods for
minimizing respondent burden. Send comments on the ICR to the Director,
OPPE Regulatory Information Division; U.S. Environmental Protection
Agency (2136); 401 M St. S.W.; Washington, DC 20460; and to the Office
of Information and Regulatory Affairs, Office of Management and Budget,
725 17th St. N.W.; Washington, DC 20503; marked ``Attention: Desk
Officer for EPA''. Include the ICR number in any correspondence. Since
the OMB is required to make a decision concerning the ICR between 30
and 60 days after December 19, 1995, a comment to OMB is best assured
of having its full effect if OMB receives it by January 18, 1996. The
EPA will publish a response to
[[Page 65405]]
OMB and public comments on the information collection requirements
contained in this proposal in a subsequent Federal Register notice.
C. Executive Order 12866
Under Executive Order 12866 (58 FR 51735, October 4, 1993), the EPA
must determine whether the regulatory action is ``significant,'' and
therefore, subject to OMB review and the requirements of the Executive
Order. The Order defines ``significant'' regulatory action as one that
is likely to lead to a rule that may:
(1) Have an annual effect on the economy of $100 million or more,
or adversely affect in a material way the economy, a sector of the
economy, productivity, competition, jobs, the environment, public
health or safety, or State, local or tribal governments or communities;
(2) Create a serious inconsistency or otherwise interfere with an
action taken or planned by another agency;
(3) Materially alter the budgetary impact of entitlements, grants,
user fees, or loan programs or the rights and obligations of recipients
thereof; or
(4) Raise novel legal or policy issues arising out of legal
mandates, the President's priorities, or the principles set forth in
the Executive Order.
Pursuant to the terms of Executive Order 12866, the promulgated
standards for new sources will not be a ``significant'' rule because
the annual effect on the economy is expected not to exceed $43 million
over the cost of the existing subpart Ea standards. However, the EPA
considers these promulgated standards to be ``significant'' because of
their relationship to the guidelines for MWC's that are also being
promulgated today. The final guidelines will cost $450 million per year
or less based on a baseline prior to the effective date of the subpart
Ea standards. As such, this action was submitted to OMB for review.
Changes made in response to OMB suggestions or recommendations are
documented in the public docket for this rulemaking.
D. Unfunded Mandates Act
Under section 202 of the Unfunded Mandates Reform Act of 1995
(``Unfunded Mandates Act''), signed into law on March 22, 1995, the EPA
must prepare a statement to accompany any rule where the estimated
costs to State, local, or tribal governments, or to the private sector,
will be $100 million or more in any 1 year. Section 203 requires the
EPA to establish a plan for informing and advising any small
governments that may be significantly or uniquely impacted by the rule.
Under section 205(a), the EPA generally must select the ``least costly,
most cost-effective or least burdensome alternative that achieves the
objectives of the rule'' and is consistent with statutory requirements.
The EPA has complied with section 205 of the Unfunded Mandates Act, by
promulgating a rule that is the most cost-effective alternative for
regulation of these sources that meets the statutory requirements under
the Clean Air Act. For Hg and dioxins/furans, the EPA adopted standards
that are more stringent than the MACT floor level of control. In the
case of dioxins/furans, the EPA concluded that a standard more
stringent than the MACT floor can be achieved at little or no cost, and
thus represents the most cost-effective control. In the case of Hg, the
MACT floor emissions level is equal to current uncontrolled levels.
However, the EPA concluded, after considering the requisite factors in
section 129(a)(2), that an uncontrolled floor level could not be
justified under the Clean Air Act and that a more stringent emissions
standard based on the use of carbon injection as an add-on control
would be cost-effective. The EPA was unable in this rulemaking to
identify any alternatives other than carbon injection for control of Hg
emissions. To the extent that section 205(a) of the Unfunded Mandates
Reform Act (UMRA) may be read to have the EPA consider a less stringent
level of Hg control, the EPA concluded that such an alternative would
be ``inconsistent with law'' within the meaning of section 205(b)(2) of
the UMRA. Accordingly, the alternative selected for Hg is the most
cost-effective one available under these circumstances.
The unfunded mandates statement under section 202 must include: (1)
A citation of the statutory authority under which the rule is proposed,
(2) an assessment of the costs and benefits of the rule including the
effect of the mandate on health, safety and the environment, and the
Federal resources available to defray the costs, (3) where feasible,
estimates of future compliance costs and disproportionate impacts upon
particular geographic or social segments of the nation or industry, (4)
where relevant, an estimate of the effect on the national economy, and
(5) a description of the EPA's consultation with State, local, and
tribal officials.
Since this rule is estimated to impose costs to the private sector
and government entities in excess of $100 million, the EPA has prepared
the following statement with respect to these impacts.
1. Statutory Authority
The statutory authority for this rulemaking, sections 111 and 129
of the Clean Air Act, is fully discussed in section II of this
preamble. The rule establishes emission guidelines for existing MWC's
and standards of performance for new MWC's.
Section 129(a)(2) requires the Administrator to promulgate
standards for new solid waste incinerator units and emission guidelines
for existing units that ``reflect the maximum degree of reduction in
emissions of air pollutants listed under section (a)(4) that the
Administrator, taking into consideration the cost of achieving such
emission reduction, and any non-air-quality health and environmental
impacts and energy requirements, determines is achievable for new or
existing units in each category. The Administrator may distinguish
among classes, types (including mass-burn, refuse-derived fuel, modular
and other types of units), and sizes of units within a category in
establishing such standards * * *'' 42 U.S.C Sec. 7429(a)(2) (emphasis
added). This is commonly referred to as maximum achievable control
technology, or MACT. Section 129(a)(2) further defines a minimum level
of stringency that can be considered for MACT standards--commonly
referred to as the MACT floor--which for new units, is the level of
control achieved by the best controlled similar unit, and for existing
units, is the level of control achieved by the average of the best
performing 12 percent of units in the category. Id.
In the final rule, the Administrator determined for new MWC's that
MACT for all pollutants was equivalent to the pollutants' MACT floor
levels--i.e., the MACT floor levels reflect the maximum achievable,
cost-effective reduction in emissions of the air pollutants specified
in section 129(a)(4) of the Clean Air Act. The promulgated MACT levels
reflect the performance of emission control technology that is in
commercial use at the best controlled similar source (i.e., an MWC
equipped with an SD/FF system, carbon injection, and SNCR, in
combination with GCP's). The September 20, 1994 proposed standards were
more stringent than the MACT floor levels because the proposed levels
were based on carbon injection technology, which was not in commercial
use at the time of proposal. Since proposal, a dozen MWC units equipped
with carbon injection technology have initiated operation; thus, the
best controlled similar unit in the final rule includes carbon
injection (i.e., basis for the MACT floor).
[[Page 65406]]
For existing MWC's, some of the emission limits included in the
emission guidelines promulgated today are the same as the final MACT
floor levels. For several pollutants, however, the Administrator
decided, consistent with section 129(a)(2) after considering costs and
non-air-quality health and environmental impacts and energy
requirements, to set MACT standards more stringent than the MACT floor,
since more stringent levels could be achieved at either no additional
cost, or minimal costs. The MACT floor levels for acid gases and PM are
stringent enough for existing units at both small and large plants that
they require an acid gas/PM control system. Since an acid gas/PM
control system also controls emissions of all regulated pollutants
except Hg and NOx, establishing emission limits for acid gases and
PM effectively establishes emission limits for the other pollutants
(except Hg and NOx). The cost to comply with the selected emission
limits relative to the cost of the acid gas/PM control system are
minimal.
For example, the same acid gas/PM control system that owners and
operators of MWC's need to meet the MACT emissions guideline levels for
SO2 and PM also controls dioxins/furans to levels more stringent
than the dioxin/furan MACT floor level. Thus, the Administrator
determined that the final dioxin/furan emission guidelines may be
achieved at no additional control costs. In the final rule, for MWC's
at large plants, the Administrator distinguished between the dioxin/
furan emission guidelines for MWC's equipped with ESP-based control
systems and MWC's equipped with nonESP-based control systems. In the
Administrator's judgment, it would be prohibitively expensive and
unreasonable to require existing ESP's that can meet a limit of 60 ng/
dscm to retrofit an SD/FF in order to achieve additional reduction in
emissions beyond the MACT floor (see the proposal preamble, 50 FR
48228, September 20, 1994, for a more detailed discussion). For the
final rule, the Administrator considered several regulatory options
more stringent than the MACT floor; however, because of the high cost
of pollution control device retrofit, the Administrator determined that
MACT for dioxins/furans emitted from MWC's with ESP-based control
systems is 60 ng/dscm, and MACT for dioxins/furans emitted from MWC's
with SD/FF systems is 30 ng/dscm.
The MACT floor for Hg is 0.36 mg/dscm, and MACT for Hg is more
stringent than the MACT floor at a level of 0.080 mg/dscm. To achieve
the Hg emission limit in the emission guidelines, carbon injection will
be required (this exceeds MACT floor requirements). Because of the
toxicity and bioaccumulation potential of Hg, the Administrator
considered the small cost of adding Hg control to be cost-effective.
The cost of Hg control is about $0.25 to $0.35 per gram Hg removed
($250,000 to $350,000 per Mg), which translates to approximately $0.05
to $0.07 per month for a household served by an MWC.
2. Social Costs and Benefits
This assessment of the cost and benefits to State, local, and
tribal governments of the guidelines is based on EPA's ``Economic
Impact Analysis for Proposed Emission Standards and Guidelines for
Municipal Solid Waste Combustors.'' Measuring the social costs of the
guidelines requires identification of the affected entities by
ownership (public or private), consideration of regulatory
alternatives, calculation of the regulatory compliance costs for each
affected entity, and assessment of the market implications of the
additional pollution control costs. Calculating the social benefits of
the guidelines requires estimating the anticipated reductions in
emissions at MWC's due to regulation, identification of the harmful
effects of exposure to MWC emissions, and valuing the expected
reductions in these damages to society.
a. Affected Entities. For 1996, the base year of the analysis,
there are 179 MWC's in the population of operational facilities
affected by the guidelines. Of this total, 100 are publicly owned and
operated (i.e., facilities owned by State or local governments). There
are no MWC's currently owned, or expected to be owned in the near
future, by tribal governments, so there is no impact on tribal
governments. The remaining 79 MWC's are privately owned and operated.
The EPA developed 16 model plants to characterize the existing
facilities based on the technologies used for combustion and air
pollution control at baseline. Table 5 shows the distribution of
publicly and privately owned MWC's and the estimated MSW volumes
managed by the existing MWC model plants. Of the 100 publicly owned and
operated MWC plants, 38 plants are located in communities with a
population less than 50,000, 11 plants are located in communities with
a population between 50,000 and 100,000, 21 plants are located in
communities with a population between 100,000 and 250,000, and 30
plants are located in communities with a population greater than
250,000. A detailed description of the model plants used to
characterize operational MWC's is presented in table 3-4 of the
``Economic Impact Analysis of Proposed Emissions Standards and
Guidelines for Municipal Waste Combustors'' (EPA-450/3-91-029, 1994).
Table 5.--Summary of Total MSW Throughput at Public and Private MWC's by Model Plant
----------------------------------------------------------------------------------------------------------------
Ownership
---------------------------------------------------------------------
Model planta Public Private Total
throughput (Mg/ Public throughput (Mg/ Private throughput (Mg/
yr) share (%) yr) share (%) yr)
----------------------------------------------------------------------------------------------------------------
1......................................... 813,244 100.0 0 0.0 813,244
2......................................... 1,158,112 81.9 256,034 18.1 1,414,146
3......................................... 1,397,867 100.0 0 0.0 1,397,867
4......................................... 1,914,896 19.3 7,995,967 80.7 9,910,863
5......................................... 3,956,410 61.1 2,523,329 38.9 6,479,739
6......................................... 374,566 56.7 286,119 43.3 660,685
7......................................... 1,008,603 57.5 746,477 42.5 1,755,080
8......................................... 1,547,612 66.5 777,981 33.5 2,325,593
9......................................... 400,346 73.3 145,661 26.7 546,007
10........................................ 425,552 82.5 90,472 17.5 516,024
11........................................ 166,082 42.0 228,966 58.0 395,048
12........................................ 284,596 72.6 107,219 27.4 391,815
14........................................ 343,596 48.4 366,785 51.6 710,381
15........................................ 937,280 29.2 2,277,088 70.8 3,214,368
[[Page 65407]]
16........................................ 58,462 6.7 819,320 93.3 877,782
17........................................ 745,501 52.9 662,673 47.1 1,408,174
---------------------------------------------------------------------
Total:................................ 15,078,823 45.9 17,737,993 54.1 32,816,816
----------------------------------------------------------------------------------------------------------------
a There is no model plant that matches model plant #13 in the Economic Impact Analysis (EPA-450/3-91-029, March
1994).
b. Regulatory Alternatives Considered. The two broad categories of
regulatory standards available include design standards and emission
standards. Design standards specify the type of control equipment
polluters must install, whereas emission standards specify the maximum
quantity of a given pollutant that any one polluter may release.
Design standards offer the least flexible approach considered in
this analysis. Municipal waste combustors would have to install the
specified control equipment regardless of the additional emission
reductions achieved or the relative cost of alternative means of
emission reductions.
Emission standards allow greater flexibility in the methods used to
reduce emissions. Municipal waste combustors are free to meet the
emission limit in the manner that is least costly to them.
Consequently, for a given level of emission reductions, emission
standards are generally less costly than design standards. Furthermore,
emission standards give MWC's an incentive to develop more effective
means of controlling emissions. In addition, the Act requires the
Administrator to promulgate emission standards unless such standards
are not feasible. See 42 U.S.C. Secs. 7411(h) and 7429(a)(1). Since
emission standards for MWC's are feasible, the EPA is barred from
promulgating design standards for MWC's.
Even though emission standards generally result in a more efficient
allocation of costs than design standards, uniform emission standards
can be more costly than necessary. Uniform emission standards require
the same level of emission control of every discharger. Because
marginal control costs differ for plants of different sizes, different
technologies, different levels of product recovery (i.e., in the
chemical industry), and different levels of baseline control, an
effective solution can be reached if standards are carefully tailored
to the special characteristics of each discharger. This type of
standard is referred to as a differentiated standard.
In formulating its MWC regulatory alternatives, EPA selected
candidate regulatory alternatives that contain control limits for MWC's
differentiated by MWC size classification. Large facilities are defined
as MWC plants with aggregate plant capacities over 225 Mg/day. Small
facilities are defined as MWC plants with aggregate plant capacities
between 35 and 225 Mg/day. Plants with aggregate plant capacities less
than 35 Mg/day are not covered by today's rulemaking. The lower size
threshold of 35 Mg/day aggregate plant capacity for controlling MWC
emissions under today's rulemaking was selected after reviewing the
population distributions of MWI's and MWC's. Most incinerators at
medical waste facilities are smaller incinerators that fire segregated
medical waste with general hospital discards (MSW), and these
incinerators would have the potential to be covered by today's
rulemaking. To avoid overlap with the upcoming MWI rulemaking, this
rulemaking includes the lower size cutoff of 35 Mg/day plant capacity
and MWC plants with aggregate capacities less than or equal to 35 Mg/
day will be addressed under a separate rulemaking. With a lower size
cutoff of 35 Mg/day, today's promulgated MWC rulemaking will cover over
99 percent of the total U.S. MWC combustion capacity but will exclude
97 percent of the total MWI combustion capacity.
The regulatory alternatives for the two selected size
classifications did not specify a particular control technology;
rather, they specified emission limits that facilities would be
required to meet. Current practice indicates that the emission
guideline limits for acid gases, PM, and metals will likely be met with
one of six different types of control technologies, depending on the
applicable emission limits. Table 6 presents acid gas, PM, and metals
control technologies listed in order of increasing efficiency.
Table 6.--Control Technologies Associated With Acid Gas, Particulate
Matter, and Metals Control
------------------------------------------------------------------------
-------------------------------------------------------------------------
GCP + ESP
GCP + DSI/ESP
GCP + DSI/FF
GCP + SD/ESP
GCP + SD/FF
------------------------------------------------------------------------
In designing MWC regulatory alternatives, the EPA considered
emission limits consistent with the combinations of the acid gas
control technologies listed in table 6. Small plants may be required to
meet one control limit and large plants another under a given
regulatory alternative. Under the final guidelines, more stringent
control requirements are in fact applicable to large plants than to
small plants. This was done in an attempt to equalize the cost impact
on small and large plants. Under the final guidelines the unit cost for
air pollution control retrofit for large plants would be about $16 per
Mg of waste combusted. For similar small plants the retrofit costs
would be about $17 per Mg of waste combusted. Table 7 shows the control
technologies evaluated for the guidelines regulatory alternatives under
two compliance scenarios for acid gas, PM, and metals control. The
control technology bases identified in this table are not intended to
imply a design standard. Rather, the technology bases are identified
only for the purpose of estimating costs and emission reductions.
[[Page 65408]]
Table 7.--Emission Guidelines for Existing MWC'S: Control Technology Bases Used to Estimate the Impacts of the
Regulatory Alternatives a b
----------------------------------------------------------------------------------------------------------------
Size Classification (Mg MSW/day)
Regulatory alternative, and baseline ------------------------------------------------------------------------
APCD Small (35 to 225) Large (over 225)
----------------------------------------------------------------------------------------------------------------
Reg. Alt. I:
No control........................... GCP+ESP GCP+SD/FF+CI+SNCR
ESP (low)............................ GCP+ESP GCP+SD/ESP(m)+CI+SNCR
SD/ESP............................... GCP+SD/ESP GCP+SD/ESP(m)+CI+SNCR
SD/FF................................ GCP+SD/FF GCP+SD/FF+CI+SNCR
Reg. Alt. II-A:
No control........................... GCP+DSI/FF+CI GCP+SD/FF+CI+SNCR
ESP (low)............................ GCP+DSI/ESP+CI GCP+SD/ESP(m)+CI+SNCR
SD/ESP............................... GCP+SD/ESP+CI GCP+SD/ESP(m)+CI+SNCR
SD/FF................................ GCP+SD/FF+CI GCP+SD/FF+CI+SNCR
Reg. Alt. II-B:
No control........................... GCP+DSI/FF+CI GCP+SD/FF+CI+SNCR
ESP (low)............................ GCP+DSI/ESP+CI GCP+SD/FF+CI+SNCR
SD/ESP............................... GCP+SD/ESP+CI GCP+SD/ESP(m)+CI+SNCR
SD/FF................................ GCP+SD/FF+CI GCP+SD/FF+CI+SNCR
Reg. Alt. III;
No control........................... GCP+SD/FF+CI GCP+SD/FF+CI+SNCR
ESP (low)............................ GCP+SD/FF+CI GCP+SD/FF+CI+SNCR
SD/ESP............................... GCP+SD/FF+CI GCP+SD/FF+CI+SNCR
SD/FF................................ GCP+SD/FF+CI GCP+SD/FF+CI+SNCR
MACT Floor:
No control............................. GCP+DSI/FF GCP+SD/FF+SNCR
ESP (low).............................. GCP+DSI/ESP GCP+SD/ESP(M)+SNCR
SD/ESP................................. GCP+SD/ESP GCP+SD/ESP(m)+SNCR
SD/FF.................................. GCP+SD/FF GCP+SD/FF+SNCR
----------------------------------------------------------------------------------------------------------------
Source: This table is an extract of table 4-2 of the document entitled ``Economic Impact Analysis for Proposed
Emission Standards and Guidelines for Municipal Waste Combustors,'' EPA-450/3-91-029, March 1994. See
SUPPLEMENTARY INFORMATION for information on obtaining this document.
a The MWC regulation does not mandate a specific type of control equipment. The MWC owner/operator may use any
control equipment that meets the emission standards. The control technologies are the projected compliance
strategies used as the basis for computing costs. If the MWC has equipment that is meeting or exceeding the
control requirements, no additional costs are incurred.
b CI=carbon injection.
Table 7A.--Emission Guidelines for Existing MWC's: Emission Reductions and Annualized Costs of the Regulatory
Alternatives a
----------------------------------------------------------------------------------------------------------------
Regulatory alternative
Pollutant category (Mg/yr)/annualized --------------------------------------------------------------------------
cost ($1990 10 6/yr) Reg. alt. II- Reg. alt. II-
Reg. alt. I A B Reg. alt. III Mact floor
----------------------------------------------------------------------------------------------------------------
SO2.................................. 41,200 43,300 43,300 45,000 43,300
HCl.................................. 51,600 56,300 56,300 57,300 56,300
PM................................... 3,070 3,070 3,070 3,240 3,070
Pb................................... 74.8 74.8 91.1 102 74.8
Cd................................... 5.24 5.24 5.56 6.02 5.24
Hg................................... 44.7 47.5 47.5 47.5 0
NOX.................................. 8,680 8,680 8,690 8,690 8,680
CO................................... 19,300 19,300 19,300 19,300 19,300
Dioxins/furans (total mass).......... 0.154 0.156 0.157 0.158 b 0.153
[[Page 65409]]
Annualized cost ($1990 10 6/yr)...... 412 443 448 487 425
----------------------------------------------------------------------------------------------------------------
Source: This table is an extract of tables 5-14 and 5-21 of the document entitled ``Economic Impact Analysis for
Proposed Emission Standards and Guidelines for Municipal Waste Combustors,'' EPA-450/3-91-029, March 1994. See
SUPPLEMENTARY INFORMATION for information on obtaining this document.
a The MWC regulation does not mandate a specific type of control equipment. The MWC owner/operator may use any
control equipment that meets the emission standards. The control technologies are the projected compliance
strategies used as the basis for computing costs. If the MWC has equipment that is meeting or exceeding the
control requirements, no additional costs are incurred.
b The MACT floor is regulatory alternative II-A without carbon injection for mercury and dioxin/furan control.
The majority of the dioxin/furan emission control is achieved by acid gas controls included in alternative II-
A and the floor. It is assumed that adding mercury control (carbon injection) to acid gas control reduces
dioxin/furan emissions by at least an additional 50 percent. The dioxin/furan emission reduction estimate for
the MACT floor is not provided in the ``Economic Impacts Analysis.''
The regulatory alternatives represent alternative levels of control
considered by the EPA, whereas the compliance scenarios represent
potential alternative responses by the MWC owners and operators to the
emission requirements. Generally speaking, the EPA assumed that MWC
owners and operators will choose the minimum-cost control technology
that will meet the emission requirements. However, where there is
uncertainty regarding the actual emission limits that a particular
control technology will achieve in practice, owners may choose a more
conservative (and potentially more costly) compliance strategy to
reduce the risk of noncompliance. A conservative investment decision is
particularly likely when the investment decision affects the facility's
ability to remain in operation (e.g., noncompliance results in plant
shutdown), is a long-term decision, or involves a significant capital
outlay. Consequently, we evaluate two compliance scenarios for meeting
the acid gas, PM, and metals control requirements for existing plants
subject to guidelines.
A more detailed discussion of the regulatory alternatives EPA
considered may be found in the ``Economic Impact Analysis for Proposed
Emission Standards and Guidelines for Municipal Waste Combustors,''
EPA-450/3-91-029, March 1994 (see SUPPLEMENTARY INFORMATION for
information on obtaining this document). Control alternatives were also
developed for NOX control and Hg control. Discussion of these
alternatives can be found in the following memos that may be obtained
from the EPA's Air Docket, as specified in the SUPPLEMENTARY
INFORMATION section of this preamble: (1) ``Update Report on Mercury
Control Technologies for Municipal Waste Combustors'' prepared by K.
Nebel and D. White, Radian Corporation, for W. Stevenson, U.S.
Environmental Protection Agency, July 1993; (2) ``NOX Control on
Existing MWC's,'' prepared by E. Soderberg et al., Radian Corporation,
for W. Stevenson, U.S. Environmental Protection Agency, August 23,
1991; (3) ``Wet Scrubbing Systems Performance and Cost,'' prepared by
K. Nebel, et al., Radian Corporation, for W. Stevenson, U.S.
Environmental Protection Agency, June 22, 1994; and (4) ``A Summary of
Mercury Emissions and Applicable Control Technologies for Municipal
Waste Combustors,'' prepared by K. Nebel and D. White, Radian
Corporation, for W. Stevenson, U.S. Environmental Protection Agency,
September 1991.
c. Social Costs. The regulatory compliance costs of reducing air
emissions from MWC's include the total and annualized capital costs;
operating and maintenance costs; monitoring, inspection, recordkeeping,
and reporting costs; and total annual costs. The annualized capital
cost is calculated using a 4-percent discount rate for publicly-owned
MWC's and an 8-percent discount rate for privately-owned MWC's. The
total annual cost is calculated as the sum of the annualized capital
cost; operating and maintenance costs; and the monitoring, inspection,
recordkeeping, and reporting costs. There are no Federal funds
available to assist State and local governments in meeting these costs.
Table 8 provides the estimated compliance costs for the final
regulations and their distribution across public and private MWC's. As
shown, the national annual compliance costs for existing MWC's total
$405.5 million, with publicly-owned facilities incurring $229.9
million. This total both represents 56.7 percent of the estimated
national compliance costs and forms the basis for allocating benefits
to publicly-owned MWC's. (The analysis has assumed that benefits are
linear with emission reductions). The level of compliance costs depends
not only on the absolute number of facilities, but also on the baseline
level of pollution control. It is assumed that higher compliance costs
are associated with higher emission reductions and are, thus,
appropriate for allocating the benefits associated with the reduced
emissions.
Table 8.--Summary of Regulatory Compliance Costs for Existing MWC's by Ownership ($1990, 10 \3\)
----------------------------------------------------------------------------------------------------------------
Annual
Annual operating Annual Total
Ownership category capital and MIRR annual
costs maintenance costs a costs
costs
----------------------------------------------------------------------------------------------------------------
Public............................................................ 67,625 154,163 8,092 229,881
Private........................................................... 83,936 87,161 4,575 175,672
---------------------------------------------
Total....................................................... 151,561 241,325 12,667 405,553
----------------------------------------------------------------------------------------------------------------
a MIRR=Monitoring, inspection, reporting, and recordkeeping.
[[Page 65410]]
The analysis assumes that the entire increase in costs of
combustion services for both public and private entities will be passed
through to MWC customers in the form of increases in the tipping fee
charged by MWC's. As shown in table 9, the estimated increases in the
average tipping fee for publicly-owned MWC's are significant and range
from 36 to 59 percent. The range for privately-owned MWC's is 41 to 65
percent.
Table 9.--Average Tipping Fee In-creases for Existing MWC's by Ownership
------------------------------------------------------------------------
Small MWC Large MWC
plants (35 plants a
to 225 Mg/ (over 225 Mg/
Ownership day MSW) day MSW)
(percent (percent
change) change)
------------------------------------------------------------------------
Public...................................... 59 36
Private..................................... 65 41
------------------------------------------------------------------------
a Fee increases are computed using the average cost per megagram of MSW
reported in tables 5-10 and 5-11 of the EPA's ``Economic Impact
Analysis for Proposed Emission Standards and Guidelines for Municipal
Solid Waste Combustors,'' (EPA-450/3-91-029) and an average tipping
fee of $57/Mg of MSW. The average tipping fee is based on the 1993
average tipping fee for MWC's reported in Waste Age (Berenyi & Gould,
1993) converted to 1990 dollars.
Section 7.3.1 of the EPA's economic impact analysis (EPA-450/3-91-
029) provides a distributional analysis of the impacts on governmental
entities with respect to their ability to finance the regulatory
compliance capital through revenue bonds. A community's ability to
finance the regulatory compliance capital through revenue bonds is
estimated by comparing the estimated average annual cost per household
to the average annual household income for the community. If the cost
per household exceeds one percent of average annual household income,
then the community is assumed to have potential difficulty issuing
revenue bonds. Of the estimated 100 governmental entities subject to
the guidelines, no governmental entities with a population above 50,000
are projected to have difficulty issuing revenue bonds as a result of
the regulation on existing sources. Overall, 3 of the 100 governmental
entities (all 3 of which have population below 50,000) are projected to
have difficulty issuing such bonds.
Without market adjustments, the social costs of the guidelines
should be equivalent to the national compliance costs shown in table 8.
However, in this analysis, the social costs differ, both because the
total capital costs for both public and private MWC's were discounted
at the social rate equal to 7 percent, and because of tax differences.
Table 10 shows the estimated social cost of the regulations and the
distribution across public and private MWC's. The estimated annual
social cost of the guidelines is $443 million of which 56.7 percent, or
$251.1 million, is attributed to publicly-owned MWC's. This estimate of
social cost is greater than the national compliance costs because the
total capital costs for publicly-owned MWC's is discounted at the
social rate of 7 percent, as opposed to the 4 percent rate used to
compute the national compliance costs.
Table 10.--Summary of Estimated Annual Social Cost by Ownership ($1990)
------------------------------------------------------------------------
Total
social
Ownership category costs Share
($10 \3\ (percent)
per year)
------------------------------------------------------------------------
Public............................................ 251,107 56.7
Private........................................... 191,893 43.3
---------------------
Total....................................... 443,000 100.0
------------------------------------------------------------------------
Table 10A provides typical costs of air pollution control retrofits
for existing MWC's. The costs shown in table 10A are for 17 model
existing plants.
Table 10A.--Typical Cost of Air Pollution Control Retrofit for Existing MWC'S
----------------------------------------------------------------------------------------------------------------
Costs ($1990 x 10 6)
Plant size (Mg/day) MWC type -------------------------- Model plant
Capital Annual number
----------------------------------------------------------------------------------------------------------------
45.......................................................... MOD/SA 2 0.5 10
136......................................................... MOD/SA 3 10.5 9
181......................................................... MOD/EA 3 0.4 11
181......................................................... MB/WW 5 0.9 6
454......................................................... MB/RWW 13 1.6 12
980......................................................... MB/WW 25 3.2 5
2,041....................................................... MB/WW 46 5.0 4
181......................................................... MB/WW a5 0.8 14
454......................................................... MB/RWW a13 1.6 17
544......................................................... RDF 28 2.3 8
1,814....................................................... RDF 64 4.8 7
1,814....................................................... RDF a33 4.4 15
544......................................................... RDF a17 2.0 16
218......................................................... MB/REF 8 0.9 2
680......................................................... MB/REF 39 2.3 1
816......................................................... MB/REF 35 4.1 3
----------------------------------------------------------------------------------------------------------------
Note: See table 5-1 of the ``Economic Impacts Analysis for Proposed Emission Standards and Guidelines for
Municipal Waste Combustors'' (EPA-450/3-91-029) for more information.
a These model plants are assumed to be relatively new units that originally incorporated good combustion in
their design and, therefore, do not need to retrofit good combustion to comply with the guidelines.
[[Page 65411]]
d. Social Benefits. Society will benefit from the proposed
guidelines through the reduction of emissions of dioxins/furans, Cd,
Pb, Hg, PM, HCl, SO2, and NOX. These pollutant categories are
emitted by various types of sources, including MWC's. The level of
pollutant emissions and health effects vary among types of sources, and
total national emissions of these pollutants has been shown to have the
health effects listed in table 11.
Table 11.--Health and Other Effects
------------------------------------------------------------------------
Pollutant category Health and other effects
------------------------------------------------------------------------
Organics............................... Mortality, morbidity.
Carcinogenicity.
Metals................................. Retardation and brain
damage.
Hypertension.
Central nervous
system injury.
Renal dysfunction.
Acid gases............................. Materials damage.
Dental erosion.
Acid rain.
Mortality, morbidity.
Respiratory tract
problems, permanent harm to
lung.
Soiling and materials
damage.
Reduced agricultural
yield.
Ozone formation.
Particulate matter..................... Mortality, morbidity.
Eye and throat
irritation, bronchitis, lung
damage.
Impaired visibility.
Soiling and materials
damage.
------------------------------------------------------------------------
Because of limitations on data on the concentration-response
function and valuation of these functions, benefits have not been
quantified for all pollutants. Benefits have been quantified only for
emissions of SO2 and PM. Benefits have not been quantified for
dioxins/furans, Cd, Pb, Hg, HCl or NOX emission control. Benefits
to the public and environment will result from the control of these
hazardous air pollutants (HAP's) and criteria pollutants. For the
HAP's, dioxin/furan compounds have been associated with chloracne,
reproductive/developmental effects, immune system toxicity, and cancer
(probable human carcinogen). Particulate-associated metals including Pb
and Cd are toxic and can cause effects such as mucous membrane
irritation, gastrointestinal effects, nervous system disorders, skin
irritation, and reproductive and developmental disorders. In regard to
volatile metals, Hg in all forms may be characterized as quite toxic
with each form exhibiting different health effects, including
gastrointestinal and respiratory tract disturbances, central nervous
system effects, and developmental effects. Additionally, HCl is
corrosive and effects the eyes, skin, and mucus membranes, and
dermatitis has been reported from long-term exposure.
Table 12 provides the estimated social benefits associated with
reductions in PM and SO2 emissions from MWC's and their
distribution across public and private MWC's. The estimated social
benefit of reduced PM and SO2 emissions is $106 million with $60.3
million being attributed to reductions at publicly-owned MWC
facilities. These benefits would be experienced annually by the
residents of these municipalities. Proper allocation of these benefits
would be based on the expected emission reductions at public and
private MWC's. However, due to lack of data at the model plant level,
these benefits are allocated across public and private MWC's in the
same proportion as the estimated national compliance costs (i.e., 56.7
percent for public and 43.3 percent for private).
Table 12.--Social Benefit Estimates for SO2 and PM Emission Reductions
by Ownership ($1990)
------------------------------------------------------------------------
Social benefits ($10 \3\ per
year) a b
Ownership category --------------------------------
PM SO2 Total
------------------------------------------------------------------------
Public................................. 30,779 29,475 60,254
Private................................ 23,521 22,525 46,046
Total.................................. 54,300 52,000 106,300
------------------------------------------------------------------------
a Benefit estimates are $1,200 per Mg of SO2 reduced and $17,700 per Mg
of PM reduced. (This estimate is derived valuing all mortalities at
$4.4 million per life saved. This approach does not consider the
length of the changes in longevity resulting from PM exposure). Social
benefits attributable to public and private MWC's are proportionate to
their share of the total annual costs.
b Does not include benefit credits for dioxins/furans, Cd, and Hg
control.
Table 13 presents a comparison of the estimated social costs and
benefits of the guidelines. Unfortunately, because benefit estimates
are not computed for all pollutants, the social benefit provided in
table 13 is a partial estimate. Because of this fact, the net benefits
(i.e., benefits minus costs) shown in table 13 cannot be used to reach
conclusions regarding the total net benefits of the rule for existing
sources.
Table 13.--Social Costs and Partial Social Benefits From Reducing
Emissions at MWC's by Ownership ($1990, 10 \3\ Per Year)
------------------------------------------------------------------------
Total Partial
Ownership category social social
costs benefits
------------------------------------------------------------------------
Public............................................ 251,107 60,254
Private........................................... 191,893 46,046
---------------------
Total....................................... 443,000 106,300
------------------------------------------------------------------------
3. Effects on the National Economy
The Unfunded Mandates Act requires that the EPA estimate ``the
effect'' of this rule
``on the national economy, such as the effect on productivity,
economic growth, full employment, creation of productive jobs, and
international competitiveness of the U.S. goods and services, if and
to the extent that the EPA in its sole discretion determines that
[[Page 65412]]
accurate estimates are reasonably feasible and that such effect is
relevant and material.''
As stated in the Unfunded Mandates Act, such macroeconomic effects tend
to be measurable, in nationwide econometric models, only if the
economic impact of the regulation reaches 0.25 to 0.5 percent of gross
domestic product (in the range of $1.5 billion to $3 billion). A
regulation with a smaller aggregate effect is highly unlikely to have
any measurable impact in macroeconomic terms unless it is highly
focused on a particular geographic region or economic sector. For this
reason, no estimate of this rule's effect on the national economy has
been conducted.
4. Consultation with Government Officials
The Unfunded Mandates Act requires that the EPA describe the extent
of the EPA's consultation with affected State, local, and tribal
officials, summarize the officials' comments or concerns, and summarize
the EPA's response to those comments or concerns. In addition, section
203 of the Clean Air Act requires that the EPA develop a plan for
informing and advising small governments that may be significantly or
uniquely impacted by a proposal. Throughout the development of these
rules (pre-proposal through pre-promulgation phases), the EPA consulted
with representatives of affected State and local governments, including
the U.S. Conference of Mayors, the National League of Cities, the
National Association of Counties, the Solid Waste Association of North
America, and the Municipal Waste Management Association, to inform them
of the proposed rule and determine their concerns. (The EPA also
consulted with representatives from other entities affected by the
proposed rule, such as the Integrated Waste Services Association, the
Sierra Club, and the Natural Resources Defense Council.)
As part of EPA's consultation efforts in this rulemaking, the EPA
mailed a copy of the regulatory summary (FACT SHEET) for the September
20, 1994 proposed MWC standards and guidelines to every elected
official in an area with either an operating MWC, an MWC under
construction, or a planned MWC. (The EPA also mailed copies of the
summary to all owners and operators of these MWC's.) This mailout
exceeded 400 informational packages. Since approximately half of the
MWC's are owned and/or operated by municipalities, with this effort,
the EPA was able to ensure that every affected State and local
government was made aware of the proposed rule and had the necessary
information to provide comment.
In addition, over a 3-month period, EPA staff consulted with State
and local government representatives to discuss their comments
regarding the final draft package. Letters were received during this
time period from the U.S. Conference Mayors and the Integrated Waste
Services Association (see docket A-90-45, items IV-D-44 and IV-D-85,
respectively), which raised various concerns; however, in subsequent
meetings, the EPA learned that State and local officials, as well as
industry representatives, were mainly concerned with the following
sections of the final draft emission guidelines: (1) The achievability
for some MWC's of the final draft NOX emission limit included in
the emission guidelines; (2) the fact that because the EPA had not
subcategorized by combustor type for purposes of determining the
NOX emission limit as it had when it determined the CO emission
limit, some MWC's would be forced to install retrofit technology in
order to meet the more stringent NOX limit, (3) the achievability
for MWC's with large new ESP's of the final draft dioxin/furan emission
limit included in the emission guidelines; and (4) the inconsistency
between some of the definitions in the draft rules with the definitions
given in 40 CFR part 60, subpart Ea, which establishes emission limits
for MWC's that commence construction after December 20, 1989, but on or
before September 20, 1994.
As a result of these consultations, the EPA decided to modify the
final regulatory package to address these concerns. The final emission
guidelines promulgated today:
(1) Subcategorize MWC's by combustor type for the purpose of
establishing different NOx emission guidelines; and
(2) Establish separate dioxin/furan emission guidelines for MWC's
with ESP-based systems and MWC's with nonESP-based systems. In
addition, in order to address the fourth concern identified by State
and local governments, the EPA is publishing today under a separate
Federal Register notice, a direct final rule that modifies the
applicability and definitions sections of 40 CFR part 60, subpart Ea to
improve clarity and make them consistent with those provided in the
standards and emission guidelines promulgated in this notice.
Documentation of the EPA's consideration of comments on the
proposed standards and guidelines is provided in the BID's for the
proposed and final standards and guidelines. Refer to the SUPPLEMENTARY
INFORMATION and ADDRESSES sections of this preamble for information on
how to acquire copies of these documents.
As discussed in section IV.F, the number of affected small entities
is not expected to be substantial. The full analysis of potential
regulatory impacts on households, small governments, and small
businesses is included in the economic impact analysis in the docket
and listed under SUPPLEMENTARY INFORMATION. Because the number of
affected small entities is expected to be insubstantial (i.e., the EPA
considers that the regulation is likely to affect less than 20 percent
of small entities with MWC's--see section IV.F for a more detailed
explanation), no plan to inform and advise small governments is
required under section 203 of the Unfunded Mandates Act. However, as
described above, the EPA has communicated and consulted with small
governments and businesses that will be affected by the standards and
guidelines, keeping them informed about the content of this
promulgation. Refer to section III.C. for a description of these
communications.
E. Executive Order 12875
To reduce the burden of Federal regulations on States and small
governments, the President issued Executive Order 12875 on October 26,
1993, entitled ``Enhancing the Intergovernmental Partnership.'' Under
Executive Order 12875, the EPA is required to consult with
representatives of affected State, local, and tribal governments, and
keep these affected parties informed about the content and effect of
the promulgated standards and emission guidelines. Section III.A of
this notice provides a brief summary of the need for the final
standards and guidelines. Sections IV.C and V.C provide brief summaries
of the cost of the final guidelines and standards. Section III.C
provides a brief account of the actions that the EPA has taken to
communicate and consult with the affected parties. The discussion
provided below provides a brief summary of the content of the final
standards and guidelines. For more information on the content of the
final standards and guidelines, refer to sections IV.A and V.A of this
notice.
The promulgated standards and guidelines establish emission
limitations for new and existing MWC units located at MWC plants with
plant capacities to combust greater than 35 Mg/day of MSW. The
standards and guidelines do not specify which type of air pollution
control equipment must be
[[Page 65413]]
used at MWC's to meet the promulgated emission limitations. The EPA
expects, however, that, as a result of the promulgated standards and
guidelines, most new and existing MWC's at large MWC plants (plants
with greater than 225 Mg/day capacity) will use SD/FF systems with
activated carbon injection (new plants) or retrofit SD/FF or SD/ESP
systems with activated carbon injection (existing plants) for dioxins/
furans, metals, and acid gas control, and will use SNCR for NOX
control. New MWC's at small MWC plants (plants with 35 to 225 Mg/day
capacity) are expected to install SD/FF systems with activated carbon
injection, and existing MWC's at small plants are expected to install
DSI/ESP systems with activated carbon injection. Selective noncatalytic
reduction technology would not be necessary for either new or existing
MWC's at small MWC plants.
F. Regulatory Flexibility Act
Section 605 of the RFA (5 U.S.C. 601 et seq.) requires Federal
agencies to give special consideration to the impacts of regulations on
small entities, which are small businesses, small organizations, and
small governments. The major purpose of the RFA is to keep paperwork
and regulatory requirements from getting out of proportion to the scale
of the entities being regulated without compromising the objectives of,
in this case, the Clean Air Act.
If a regulation is likely to have a significant economic impact on
a substantial number of small entities, the EPA may give special
consideration to those small entities when analyzing regulatory
alternatives and drafting the regulation. In the case at hand, the EPA
considers that a regulation that is likely to affect 20 percent or more
of small entities with MWC's is a regulation that will affect a
substantial number of small entities.
Definitions of small entities are flexible. For analysis of the
regulations being proposed today, the EPA considers a small business in
this industry to be one with gross annual revenue less than $6 million,
and a small government to be one that serves a population less than
50,000. (A typical city of 50,000 generates about 90 Mg/day of MSW.)
Most small governments dispose of their MSW by landfilling and,
therefore, will not be affected by regulation of MWC emissions. In
regard to small organizations such as independent not-for-profit
enterprises, the EPA finds that they have no more than a very minor
involvement with MWC's, and for that reason the EPA has not found it
necessary to study potential direct impacts on small organizations.
The final regulations do not apply to MWC plants with capacity less
than 35 Mg/day. The EPA estimates that few if any small-entity MWC's
would be affected by today's promulgated standards and guidelines.
Thus, the number of affected small entities is not expected to be
substantial, and a regulatory flexibility analysis is not required.
Nevertheless, the EPA has conducted an extensive analysis of potential
regulatory impacts on households, small governments, and small
businesses. The analysis is summarized in the preambles to the proposed
standards (59 FR 48198) and guidelines (59 FR 48228.) The full analysis
is included in the economic impact assessment in the docket and is
listed at the beginning of today's notice under SUPPLEMENTARY
INFORMATION.
On December 20, 1989, the EPA proposed standards and guidelines for
MWC's that applied to all sizes of MWC's. The 1989 proposal had no
lower size cutoff. Small businesses, small governments, and groups
representing small-entity interests commented extensively on the need
to lighten the potential regulatory burden on small entities. Most
commenters suggested a small size cutoff considerably smaller than the
one now being proposed. The most frequently suggested levels were 5 to
11 Mg/day, 18 Mg/day, 23 Mg/day, and 45 Mg/day. The EPA has used these
suggestions and the information submitted by these commenters, as well
as information from other sources, to fulfill the intent of the RFA.
The EPA has incorporated into the standards and guidelines being
promulgated today several features that will mitigate and, in most
cases eliminate, any potential, adverse economic impacts on small
entities. These features are as follows:
(1) The standards and guidelines will apply only to MWC's with a
plant capacity of greater than 35 Mg/day. This cutoff eliminates from
the purview of the regulation and guidelines the overwhelming majority
of projected new and existing very small MWC's;
(2) The standards and guidelines are ``tiered'' so that the
stringency (and therefore potential economic burden) of the emission
standards and guidelines increases as the size of the MWC plant
increases. Plants with capacities less than or equal to 35 Mg/day are
not covered under the final standards and guidelines. Plants with
capacities of 35 to 225 Mg/day are not required to control NOx.
Only plants with capacities larger than 225 Mg/day--plants not often
associated with small entities--are subject to a full complement of
rigorous standards;
(3) As opposed to design, equipment, work practice, or operational
standards, the standards for new sources and the guidelines for
existing sources consist predominantly of emission limits. Emission
limits give MWC owners and operators of new and existing MWC's the
freedom to select the most economical means of compliance.
(4) The guidelines are not the usual type of regulation governed by
the RFA. The guidelines will not apply directly to any MWC's, but will
be used as a guide by individual State air pollution control agencies
in developing site-specific regulations for MWC's. States are allowed
some flexibility in implementing the guidelines.
Pursuant to the provisions of 5 U.S.C. 605(b), the EPA certifies
that the standards and guidelines will not have a significant economic
impact on a substantial number of small entities because the number of
small entities affected is not substantial.
G. Clean Air Act Procedural Requirements
The following procedural requirements of the Clean Air Act are
addressed: Administrative listing, periodic review, external
participation, and economic impact assessment.
1. Administrator Listing--Sections 111 and 129 of the Clean Air Act
As prescribed by section 111 of the Clean Air Act, establishment of
standards of performance and emission guidelines for MWC's is based on
the Administrator's determination (52 FR 25399, July 7, 1987) that
these sources contribute significantly to air pollution that may
reasonably be anticipated to endanger public health or welfare.
Additionally, section 129 of the 1990 Amendments to the Clean Air Act
directs the Administrator to promulgate revised standards for new MWC's
and guidelines for existing MWC's.
2. Periodic Review--Sections 111 and 129 of the Clean Air Act
Sections 111 and 129 of the Clean Air Act require that the
standards and guidelines be reviewed not later than 5 years following
the initial promulgation. At that time and at 5-year intervals
thereafter, the Administrator shall review the standards and guidelines
and revise them if necessary. This review will include an assessment of
such factors as the need for integration with other programs, the
existence of alternative methods, enforceability, improvements in
emission control technology, and reporting requirements.
[[Page 65414]]
3. External Participation
In accordance with section 117 of the Clean Air Act, publication of
this promulgation was preceded by consultation with appropriate
advisory committees, independent experts, and Federal departments and
agencies.
4. Economic Impact Assessment
Section 317A of the Clean Air Act requires the EPA to prepare an
economic impact assessment for any standards or guidelines promulgated
under section 111(b) of the Clean Air Act. An economic impact
assessment was prepared for the promulgated standards and guidelines.
In the manner described in the sections of this preamble regarding the
impacts of and rationale for the promulgated standards and guidelines,
the EPA considered all aspects of the economic impact assessment in
promulgating the standards and guidelines. The economic impact
assessment is included in the list of key technical documents at the
beginning of today's notice under SUPPLEMENTARY INFORMATION.
List of Subjects in 40 CFR Part 60
Environmental Protection, Air pollution control, Intergovernmental
relations, Incorporation by reference, Reporting and recordkeeping
requirements.
Dated: October 31, 1995.
Carol M. Browner,
Administrator.
Part 60, chapter I, title 40 of the Code of Federal Regulations is
amended as follows:
PART 60--[AMENDED]
1. The authority citation for part 60 continues to read as follows:
Authority: 42 U.S.C. 7401, 7411, 7414, 7416, 7429, and 7601.
2. Section 60.17 of subpart A of part 60 is amended by revising
paragraphs (h)(1), (h)(2), and (h)(3) to read as follows:
Sec. 60.17 Incorporation by reference.
* * * * *
(h) * * *
(1) ASME QRO-1-1994, Standard for the Qualification and
Certification of Resource Recovery Facility Operators, IBR approved for
Secs. 60.56a, 60.54b(a) and 60.54b(b).
(2) ASME PTC 4.1-1964 (Reaffirmed 1991), Power Test Codes: Test
Code for Steam Generating Units (with 1968 and 1969 Addenda), IBR
approved for Secs. 60.46b, 60.58a(h)(6)(ii), and 60.58b(i)(6)(ii).
(3) ASME Interim Supplement 19.5 on Instruments and Apparatus:
Application, Part II of Fluid Meters, 6th Edition (1971), IBR approved
for Secs. 60.58a(h)(6)(ii) and 60.58b(i)(6)(ii).
* * * * *
3. Section 60.23 of subpart B of part 60 is amended by revising
paragraph (a)(1) to read as follows:
Sec. 60.23 Adoption and submittal of State plans; public hearings.
(a) * * *
(1) Unless otherwise specified in the applicable subpart, within 9
months after notice of the availability of a final guideline document
is published under Sec. 60.22(a), each State shall adopt and submit to
the Administrator, in accordance with Sec. 60.4 of subpart A of this
part, a plan for the control of the designated pollutant to which the
guideline document applies.
* * * * *
4. Section 60.24 of subpart B of part 60 is amended by revising
paragraph (f) introductory text to read as follows:
Sec. 60.24 Emission standards and compliance schedules.
* * * * *
(f) Unless otherwise specified in the applicable subpart on a case-
by-case basis for particular designated facilities or classes of
facilities, States may provide for the application of less stringent
emissions standards or longer compliance schedules than those otherwise
required by paragraph (c) of this section, provided that the State
demonstrates with respect to each such facility (or class of
facilities):
* * * * *
5. Subpart C of part 60 is amended by revising Sec. 60.30 to read
as follows:
Sec. 60.30 Scope.
The following subparts contain emission guidelines and compliance
times for the control of certain designated pollutants in accordance
with section 111(d) and section 129 of the Clean Air Act and subpart B
of this part.
(a) Subpart Ca--[Removed and Reserved]
(b) Subpart Cb--Municipal Waste Combustors
(c) Subpart Cc--[Reserved]
(d) Subpart Cd--Sulfuric Acid Production Plants
Subpart Ca--[Removed and Reserved]
5a. Part 60 is amended by removing and reserving subpart Ca.
Subpart Cb--[Redesignated as Subpart Cd]
Subpart Cc--[Reserved]
6. Part 60 is amended by redesignating subpart Cb as Cd, reserving
subpart Cc, and revising the new subpart Cd to read as follows:
Subpart Cd--Emissions Guidelines and Compliance Times for Sulfuric Acid
Production Units
Sec.
60.30d Designated facilities.
60.31d Emission guidelines.
60.32d Compliance times.
Subpart Cd--Emission Guidelines and Compliance Times for Sulfuric
Acid Production Units
Sec. 60.30d Designated facilities.
Sulfuric acid production units. The designated facility to which
Secs. 60.31d and 60.32d apply is each existing ``sulfuric acid
production unit'' as defined in Sec. 60.81(a) of subpart H of this
part.
Sec. 60.31d Emissions guidelines.
Sulfuric acid production units. The emission guideline for
designated facilities is 0.25 grams sulfuric acid mist (as measured by
EPA Reference Method 8 of appendix A of this part) per kilogram (0.5
pounds per ton) of sulfuric acid produced, the production being
expressed as 100 percent sulfuric acid.
Sec. 60.32d Compliance times.
Sulfuric acid production units. Planning, awarding of contracts,
and installation of equipment capable of attaining the level of the
emission guideline established under Sec. 60.31d can be accomplished
within 17 months after the effective date of a State emission standard
for sulfuric acid mist.
7. Part 60 is further amended by adding a new subpart Cb to read as
follows:
Subpart Cb--Emissions Guidelines and Compliance Times for Municipal
Waste Combustors That Are Constructed on or Before December 19, 1995
Sec.
60.30b Scope.
60.31b Definitions.
60.32b Designated facilities.
60.33b Emission guidelines for municipal waste combustor metals,
acid gases, organics, and nitrogen oxides.
60.34b Emission guidelines for municipal waste combustor operating
practices.
60.35b Emission guidelines for municipal waste combustor operator
training and certification.
60.36b Emission guidelines for municipal waste combustor fugitive
ash emissions.
60.37b Emission guidelines for air curtain incinerators.
[[Page 65415]]
60.38b Compliance and performance testing.
60.39b Reporting and recordkeeping guidelines, and compliance
schedules.
Subpart Cb--Emissions Guidelines and Compliance Schedules for
Municipal Waste Combustors
Sec. 60.30b Scope.
This subpart contains emission guidelines and compliance schedules
for the control of certain designated pollutants from certain municipal
waste combustors in accordance with section 111(d) and section 129 of
the Clean Air Act and subpart B of this part. The provisions in these
emission guidelines supersede the provisions of Sec. 60.24(f) of
subpart B of this part.
Sec. 60.31b Definitions.
Terms used but not defined in this subpart have the meaning given
them in the Clean Air Act and subparts A, B, and Eb of this part.
Municipal waste combustor plant means one or more municipal waste
combustor units at the same location for which construction was
commenced on or before September 20, 1994.
Municipal waste combustor plant capacity means the aggregate
municipal waste combustor unit capacity of all municipal waste
combustor units at a municipal waste combustor plant for which
construction was commenced on or before September 20, 1994.
Sec. 60.32b Designated facilities.
(a) The designated facility to which these guidelines apply is each
municipal waste combustor unit located within a municipal waste
combustor plant with an aggregate municipal waste combustor plant
capacity greater than 35 megagrams per day of municipal solid waste for
which construction was commenced on or before September 20, 1994.
(b) Any waste combustion unit at a medical, industrial, or other
type of waste combustor plant that is capable of combusting more than
35 megagrams per day of municipal solid waste and is subject to a
federally enforceable permit limiting the plantwide maximum amount of
municipal solid waste that may be combusted to less than or equal to 10
megagrams per day is not subject to this subpart if the owner or
operator:
(1) Notifies the Administrator of an exemption claim,
(2) Provides a copy of the federally enforceable permit that limits
the firing of municipal solid waste to less than 10 megagrams per day,
and
(3) Keeps records of the amount of municipal solid waste fired on a
daily basis.
(c) Physical or operational changes made to an existing municipal
waste combustor unit primarily for the purpose of complying with
emission guidelines under this subpart are not considered in
determining whether the unit is a modified or reconstructed facility
under subpart Ea or subpart Eb of this part.
(d) A qualifying small power production facility, as defined in
section 3(17)(C) of the Federal Power Act (16 U.S.C. 796(17)(C)), that
burns homogeneous waste (such as automotive tires or used oil, but not
including refuse-derived fuel) for the production of electric energy is
not subject to this subpart if the owner or operator of the facility
notifies the Administrator of this exemption and provides data
documenting that the facility qualifies for this exemption.
(e) A qualifying cogeneration facility, as defined in section
3(18)(B) of the Federal Power Act (16 U.S.C. 796(18)(B)), that burns
homogeneous waste (such as automotive tires or used oil, but not
including refuse-derived fuel) for the production of electric energy
and steam or forms of useful energy (such as heat) that are used for
industrial, commercial, heating, or cooling purposes, is not subject to
this subpart if the owner or operator of the facility notifies the
Administrator of this exemption and provides data documenting that the
facility qualifies for this exemption.
(f) Any unit combusting a single-item waste stream of tires is not
subject to this subpart if the owner or operator of the unit:
(1) Notifies the Administrator of an exemption claim, and
(2) Provides data documenting that the unit qualifies for this
exemption.
(g) Any unit required to have a permit under section 3005 of the
Solid Waste Disposal Act is not subject to this subpart.
(h) Any materials recovery facility (including primary or secondary
smelters) that combusts waste for the primary purpose of recovering
metals is not subject to this subpart.
(i) Any cofired combustor, as defined under Sec. 60.51b of subpart
Eb of this part, that meets the capacity specifications in paragraph
(a) of this section is not subject to this subpart if the owner or
operator of the cofired combustor:
(1) Notifies the Administrator of an exemption claim,
(2) Provides a copy of the federally enforceable permit (specified
in the definition of cofired combustor in this section), and
(3) Keeps a record on a calendar quarter basis of the weight of
municipal solid waste combusted at the cofired combustor and the weight
of all other fuels combusted at the cofired combustor.
(j) Air curtain incinerators, as defined under Sec. 60.51b of
subpart Eb of this part, that meet the capacity specifications in
paragraph (a) of this section, and that combust a fuel stream composed
of 100 percent yard waste are exempt from all provisions of this
subpart except the opacity standard under Sec. 60.37b, the testing
procedures under Sec. 60.38b, and the reporting and recordkeeping
provisions under Sec. 60.39b.
(k) Air curtain incinerators that meet the capacity specifications
in paragraph (a) of this section and that combust municipal solid waste
other than yard waste are subject to all provisions of this subpart.
(l) Pyrolysis/combustion units that are an integrated part of a
plastics/rubber recycling unit (as defined in Sec. 60.51b) are not
subject to this subpart if the owner or operator of the plastics/rubber
recycling unit keeps records of the weight of plastics, rubber, and/or
rubber tires processed on a calendar quarter basis; the weight of
chemical plant feedstocks and petroleum refinery feedstocks produced
and marketed on a calendar quarter basis; and the name and address of
the purchaser of the feedstocks. The combustion of gasoline, diesel
fuel, jet fuel, fuel oils, residual oil, refinery gas, petroleum coke,
liquified petroleum gas, propane, or butane produced by chemical plants
or petroleum refineries that use feedstocks produced by plastics/rubber
recycling units are not subject to this subpart.
Sec. 60.33b Emission guidelines for municipal waste combustor metals,
acid gases, organics, and nitrogen oxides.
(a) The emission limits for municipal waste combustor metals are
specified in paragraphs (a)(1) through (a)(3) of this section.
(1) For approval, a State plan shall include emission limits for
particulate matter and opacity at least as protective as the emission
limits for particulate matter and opacity specified in paragraphs
(a)(1)(i) through (a)(1)(iii) of this section.
(i) The emission limit for particulate matter contained in the
gases discharged to the atmosphere from a designated facility located
within a large municipal waste combustor plant is 27 milligrams per dry
standard cubic meter, corrected to 7 percent oxygen.
(ii) The emission limit for particulate matter contained in the
gases discharged to the atmosphere from a designated facility located
within a small municipal waste combustor plant is 70
[[Page 65416]]
milligrams per dry standard cubic meter, corrected to 7 percent oxygen.
(iii) The emission limit for opacity exhibited by the gases
discharged to the atmosphere from a designated facility located within
a small or large municipal waste combustor plant is 10 percent (6-
minute average).
(2) For approval, a State plan shall include emission limits for
cadmium and lead at least as protective as the emission limits for
cadmium and lead specified in paragraphs (a)(2)(i) through (a)(2)(iv)
of this section.
(i) The emission limit for cadmium contained in the gases
discharged to the atmosphere from a designated facility located within
a large municipal waste combustor plant is 0.040 milligrams per dry
standard cubic meter, corrected to 7 percent oxygen.
(ii) The emission limit for cadmium contained in the gases
discharged to the atmosphere from a designated facility located within
a small municipal waste combustor plant is 0.10 milligrams per dry
standard cubic meter, corrected to 7 percent oxygen.
(iii) The emission limit for lead contained in the gases discharged
to the atmosphere from a designated facility located within a large
municipal waste combustor plant is 0.49 milligrams per dry standard
cubic meter, corrected to 7 percent oxygen.
(iv) The emission limit for lead contained in the gases discharged
to the atmosphere from a designated facility located within a small
municipal waste combustor plant is 1.6 milligrams per dry standard
cubic meter, corrected to 7 percent oxygen.
(3) For approval, a State plan shall include emission limits for
mercury at least as protective as the emission limits specified in this
paragraph. The emission limit for mercury contained in the gases
discharged to the atmosphere from a designated facility located within
a small or large municipal waste combustor plant is 0.080 milligrams
per dry standard cubic meter or 15 percent of the potential mercury
emission concentration (an 85-percent reduction by weight), corrected
to 7 percent oxygen, whichever is less stringent.
(b) The emission limits for municipal waste combustor acid gases,
expressed as sulfur dioxide and hydrogen chloride, are specified in
paragraphs (b)(1) and (b)(2) of this section.
(1) For approval, a State plan shall include emission limits for
sulfur dioxide at least as protective as the emission limits for sulfur
dioxide specified in paragraphs (b)(1)(i) and (b)(1)(ii) of this
section.
(i) The emission limit for sulfur dioxide contained in the gases
discharged to the atmosphere from a designated facility located within
a large municipal waste combustor plant is 31 parts per million by
volume or 25 percent of the potential sulfur dioxide emission
concentration (75-percent reduction by weight or volume), corrected to
7 percent oxygen (dry basis), whichever is less stringent. Compliance
with this emission limit is based on a 24-hour daily geometric mean.
(ii) The emission limit for sulfur dioxide contained in the gases
discharged to the atmosphere from a designated facility located within
a small municipal waste combustor plant is 80 parts per million by
volume or 50 percent of the potential sulfur dioxide emission
concentration (50-percent reduction by weight or volume), corrected to
7 percent oxygen (dry basis), whichever is less stringent. Compliance
with this emission limit is based on a 24-hour geometric mean.
(2) For approval, a State plan shall include emission limits for
hydrogen chloride at least as protective as the emission limits for
hydrogen chloride specified in paragraphs (b)(2)(i) and (b)(2)(ii) of
this section.
(i) The emission limit for hydrogen chloride contained in the gases
discharged to the atmosphere from a designated facility located within
a large municipal waste combustor plant is 31 parts per million by
volume or 5 percent of the potential hydrogen chloride emission
concentration (95-percent reduction by weight or volume), corrected to
7 percent oxygen (dry basis), whichever is less stringent.
(ii) The emission limit for hydrogen chloride contained in the
gases discharged to the atmosphere from an affected facility located
within a small municipal waste combustor plant is 250 parts per million
by volume or 50 percent of the potential hydrogen chloride emission
concentration (50-percent reduction by weight or volume), corrected to
7 percent oxygen (dry basis), whichever is less stringent.
(c) The emission limits for municipal waste combustor organics,
expressed as total mass dioxins/furans, are specified in paragraphs
(c)(1) and (c)(2) of this section.
(1) For approval, a State plan shall include an emission limit for
dioxins/furans contained in the gases discharged to the atmosphere from
a designated facility located within a large municipal waste combustor
plant at least as protective as the emission limit for dioxins/furans
specified in either paragraph (c)(1)(i) or (c)(1)(ii) of this section,
as applicable.
(i) The emission limit for designated facilities that employ an
electrostatic precipitator-based emission control system is 60
nanograms per dry standard cubic meter (total mass), corrected to 7
percent oxygen.
(ii) The emission limit for designated facilities that do not
employ an electrostatic precipitator-based emission control system is
30 nanograms per dry standard cubic meter (total mass), corrected to 7
percent oxygen.
(2) For approval, a State plan shall include an emission limit for
dioxins/furans contained in the gases discharged to the atmosphere from
a designated facility located within a small municipal waste combustor
plant at least as protective as the emission limit for dioxins/furans
specified in this paragraph. The emission limit for dioxins/furans for
designated facilities located within a small municipal waste combustor
plant is 125 nanograms per dry standard cubic meter (total mass),
corrected to 7 percent oxygen.
(d) For approval, a State plan shall include emission limits for
nitrogen oxides at least as protective as the emission limits listed in
table 1 of this subpart for designated facilities located within large
municipal waste combustor plants. Table 1 provides emission limits for
the nitrogen oxides concentration level for each type of designated
facility.
Table 1.--Nitrogen Oxides Guidelines for Designated Facilities at Large
Municipal Waste Combustor Plants
------------------------------------------------------------------------
Nitrogen
oxides
emission
Municipal waste combustor technology limit (parts
per million
by volume) a
------------------------------------------------------------------------
Mass burn waterwall....................................... 200
Mass burn rotary waterwall................................ 250
Refuse-derived fuel combustor............................. 250
Fluidized bed combustor................................... 240
Mass burn refractory combustors........................... no limit
Otherb.................................................... 200
------------------------------------------------------------------------
a Corrected to 7 percent oxygen, dry basis.
b Excludes mass burn refractory municipal waste combustors.
(1) A State plan may allow nitrogen oxides emissions averaging as
specified in paragraphs (d)(1)(i) through (d)(1)(v) of this section.
(i) An owner or operator of a large municipal waste combustor plant
may elect to implement a nitrogen oxides emissions averaging plan for
the designated facilities that are located at that plant and that are
subject to subpart Cb, except as specified in paragraphs
[[Page 65417]]
(d)(1)(i)(A) and (d)(1)(i)(B) of this section.
(A) Municipal waste combustor units subject to subpart Ea or Eb
cannot be included in the emissions averaging plan.
(B) Mass burn refractory municipal waste combustor units cannot be
included in the emissions averaging plan.
(ii) The designated facilities included in the nitrogen oxides
emissions averaging plan must be identified in the initial compliance
report specified in Sec. 60.59b(f) or in the annual report specified in
Sec. 60.59b(g), as applicable, prior to implementing the averaging
plan. The designated facilities being included in the averaging plan
may be redesignated each calendar year. Partial year redesignation is
allowable with State approval.
(iii) To implement the emissions averaging plan, the average daily
(24-hour) nitrogen oxides emission concentration level for gases
discharged from the designated facilities being included in the
emissions averaging plan must be no greater than the levels specified
in table 2 of this subpart. Table 2 provides emission limits for the
nitrogen oxides concentration level for each type of designated
facility.
Table 2.--Nitrogen Oxides Limits For Existing Designated Facilities
Included in an Emissions Averaging Plan at Large Municipal Waste
Combustor Plants
------------------------------------------------------------------------
Nitrogen
oxides
emission
Municipal waste combustor technology limit (parts
per million
by volume)a
------------------------------------------------------------------------
Mass burn waterwall....................................... 180
Mass burn rotary waterwall................................ 220
Refuse-derived fuel combustor............................. 230
Fluidized bed combustor................................... 220
Otherb.................................................... 180
------------------------------------------------------------------------
a Corrected to 7 percent oxygen, dry basis.
b Excludes mass burn refractory municipal waste combustors. Mass burn
refractory municipal waste combustors may not be included in an
emissions averaging plan.
(iv) Under the emissions averaging plan, the average daily nitrogen
oxides emissions specified in paragraph (d)(1)(iii) of this section
shall be calculated using equation (1). Designated facilities that are
offline shall not be included in calculating the average daily nitrogen
oxides emission level.
[GRAPHIC][TIFF OMITTED]TR19DE95.000
where:
NOX 24-hr=24-hr daily average nitrogen oxides emission
concentration level for the emissions averaging plan (parts per million
by volume corrected to 7 percent oxygen).
NOX i-hr=24-hr daily average nitrogen oxides emission
concentration level for designated facility i (parts per million by
volume, corrected to 7 percent oxygen), calculated according to the
procedures in Sec. 60.58b(h) of this subpart.
Si=maximum demonstrated municipal waste combustor unit load for
designated facility i (pounds per hour steam or feedwater flow as
determined in the most recent dioxin/furan performance test).
h=total number of designated facilities being included in the daily
emissions average.
(v) For any day in which any designated facility included in the
emissions averaging plan is offline, the owner or operator of the
municipal waste combustor plant must demonstrate compliance according
to either paragraph (d)(1)(v)(A) of this section or both paragraphs
(d)(1)(v)(B) and (d)(1)(v)(C) of this section.
(A) Compliance with the applicable limits specified in table 2 of
this subpart shall be demonstrated using the averaging procedure
specified in paragraph (d)(1)(iv) of this section for the designated
facilities that are online.
(B) For each of the designated facilities included in the emissions
averaging plan, the nitrogen oxides emissions on a daily average basis
shall be calculated and shall be equal to or less than the maximum
daily nitrogen oxides emission level achieved by that designated
facility on any of the days during which the emissions averaging plan
was achieved with all designated facilities online during the most
recent calendar quarter. The requirements of this paragraph do not
apply during the first quarter of operation under the emissions
averaging plan.
(C) The average nitrogen oxides emissions (kilograms per day)
calculated according to paragraph (d)(1)(v)(C)(2) of this section shall
not exceed the average nitrogen oxides emissions (kilograms per day)
calculated according to paragraph (d)(1)(v)(C)(1) of this section.
(1) For all days during which the emissions averaging plan was
implemented and achieved and during which all designated facilities
were online, the average nitrogen oxides emissions shall be calculated.
The average nitrogen oxides emissions (kilograms per day) shall be
calculated on a calendar year basis according to paragraphs
(d)(1)(v)(C)(1)(i) through (d)(1)(v)(C)(1)(iii) of this section.
(i) For each designated facility included in the emissions
averaging plan, the daily amount of nitrogen oxides emitted (kilograms
per day) shall be calculated based on the hourly nitrogen oxides data
required under Sec. 60.38b(a) and specified under Sec. 60.58b(h)(5) of
subpart Eb of this part, the flue gas flow rate determined using table
19-1 of EPA Reference Method 19 or a State-approved method, and the
hourly average steam or feedwater flow rate.
(ii) The daily total nitrogen oxides emissions shall be calculated
as the sum of the daily nitrogen oxides emissions from each designated
facility calculated under paragraph (d)(1)(v)(C)(1)(i) of this section.
(iii) The average nitrogen oxides emissions (kilograms per day) on
a calendar year basis shall be calculated as the sum of all daily total
nitrogen oxides emissions calculated under paragraph
(d)(1)(v)(C)(1)(ii) of this section divided by the number of calendar
days for which a daily total was calculated.
(2) For all days during which one or more of the designated
facilities under the emissions averaging plan was offline, the average
nitrogen oxides emissions shall be calculated. The average nitrogen
oxides emissions (kilograms per day) shall be calculated on a calendar
year basis according to paragraphs (d)(1)(v)(C)(2)(i) through
(d)(1)(v)(C)(2)(iii) of this section.
(i) For each designated facility included in the emissions
averaging plan, the daily amount of nitrogen oxides emitted (kilograms
per day) shall be calculated based on the hourly nitrogen oxides data
required under Sec. 60.38b(a) and specified under Sec. 60.58b(h)(5) of
subpart Eb of this part, the flue gas flow rate determined using table
19-1 of EPA Reference Method 19 or a State-approved method, and the
hourly average steam or feedwater flow rate.
(ii) The daily total nitrogen oxides emissions shall be calculated
as the sum of the daily nitrogen oxides emissions from each designated
facility calculated under paragraph (d)(1)(v)(C)(2)(i) of this section.
(iii) The average nitrogen oxides emissions (kilograms per day) on
a calendar year basis shall be calculated
[[Page 65418]]
as the sum of all daily total nitrogen oxides emissions calculated
under paragraph (d)(1)(v)(C)(2)(ii) of this section divided by the
number of calendar days for which a daily total was calculated.
(2) A State plan may establish a program to allow owners or
operators of municipal waste combustor plants to engage in trading of
nitrogen oxides emission credits. A trading program must be approved by
the Administrator before implementation.
Sec. 60.34b Emission guidelines for municipal waste combustor
operating practices.
(a) For approval, a State plan shall include emission limits for
carbon monoxide at least as protective as the emission limits for
carbon monoxide listed in table 3 of this subpart. Table 3 provides
emission limits for the carbon monoxide concentration level for each
type of designated facility located within a small or large municipal
waste combustor plant.
Table 3.--Municipal Waste Combustor Operating Guidelines
------------------------------------------------------------------------
Carbon
monoxide
emissions
Municipal waste combustor technology level Averaging
(parts per time (hrs)
million by
volume)a
------------------------------------------------------------------------
Mass burn waterwall........................... 100 4
Mass burn refractory.......................... 100 4
Mass burn rotary refractory................... 100 24
Mass burn rotary waterwall.................... 250 24
Modular starved air........................... 50 4
Modular excess air............................ 50 4
Refuse-derived fuel stoker.................... 200 24
Buddling fluidized bed combustor.............. 100 4
Circulating fluidized bed combustor........... 100 4
Pulverized coal/refuse-derived fuel mixed fuel-
fired combustor.............................. 150 4
Spreader stoker coal/refuse-derived fuel mixed
fuel-fired combustor......................... 200 24
------------------------------------------------------------------------
a Measured at the combustor outlet in conjunction with a measurement of
oxygen concentration, corrected to 7 percent oxygen, dry basis.
Calculated as an arithmetic average.
(b) For approval, a State plan shall include requirements for
municipal waste combustor operating practices at least as protective as
those requirements listed in Sec. 60.53b(b) and (c) of subpart Eb of
this part.
Sec. 60.35b Emission guidelines for municipal waste combustor operator
training and certification.
For approval, a State plan shall include requirements for
designated facilities located within small or large municipal waste
combustor plants for municipal waste combustor operator training and
certification at least as protective as those requirements listed in
Sec. 60.54b of subpart Eb of this part. The State plan shall require
compliance with these requirements according to the schedule specified
in Sec. 60.39b(c)(4).
Sec. 60.36b Emission guidelines for municipal waste combustor fugitive
ash emissions.
For approval, a State plan shall include requirements for municipal
waste combustor fugitive ash emissions at least as protective as those
requirements listed in Sec. 60.55b of subpart Eb of this part.
Sec. 60.37b Emission guidelines for air curtain incinerators.
For approval, a State plan shall include emission limits for
opacity for air curtain incinerators at least as protective as those
listed in Sec. 60.56b of subpart Eb of this part.
Sec. 60.38b Compliance and performance testing.
(a) For approval, a State plan shall include the performance
testing methods listed in Sec. 60.58b of subpart Eb of this part, as
applicable, except as provided for under Sec. 60.24(b)(2) of subpart B
of this part and paragraphs (b) and (c) of this section.
(b) For approval, a State plan shall include for designated
facilities at large municipal waste combustor plants the alternative
performance testing schedule for dioxins/furans specified in
Sec. 60.58b(g)(5)(iii) of subpart Eb of this part, as applicable, for
those designated facilities that achieve a dioxin/furan emission level
less than or equal to 15 nanograms per dry standard cubic meter total
mass, corrected to 7 percent oxygen.
(c) For approval, a State plan shall include for designated
facilities at small municipal waste combustor plants the alternative
performance testing schedule for dioxins/furans specified in
Sec. 60.58b(g)(5)(iii) of subpart Eb of this part, as applicable, for
those designated facilities that achieve a dioxin/furan emission level
less than or equal to 30 nanograms per dry standard cubic meter total
mass, corrected to 7 percent oxygen.
Sec. 60.39b Reporting and recordkeeping guidelines and compliance
schedules.
(a) For approval, a State plan shall include the reporting and
recordkeeping provisions listed in Sec. 60.59b of subpart Eb of this
part, as applicable, except for the siting requirements under
Sec. 60.59b(a), (b)(5), and (d)(11) of subpart Eb of this part.
(b) Not later than December 19, 1996, each State in which a
designated facility is operating shall submit to the Administrator a
plan to implement and enforce the emission guidelines. The compliance
schedule specified in this paragraph is in accordance with section
129(b)(2) of the Act and supersedes the compliance schedule provided in
Sec. 60.23(a)(1) of subpart B of this part.
(c) For approval, a State plan shall include the compliance
schedules specified in paragraphs (c)(1) through (c)(5) of this
section.
(1) A State plan shall allow designated facilities located within
large municipal waste combustor plants to comply with all requirements
of a State plan (or close) within 1 year after approval of the State
plan, except as provided by paragraph (c)(1)(i) and (c)(1)(ii) of this
section.
(i) A State plan that allows designated facilities more than 1 year
but less than 3 years following the date of issuance of a revised
construction or operation permit, if a permit modification is
[[Page 65419]]
required, or more than 1 year but less than 3 years following approval
of the State plan, if a permit modification is not required, shall
include measurable and enforceable incremental steps of progress toward
compliance. Suggested measurable and enforceable activities are
specified in paragraphs (c)(1)(i)(A) through (c)(1)(i)(J) of this
section.
(A) Date for obtaining services of an architectural and engineering
firm regarding the air pollution control device(s);
(B) Date for obtaining design drawings of the air pollution control
device(s);
(C) Date for submittal of permit modifications, if necessary;
(D) Date for submittal of the final control plan to the
Administrator. [Sec. 60.21 (h)(1) of subpart B of this part.];
(E) Date for ordering the air pollution control device(s);
(F) Date for obtaining the major components of the air pollution
control device(s);
(G) Date for initiation of site preparation for installation of the
air pollution control device(s);
(H) Date for initiation of installation of the air pollution
control device(s);
(I) Date for initial startup of the air pollution control
device(s); and
(J) Date for initial performance test(s) of the air pollution
control device(s).
(ii) A State plan that allows designated facilities more than 1
year but up to 3 years after State plan approval to close shall require
a closure agreement. The closure agreement must include the date of
plant closure.
(2) If the State plan requirements for a designated facility
located within a large municipal waste combustor plant include a
compliance schedule longer than 1 year after approval of the State plan
in accordance with paragraph (c)(1)(i) or (c)(1)(ii) of this section,
the State plan submittal (for approval) shall include performance test
results for dioxin/furan emissions for each designated facility that
has a compliance schedule longer than 1 year following the approval of
the State plan, and the performance test results shall have been
conducted during or after 1990. The performance test shall be conducted
according to the procedures in Sec. 60.38b.
(3) A State plan shall allow designated facilities located within
small municipal waste combustor plants to comply with all requirements
of the State plan (or close) within 3 years following the date of
issuance of a revised construction or operation permit, if a permit
modification is required, or within 3 years following approval of the
State plan, if a permit modification is not required.
(4) A State plan shall require compliance with the municipal waste
combustor operator training and certification requirements under
Sec. 60.35b according to the schedule specified in paragraphs (c)(4)(i)
through (c)(4)(iii) of this section.
(i) For designated facilities located within small municipal waste
combustor plants, the State plan shall require compliance with the
municipal waste combustor operator training and certification
requirements specified under Sec. 60.54b (a) through (c) of subpart Eb
of this part by the date 6 months after startup of a designated
facility or 18 months after State plan approval, whichever is later.
(ii) For designated facilities located within large municipal waste
combustor plants, the State plan shall require compliance with the
municipal waste combustor operator training and certification
requirements specified under Sec. 60.54b (a) through (c) of subpart Eb
of this part by the date 6 months after the date of startup or 12
months after State plan approval, whichever is later.
(iii) For designated facilities located within small or large
municipal waste combustor plants, the State plan shall require
compliance with the requirements specified in Sec. 60.54b (d), (f), and
(g) of subpart Eb of this part no later than 6 months after startup or
12 months after State plan approval, whichever is later.
(A) The requirement specified in Sec. 60.54b(d) of subpart Eb of
this part does not apply to chief facility operators, shift
supervisors, and control room operators who have obtained full
certification from the American Society of Mechanical Engineers on or
before the date of State plan approval.
(B) The owner or operator may request that the Administrator waive
the requirement specified in Sec. 60.54b(d) of subpart Eb of this part
for chief facility operators, shift supervisors, and control room
operators who have obtained provisional certification from the American
Society of Mechanical Engineers on or before the date of State plan
approval.
(C) The initial training requirements specified in
Sec. 60.54b(f)(1) of subpart Eb of this part shall be completed no
later than the date specified in paragraph (c)(4)(iii)(C)(1),
(c)(4)(iii)(C)(2), or (c)(4)(iii)(C)(3), of this section whichever is
later.
(1) The date 6 months after the date of startup of the affected
facility;
(2) Twelve months after State plan approval; or
(3) The date prior to the day when the person assumes
responsibilities affecting municipal waste combustor unit operation.
(5) A State plan shall require all designated facilities for which
construction, modification, or reconstruction is commenced after June
26, 1987 that are located within a large municipal waste combustor
plant to comply with the emission limit for mercury specified in
Sec. 60.33b(a)(3) and the emission limit for dioxins/furans specified
in Sec. 60.33b(c)(1) within 1 year following issuance of a revised
construction or operation permit, if a permit modification is required,
or within 1 year following approval of the State plan, whichever is
later.
(d) In the event no plan for implementing the emission guidelines
is adopted, all designated facilities meeting the applicability
requirements under Sec. 60.32b shall be in compliance with the
guidelines no later than December 19, 2000.
8. Part 60 is amended by adding subpart Eb as follows:
Subpart Eb--Standards of Performance for Municipal Waste Combustors for
Which Construction is Commenced After September 20, 1994
Sec.
60.50b Applicability and delegation of authority.
60.51b Definitions.
60.52b Standards for municipal waste combustor metals, acid gases,
organics, and nitrogen oxides.
60.53b Standards for municipal waste combustor operating practices.
60.54b Standards for municipal waste combustor operator training
and certification.
60.55b Standards for municipal waste combustor fugitive ash
emissions.
60.56b Standards for air curtain incinerators.
60.57b Siting requirements.
60.58b Compliance and performance testing.
60.59b Reporting and recordkeeping requirements.
Subpart Eb--Standards of Performance for Municipal Waste Combustors
for Which Construction is Commenced After September 20, 1994
Sec. 60.50b Applicability and delegation of authority.
(a) The affected facility to which this subpart applies is each
municipal waste combustor unit located within a municipal waste
combustor plant with an aggregate municipal waste combustor plant
capacity greater than 35 megagrams per day of municipal solid waste for
which construction is commenced after September 20, 1994 or for which
modification or reconstruction is commenced after June 19, 1996.
[[Page 65420]]
(b) Any waste combustion unit at a medical, industrial, or other
type of waste combustor plant that is capable of combusting more than
35 megagrams per day of municipal solid waste and is subject to a
federally enforceable permit limiting the plantwide maximum amount of
municipal solid waste that may be combusted to less than or equal to 10
megagrams per day is not subject to this subpart if the owner or
operator:
(1) Notifies the Administrator of an exemption claim;
(2) Provides a copy of the federally enforceable permit that limits
the firing of municipal solid waste to less than 10 megagrams per day;
and
(3) Keeps records of the amount of municipal solid waste fired on a
daily basis.
(c) An affected facility to which this subpart applies is not
subject to subpart E or Ea of this part.
(d) Physical or operational changes made to an existing municipal
waste combustor unit primarily for the purpose of complying with
emission guidelines under subpart Cb are not considered a modification
or reconstruction and do not result in an existing municipal waste
combustor unit becoming subject to this subpart.
(e) A qualifying small power production facility, as defined in
section 3(17)(C) of the Federal Power Act (16 U.S.C. 796(17)(C)), that
burns homogeneous waste (such as automotive tires or used oil, but not
including refuse-derived fuel) for the production of electric energy is
not subject to this subpart if the owner or operator of the facility
notifies the Administrator of this exemption and provides data
documenting that the facility qualifies for this exemption.
(f) A qualifying cogeneration facility, as defined in section
3(18)(B) of the Federal Power Act (16 U.S.C. 796(18)(B)), that burns
homogeneous waste (such as automotive tires or used oil, but not
including refuse-derived fuel) for the production of electric energy
and steam or forms of useful energy (such as heat) that are used for
industrial, commercial, heating, or cooling purposes, is not subject to
this subpart if the owner or operator of the facility notifies the
Administrator of this exemption and provides data documenting that the
facility qualifies for this exemption.
(g) Any unit combusting a single-item waste stream of tires is not
subject to this subpart if the owner or operator of the unit:
(1) Notifies the Administrator of an exemption claim; and
(3) Provides data documenting that the unit qualifies for this
exemption.
(h) Any unit required to have a permit under section 3005 of the
Solid Waste Disposal Act is not subject to this subpart.
(i) Any materials recovery facility (including primary or secondary
smelters) that combusts waste for the primary purpose of recovering
metals is not subject to this subpart.
(j) Any cofired combustor, as defined under Sec. 60.51b, located at
a plant that meets the capacity specifications in paragraph (a) of this
section is not subject to this subpart if the owner or operator of the
cofired combustor:
(1) Notifies the Administrator of an exemption claim;
(2) Provides a copy of the federally enforceable permit (specified
in the definition of cofired combustor in this section); and
(3) Keeps a record on a calendar quarter basis of the weight of
municipal solid waste combusted at the cofired combustor and the weight
of all other fuels combusted at the cofired combustor.
(k) Air curtain incinerators, as defined under Sec. 60.51b, located
at a plant that meet the capacity specifications in paragraph (a) of
this section and that combust a fuel stream composed of 100 percent
yard waste are exempt from all provisions of this subpart except the
opacity limit under Sec. 60.56b, the testing procedures under
Sec. 60.58b(l), and the reporting and recordkeeping provisions under
Sec. 60.59b (e) and (i).
(l) Air curtain incinerators located at plants that meet the
capacity specifications in paragraph (a) of this section combusting
municipal solid waste other than yard waste are subject to all
provisions of this subpart.
(m) Pyrolysis/combustion units that are an integrated part of a
plastics/rubber recycling unit (as defined in Sec. 60.51b) are not
subject to this subpart if the owner or operator of the plastics/rubber
recycling unit keeps records of the weight of plastics, rubber, and/or
rubber tires processed on a calendar quarter basis; the weight of
chemical plant feedstocks and petroleum refinery feedstocks produced
and marketed on a calendar quarter basis; and the name and address of
the purchaser of the feedstocks. The combustion of gasoline, diesel
fuel, jet fuel, fuel oils, residual oil, refinery gas, petroleum coke,
liquified petroleum gas, propane, or butane produced by chemical plants
or petroleum refineries that use feedstocks produced by plastics/rubber
recycling units are not subject to this subpart.
(n) The following authorities shall be retained by the
Administrator and not transferred to a State: None.
(o) This subpart shall become effective June 19, 1996.
Sec. 60.51b Definitions.
Air curtain incinerator means an incinerator that operates by
forcefully projecting a curtain of air across an open chamber or pit in
which burning occurs. Incinerators of this type can be constructed
above or below ground and with or without refractory walls and floor.
Batch municipal waste combustor means a municipal waste combustor
unit designed so that it cannot combust municipal solid waste
continuously 24 hours per day because the design does not allow waste
to be fed to the unit or ash to be removed while combustion is
occurring.
Bubbling fluidized bed combustor means a fluidized bed combustor in
which the majority of the bed material remains in a fluidized state in
the primary combustion zone.
Calendar quarter means a consecutive 3-month period
(nonoverlapping) beginning on January 1, April 1, July 1, and October
1.
Calendar year means the period including 365 days starting January
1 and ending on December 31.
Chief facility operator means the person in direct charge and
control of the operation of a municipal waste combustor and who is
responsible for daily onsite supervision, technical direction,
management, and overall performance of the facility.
Circulating fluidized bed combustor means a fluidized bed combustor
in which the majority of the fluidized bed material is carried out of
the primary combustion zone and is transported back to the primary zone
through a recirculation loop.
Clean wood means untreated wood or untreated wood products
including clean untreated lumber, tree stumps (whole or chipped), and
tree limbs (whole or chipped). Clean wood does not include yard waste,
which is defined elsewhere in this section, or construction,
renovation, and demolition wastes (including but not limited to
railroad ties and telephone poles), which are exempt from the
definition of municipal solid waste in this section.
Cofired combustor means a unit combusting municipal solid waste
with nonmunicipal solid waste fuel (e.g., coal, industrial process
waste) and subject to a federally enforceable permit limiting the unit
to combusting a fuel feed stream, 30 percent or less of the weight of
which is comprised, in aggregate, of municipal solid waste as measured
on a calendar quarter basis.
[[Page 65421]]
Continuous emission monitoring system means a monitoring system for
continuously measuring the emissions of a pollutant from an affected
facility.
Dioxin/furan means tetra- through octa- chlorinated dibenzo-p-
dioxins and dibenzofurans.
Federally enforceable means all limitations and conditions that are
enforceable by the Administrator including the requirements of 40 CFR
parts 60, 61, and 63, requirements within any applicable State
implementation plan, and any permit requirements established under 40
CFR 52.21 or under 40 CFR 51.18 and 40 CFR 51.24.
First calendar half means the period starting on January 1 and
ending on June 30 in any year.
Four-hour block average or 4-hour block average means the average
of all hourly emission concentrations when the affected facility is
operating and combusting municipal solid waste measured over 4-hour
periods of time from 12:00 midnight to 4 a.m., 4 a.m. to 8 a.m., 8 a.m.
to 12:00 noon, 12:00 noon to 4 p.m., 4 p.m. to 8 p.m., and 8 p.m. to
12:00 midnight.
Large municipal waste combustor plant means a municipal waste
combustor plant with a municipal waste combustor aggregate plant
capacity for affected facilities that is greater than 225 megagrams per
day of municipal solid waste.
Mass burn refractory municipal waste combustor means a field-
erected combustor that combusts municipal solid waste in a refractory
wall furnace. Unless otherwise specified, this includes combustors with
a cylindrical rotary refractory wall furnace.
Mass burn rotary waterwall municipal waste combustor means a field-
erected combustor that combusts municipal solid waste in a cylindrical
rotary waterwall furnace.
Mass burn waterwall municipal waste combustor means a field-erected
combustor that combusts municipal solid waste in a waterwall furnace.
Materials separation plan means a plan that identifies both a goal
and an approach to separate certain components of municipal solid waste
for a given service area in order to make the separated materials
available for recycling. A materials separation plan may include
elements such as dropoff facilities, buy-back or deposit-return
incentives, curbside pickup programs, or centralized mechanical
separation systems. A materials separation plan may include different
goals or approaches for different subareas in the service area, and may
include no materials separation activities for certain subareas or, if
warranted, an entire service area.
Maximum demonstrated municipal waste combustor unit load means the
highest 4-hour arithmetic average municipal waste combustor unit load
achieved during four consecutive hours during the most recent dioxin/
furan performance test demonstrating compliance with the applicable
limit for municipal waste combustor organics specified under
Sec. 60.52b(c).
Maximum demonstrated particulate matter control device temperature
means the highest 4-hour arithmetic average flue gas temperature
measured at the particulate matter control device inlet during four
consecutive hours during the most recent dioxin/furan performance test
demonstrating compliance with the applicable limit for municipal waste
combustor organics specified under Sec. 60.52b(c).
Modification or modified municipal waste combustor unit means a
municipal waste combustor unit to which changes have been made after
June 19, 1996 if the cumulative cost of the changes, over the life of
the unit, exceed 50 percent of the original cost of construction and
installation of the unit (not including the cost of any land purchased
in connection with such construction or installation) updated to
current costs; or any physical change in the municipal waste combustor
unit or change in the method of operation of the municipal waste
combustor unit increases the amount of any air pollutant emitted by the
unit for which standards have been established under section 129 or
section 111. Increases in the amount of any air pollutant emitted by
the municipal waste combustor unit are determined at 100-percent
physical load capability and downstream of all air pollution control
devices, with no consideration given for load restrictions based on
permits or other nonphysical operational restrictions.
Modular excess-air municipal waste combustor means a combustor that
combusts municipal solid waste and that is not field-erected and has
multiple combustion chambers, all of which are designed to operate at
conditions with combustion air amounts in excess of theoretical air
requirements.
Modular starved-air municipal waste combustor means a combustor
that combusts municipal solid waste and that is not field-erected and
has multiple combustion chambers in which the primary combustion
chamber is designed to operate at substoichiometric conditions.
Municipal solid waste or municipal-type solid waste or MSW means
household, commercial/retail, and/or institutional waste. Household
waste includes material discarded by single and multiple residential
dwellings, hotels, motels, and other similar permanent or temporary
housing establishments or facilities. Commercial/retail waste includes
material discarded by stores, offices, restaurants, warehouses,
nonmanufacturing activities at industrial facilities, and other similar
establishments or facilities. Institutional waste includes material
discarded by schools, nonmedical waste discarded by hospitals, material
discarded by nonmanufacturing activities at prisons and government
facilities, and material discarded by other similar establishments or
facilities. Household, commercial/retail, and institutional waste does
not include used oil; sewage sludge; wood pallets; construction,
renovation, and demolition wastes (which includes but is not limited to
railroad ties and telephone poles); clean wood; industrial process or
manufacturing wastes; medical waste; or motor vehicles (including motor
vehicle parts or vehicle fluff). Household, commercial/retail, and
institutional wastes include:
(1) Yard waste;
(2) Refuse-derived fuel; and
(3) Motor vehicle maintenance materials limited to vehicle
batteries and tires except as specified in Sec. 60.50b(g).
Municipal waste combustor, MWC, or municipal waste combustor unit:
(1) Means any setting or equipment that combusts solid, liquid, or
gasified municipal solid waste including, but not limited to, field-
erected incinerators (with or without heat recovery), modular
incinerators (starved-air or excess-air), boilers (i.e., steam
generating units), furnaces (whether suspension-fired, grate-fired,
mass-fired, air curtain incinerators, or fluidized bed-fired), and
pyrolysis/combustion units. Municipal waste combustors do not include
pyrolysis/combustion units located at a plastics/rubber recycling unit
(as specified in Sec. 60.50b(m) of this section). Municipal waste
combustors do not include internal combustion engines, gas turbines, or
other combustion devices that combust landfill gases collected by
landfill gas collection systems.
(2) The boundaries of a municipal solid waste combustor are defined
as follows. The municipal waste combustor unit includes, but is not
limited to, the municipal solid waste fuel feed system, grate system,
flue gas system, bottom ash system, and the combustor water system. The
municipal waste combustor boundary starts at the
[[Page 65422]]
municipal solid waste pit or hopper and extends through:
(i) The combustor flue gas system, which ends immediately following
the heat recovery equipment or, if there is no heat recovery equipment,
immediately following the combustion chamber,
(ii) The combustor bottom ash system, which ends at the truck
loading station or similar ash handling equipment that transfer the ash
to final disposal, including all ash handling systems that are
connected to the bottom ash handling system; and
(iii) The combustor water system, which starts at the feed water
pump and ends at the piping exiting the steam drum or superheater.
(3) The municipal waste combustor unit does not include air
pollution control equipment, the stack, water treatment equipment, or
the turbine-generator set.
Municipal waste combustor acid gases means all acid gases emitted
in the exhaust gases from municipal waste combustor units including,
but not limited to, sulfur dioxide and hydrogen chloride gases.
Municipal waste combustor metals means metals and metal compounds
emitted in the exhaust gases from municipal waste combustor units.
Municipal waste combustor organics means organic compounds emitted
in the exhaust gases from municipal waste combustor units and includes
tetra-through octa- chlorinated dibenzo-p-dioxins and dibenzofurans.
Municipal waste combustor plant means one or more municipal waste
combustor units at the same location for which construction,
modification, or reconstruction is commenced after September 20, 1994.
Municipal waste combustor plant capacity means the aggregate
municipal waste combustor unit capacity of all municipal waste
combustor units at a municipal waste combustor plant for which
construction, modification, or reconstruction of the units commenced
after September 20, 1994. Any municipal waste combustor units for which
construction, modification, or reconstruction is commenced on or before
September 20, 1994 are not included for determining applicability under
this subpart.
Municipal waste combustor unit capacity means the maximum charging
rate of a municipal waste combustor unit expressed in megagrams per day
of municipal solid waste combusted, calculated according to the
procedures under Sec. 60.58b(j). Section 60.58b(j) includes procedures
for determining municipal waste combustor unit capacity for continuous
and batch feed municipal waste combustors.
Municipal waste combustor unit load means the steam load of the
municipal waste combustor unit measured as specified in
Sec. 60.58b(i)(6).
Particulate matter means total particulate matter emitted from
municipal waste combustor units as measured by EPA Reference Method 5
(see Sec. 60.58b(c)).
Plastics/rubber recycling unit means an integrated processing unit
where plastics, rubber, and/or rubber tires are the only feed materials
(incidental contaminants may be included in the feed materials) and
they are processed into a chemical plant feedstock or petroleum
refinery feedstock, where the feedstock is marketed to and used by a
chemical plant or petroleum refinery as input feedstock. The combined
weight of the chemical plant feedstock and petroleum refinery feedstock
produced by the plastics/rubber recycling unit on a calendar quarter
basis shall be more than 70 percent of the combined weight of the
plastics, rubber, and rubber tires processed by the plastics/rubber
recycling unit on a calendar quarter basis. The plastics, rubber, and/
or rubber tire feed materials to the plastics/rubber recycling unit may
originate from the separation or diversion of plastics, rubber, or
rubber tires from MSW or industrial solid waste, and may include
manufacturing scraps, trimmings, and off-specification plastics,
rubber, and rubber tire discards. The plastics, rubber, and rubber tire
feed materials to the plastics/rubber recycling unit may contain
incidental contaminants (e.g., paper labels on plastic bottles, metal
rings on plastic bottle caps, etc.).
Potential hydrogen chloride emission concentration means the
hydrogen chloride emission concentration that would occur from
combustion of municipal solid waste in the absence of any emission
controls for municipal waste combustor acid gases.
Potential mercury emission concentration means the mercury emission
concentration that would occur from combustion of municipal solid waste
in the absence of any mercury emissions control.
Potential sulfur dioxide emissions means the sulfur dioxide
emission concentration that would occur from combustion of municipal
solid waste in the absence of any emission controls for municipal waste
combustor acid gases.
Pulverized coal/refuse-derived fuel mixed fuel-fired combustor
means a combustor that fires coal and refuse-derived fuel
simultaneously, in which pulverized coal is introduced into an air
stream that carries the coal to the combustion chamber of the unit
where it is fired in suspension. This includes both conventional
pulverized coal and micropulverized coal.
Pyrolysis/combustion unit means a unit that produces gases,
liquids, or solids through the heating of municipal solid waste, and
the gases, liquids, or solids produced are combusted and emissions
vented to the atmosphere.
Reconstruction means rebuilding a municipal waste combustor unit
for which the reconstruction commenced after June 19, 1996, and the
cumulative costs of the construction over the life of the unit exceed
50 percent of the original cost of construction and installation of the
unit (not including any cost of land purchased in connection with such
construction or installation) updated to current costs (current
dollars).
Refractory unit or refractory wall furnace means a combustion unit
having no energy recovery (e.g., via a waterwall) in the furnace (i.e.,
radiant heat transfer section) of the combustor.
Refuse-derived/fuel means a type of municipal solid waste produced
by processing municipal solid waste through shredding and size
classification. This includes all classes of refuse-derived fuel
including low-density fluff refuse-derived fuel through densified
refuse-derived fuel and pelletized refuse-derived fuel.
Refuse-derived fuel stoker means a steam generating unit that
combusts refuse-derived fuel in a semisuspension firing mode using air-
fed distributors.
Same location means the same or contiguous property that is under
common ownership or control including properties that are separated
only by a street, road, highway, or other public right-of-way. Common
ownership or control includes properties that are owned, leased, or
operated by the same entity, parent entity, subsidiary, subdivision, or
any combination thereof including any municipality or other
governmental unit, or any quasi-governmental authority (e.g., a public
utility district or regional waste disposal authority).
Second calendar half means the period starting July 1 and ending on
December 31 in any year.
Shift supervisor means the person who is in direct charge and
control of the operation of a municipal waste combustor and who is
responsible for onsite supervision, technical direction, management,
and overall performance of the facility during an assigned shift.
Small municipal waste combustor plant means a municipal waste
combustor plant with a municipal waste combustor plant capacity for
affected
[[Page 65423]]
facilities that is greater than 35 megagrams per day but equal to or
less than 225 megagrams per day of municipal solid waste.
Spreader stoker coal/refuse-derived fuel mixed fuel-fired combustor
means a combustor that fires coal and refuse-derived fuel
simultaneously, in which coal is introduced to the combustion zone by a
mechanism that throws the fuel onto a grate from above. Combustion
takes place both in suspension and on the grate.
Standard conditions means a temperature of 20 deg. C and a pressure
of 101.3 kilopascals.
Total mass dioxin/furan or total mass means the total mass of
tetra- through octa- chlorinated dibenzo-p-dioxins and dibenzofurans,
as determined using EPA Reference Method 23 and the procedures
specified under Sec. 60.58b(g).
Twenty-four hour daily average or 24-hour daily average means
either the arithmetic mean or geometric mean (as specified) of all
hourly emission concentrations when the affected facility is operating
and combusting municipal solid waste measured over a 24-hour period
between 12:00 midnight and the following midnight.
Untreated lumber means wood or wood products that have been cut or
shaped and include wet, air-dried, and kiln-dried wood products.
Untreated lumber does not include wood products that have been painted,
pigment-stained, or ``pressure-treated.'' Pressure-treating compounds
include, but are not limited to, chromate copper arsenate,
pentachlorophenol, and creosote.
Waterwall furnace means a combustion unit having energy (heat)
recovery in the furnace (i.e., radiant heat transfer section) of the
combustor.
Yard waste means grass, grass clippings, bushes, shrubs, and
clippings from bushes and shrubs that are generated by residential,
commercial/retail, institutional, and/or industrial sources as part of
maintenance activities associated with yards or other private or public
lands. Yard waste does not include construction, renovation, and
demolition wastes, which are exempt from the definition of municipal
solid waste in this section. Yard waste does not include clean wood,
which is exempt from the definition of municipal solid waste in this
section.
Sec. 60.52b Standards for municipal waste combustor metals, acid
gases, organics, and nitrogen oxides.
(a) The limits for municipal waste combustor metals are specified
in paragraphs (a)(1) through (a)(5) of this section.
(1) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from that affected facility any gases
that contain particulate matter in excess of 24 milligrams per dry
standard cubic meter, corrected to 7 percent oxygen.
(2) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from that affected facility any gases
that exhibit greater than 10 percent opacity (6-minute average).
(3) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from that affected facility any gases
that contain cadmium in excess of 0.020 milligrams per dry standard
cubic meter, corrected to 7 percent oxygen.
(4) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from the affected facility any gases
that contain lead in excess of 0.20 milligrams per dry standard cubic
meter, corrected to 7 percent oxygen.
(5) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from the affected facility any gases
that contain mercury in excess of 0.080 milligrams per dry standard
cubic meter or 15 percent of the potential mercury emission
concentration (85-percent reduction by weight), corrected to 7 percent
oxygen, whichever is less stringent.
(b) The limits for municipal waste combustor acid gases are
specified in paragraphs (b)(1) and (b)(2) of this section.
(1) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from that affected facility any gases
that contain sulfur dioxide in excess of 30 parts per million by volume
or 20 percent of the potential sulfur dioxide emission concentration
(80-percent reduction by weight or volume), corrected to 7 percent
oxygen (dry basis), whichever is less stringent. The averaging time is
specified under Sec. 60.58b(e).
(2) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from that affected facility any gases
that contain hydrogen chloride in excess of 25 parts per million by
volume or 5 percent of the potential hydrogen chloride emission
concentration (95-percent reduction by weight or volume), corrected to
7 percent oxygen (dry basis), whichever is less stringent.
(c) The limits for municipal waste combustor organics are specified
in paragraphs (c)(1) and (c)(2) of this section.
(1) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant for which
construction, modification, or reconstruction commences after September
20, 1994, but on or before November 20, 1997 shall cause to be
discharged into the atmosphere from that affected facility any gases
that contain dioxin/furan emissions that exceed 30 nanograms per dry
standard cubic meter (total mass), corrected to 7 percent oxygen, for
the first 3 years following the date of initial startup. After the
first 3 years following the date of initial startup, no owner or
operator shall cause to be discharged into the atmosphere from that
affected facility any gases that contain dioxin/furan total mass
emissions that exceed 13 nanograms per dry standard cubic meter (total
mass), corrected to 7 percent oxygen.
(2) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant for which
construction,
[[Page 65424]]
modification, or reconstruction commences after November 20, 1997 shall
cause to be discharged into the atmosphere from that affected facility
any gases that contain dioxin/furan total mass emissions that exceed 13
nanograms per dry standard cubic meter (total mass), corrected to 7
percent oxygen.
(d) The limits for nitrogen oxides are specified in paragraphs
(d)(1) and (d)(2) of this section.
(1) During the first year of operation after the date on which the
initial performance test is completed or is required to be completed
under Sec. 60.8 of subpart A of this part, no owner or operator of an
affected facility located within a large municipal waste combustor
plant shall cause to be discharged into the atmosphere from that
affected facility any gases that contain nitrogen oxides in excess of
180 parts per million by volume, corrected to 7 percent oxygen (dry
basis). The averaging time is specified under Sec. 60.58b(h).
(2) After the first year of operation following the date on which
the initial performance test is completed or is required to be
completed under Sec. 60.8 of subpart A of this part, no owner or
operator of an affected facility located within a large municipal waste
combustor plant shall cause to be discharged into the atmosphere from
that affected facility any gases that contain nitrogen oxides in excess
of 150 parts per million by volume, corrected to 7 percent oxygen (dry
basis). The averaging time is specified under Sec. 60.58b(h).
Sec. 60.53b Standards for municipal waste combustor operating
practices.
(a) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged into the atmosphere from that affected facility any gases
that contain carbon monoxide in excess of the emission limits specified
in table 1 of this subpart.
Table 1.--Municipal Waste Combustor Operating Standards
------------------------------------------------------------------------
Carbon monoxide
emission limit
Municipal waste combustor technology (parts per Averaging time
million by (hours)
volume) a
------------------------------------------------------------------------
Mass burn waterwall................. 100 4
Mass burn refractory................ 100 4
Mass burn rotary waterwall.......... 100 24
Modular starved air................. 50 4
Modular excess air.................. 50 4
Refuse-derived fuel stoker.......... 150 24
Bubbling fluidized bed combustor.... 100 4
Circulating fluidized bed combustor. 100 4
Pulverized coal/refuse-derived fuel
mixed fuel-fired combustor......... 150 4
Spreader stoker coal/refuse-derived
fuel mixed fuel-fired combustor.... 150 24
------------------------------------------------------------------------
a Measured at the combustor outlet in conjunction with a measurement of
oxygen concentration, corrected to 7 percent oxygen (dry basis). The
averaging times are specified in greater detail in Sec. 60.58b(i).
(b) No owner or operator of an affected facility located within a
small or large municipal waste combustor plant shall cause such
facility to operate at a load level greater than 110 percent of the
maximum demonstrated municipal waste combustor unit load as defined in
Sec. 60.51b, except as specified in paragraphs (b)(1) and (b)(2) of
this section. The averaging time is specified under Sec. 60.58b(i).
(1) During the annual dioxin/furan performance test and the 2 weeks
preceding the annual dioxin/furan performance test, no municipal waste
combustor unit load limit is applicable.
(2) The municipal waste combustor unit load limit may be waived in
accordance with permission granted by the Administrator or delegated
State regulatory authority for the purpose of evaluating system
performance, testing new technology or control technologies, diagnostic
testing, or related activities for the purpose of improving facility
performance or advancing the state-of-the-art for controlling facility
emissions.
(c) No owner or operator of an affected facility located within a
small or large municipal waste combustor plant shall cause such
facility to operate at a temperature, measured at the particulate
matter control device inlet, exceeding 17 deg.C above the maximum
demonstrated particulate matter control device temperature as defined
in Sec. 60.51b, except as specified in paragraphs (c)(1) and (c)(2) of
this section. The averaging time is specified under Sec. 60.58b(i). The
requirements specified in this paragraph apply to each particulate
matter control device utilized at the affected facility.
(1) During the annual dioxin/furan performance test and the 2 weeks
preceding the annual dioxin/furan performance test, no particulate
matter control device temperature limitations are applicable.
(2) The particulate matter control device temperature limits may be
waived in accordance with permission granted by the Administrator or
delegated State regulatory authority for the purpose of evaluating
system performance, testing new technology or control technologies,
diagnostic testing, or related activities for the purpose of improving
facility performance or advancing the state-of-the-art for controlling
facility emissions.
Sec. 60.54b Standards for municipal waste combustor operator training
and certification.
(a) No later than the date 6 months after the date of startup of an
affected facility located within a small or large municipal waste
combustor plant or on December 19, 1996, whichever is later, each chief
facility operator and shift supervisor shall obtain and maintain a
current provisional operator certification from either the American
Society of Mechanical Engineers [QRO-1-1994 (incorporated by
reference--see Sec. 60.17 of subpart A of this part)] or a State
certification program.
(b) Not later than the date 6 months after the date of startup of
an affected facility located within a small or large municipal waste
combustor plant or on December 19, 1996, whichever is later, each chief
facility operator and shift
[[Page 65425]]
supervisor shall have completed full certification or shall have
scheduled a full certification exam with either the American Society of
Mechanical Engineers [QRO-1-1994 (incorporated by reference--see
Sec. 60.17 of subpart A of this part)] or a State certification
program.
(c) No owner or operator of an affected facility located within a
small or large municipal waste combustor plant shall allow the facility
to be operated at any time unless one of the following persons is on
duty and at the affected facility: A fully certified chief facility
operator, a provisionally certified chief facility operator who is
scheduled to take the full certification exam according to the schedule
specified in paragraph (b) of this section, a fully certified shift
supervisor, or a provisionally certified shift supervisor who is
scheduled to take the full certification exam according to the schedule
specified in paragraph (b) of this section.
(i) The requirement specified in paragraph (c) of this section
shall take effect 6 months after the date of startup of the affected
facility or on December 19, 1996, whichever is later.
(ii) If one of the persons listed in paragraph (c) of this section
must leave the affected facility during their operating shift, a
provisionally certified control room operator who is onsite at the
affected facility may fulfill the requirement in paragraph (c) of this
section.
(d) All chief facility operators, shift supervisors, and control
room operators at affected facilities located within a small or large
municipal waste combustor plant must complete the EPA or State
municipal waste combustor operator training course no later than the
date 6 months after the date of startup of the affected facility or by
December 19, 1996, whichever is later.
(e) The owner or operator of an affected facility located within a
small or large municipal waste combustor plant shall develop and update
on a yearly basis a site-specific operating manual that shall, at a
minimum, address the elements of municipal waste combustor unit
operation specified in paragraphs (e)(1) through (e)(11) of this
section.
(1) A summary of the applicable standards under this subpart;
(2) A description of basic combustion theory applicable to a
municipal waste combustor unit;
(3) Procedures for receiving, handling, and feeding municipal solid
waste;
(4) Municipal waste combustor unit startup, shutdown, and
malfunction procedures;
(5) Procedures for maintaining proper combustion air supply levels;
(6) Procedures for operating the municipal waste combustor unit
within the standards established under this subpart;
(7) Procedures for responding to periodic upset or off-
specification conditions;
(8) Procedures for minimizing particulate matter carryover;
(9) Procedures for handling ash;
(10) Procedures for monitoring municipal waste combustor unit
emissions; and
(11) Reporting and recordkeeping procedures.
(f) The owner or operator of an affected facility located within a
small or large municipal waste combustor plant shall establish a
training program to review the operating manual according to the
schedule specified in paragraphs (f)(1) and (f)(2) of this section with
each person who has responsibilities affecting the operation of an
affected facility including, but not limited to, chief facility
operators, shift supervisors, control room operators, ash handlers,
maintenance personnel, and crane/load handlers.
(1) Each person specified in paragraph (f) of this section shall
undergo initial training no later than the date specified in paragraph
(f)(1)(i), (f)(1)(ii), or (f)(1)(iii) of this section whichever is
later.
(i) The date 6 months after the date of startup of the affected
facility;
(ii) The date prior to the day the person assumes responsibilities
affecting municipal waste combustor unit operation; or
(iii) December 19, 1996.
(2) Annually, following the initial review required by paragraph
(f)(1) of this section.
(g) The operating manual required by paragraph (e) of this section
shall be kept in a readily accessible location for all persons required
to undergo training under paragraph (f) of this section. The operating
manual and records of training shall be available for inspection by the
EPA or its delegated enforcement agency upon request.
Sec. 60.55b Standards for municipal waste combustor fugitive ash
emissions.
(a) On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, no owner or operator of an affected facility located
within a small or large municipal waste combustor plant shall cause to
be discharged to the atmosphere visible emissions of combustion ash
from an ash conveying system (including conveyor transfer points) in
excess of 5 percent of the observation period (i.e., 9 minutes per 3-
hour period), as determined by EPA Reference Method 22 observations as
specified in Sec. 60.58b(k), except as provided in paragraphs (b) and
(c) of this section.
(b) The emission limit specified in paragraph (a) of this section
does not cover visible emissions discharged inside buildings or
enclosures of ash conveying systems; however, the emission limit
specified in paragraph (a) of this section does cover visible emissions
discharged to the atmosphere from buildings or enclosures of ash
conveying systems.
(c) The provisions specified in paragraph (a) of this section do
not apply during maintenance and repair of ash conveying systems.
Sec. 60.56b Standards for air curtain incinerators.
On and after the date on which the initial performance test is
completed or is required to be completed under Sec. 60.8 of subpart A
of this part, the owner or operator of an air curtain incinerator
located at a plant with a plant capacity to combust greater than 35
megagrams per day of municipal solid waste and that combusts a fuel
feed stream composed of 100 percent yard waste and no other municipal
solid waste materials shall at no time cause to be discharged into the
atmosphere from that incinerator any gases that exhibit greater than
10-percent opacity (6-minute average), except that an opacity level of
up to 35 percent (6-minute average) is permitted during startup periods
during the first 30 minutes of operation of the unit.
Sec. 60.57b Siting requirements.
(a) The owner or operator of an affected facility located within a
small or large municipal waste combustor plant, for which the initial
application for a construction permit under 40 CFR part 51, subpart I,
or part 52, as applicable, is submitted after December 19, 1995, shall
prepare a materials separation plan, as defined in Sec. 60.51b, for the
affected facility and its service area, and shall comply with the
requirements specified in paragraphs (a)(1) through (a)(10) of this
section. The initial application is defined as representing a good
faith submittal for complying with the requirements under 40 CFR part
51, subpart I, or part 52, as applicable, as determined by the
Administrator.
(1) The owner or operator shall prepare a preliminary draft
materials separation plan and shall make the plan available to the
public as specified in
[[Page 65426]]
paragraphs (a)(1)(i) and (a)(1)(ii) of this section.
(i) The owner or operator shall distribute the preliminary draft
materials separation plan to the principal public libraries in the area
where the affected facility is to be constructed.
(ii) The owner or operator shall publish a notification of a public
meeting in the principal newspaper(s) serving the area where the
affected facility is to be constructed and where the waste treated by
the affected facility will primarily be collected. As a minimum, the
notification shall include the information specified in paragraphs
(a)(1)(ii)(A) through (a)(1)(ii)(D) of this section.
(A) The date, time, and location of the public meeting.
(B) The location of the public libraries where the preliminary
draft materials separation plan may be found, including normal business
hours of the libraries.
(C) An agenda of the issues to be discussed at the public meeting.
(D) The dates that the public comment period on the preliminary
draft materials separation plan begins and ends.
(2) The owner or operator shall conduct a public meeting, accept
comments on the preliminary draft materials separation plan, and comply
with the requirements specified in paragraphs (a)(2)(i) through
(a)(2)(iv) of this section.
(i) The public meeting shall be conducted in the county where the
affected facility is to be located.
(ii) The public meeting shall be scheduled to occur 30 days or more
after making the preliminary draft materials separation plan available
to the public as specified under paragraph (a)(1) of this section.
(iii) Suggested issues to be addressed at the public meeting are
listed in paragraphs (a)(2)(iii)(A) through (a)(2)(iii)(H) of this
section.
(A) The expected size of the service area for the affected
facility.
(B) The amount of waste generation anticipated for the service
area.
(C) The types and estimated amounts of materials proposed for
separation.
(D) The methods proposed for materials separation.
(E) The amount of residual waste to be disposed.
(F) Alternate disposal methods for handling the residual waste.
(G) Identification of the location(s) where responses to public
comment on the preliminary draft materials separation plan will be
available for inspection, as specified in paragraphs (a)(3) and (a)(4)
of this section.
(H) Identification of the locations where the final draft materials
separation plan will be available for inspection, as specified in
paragraph (a)(7).
(iv) Nothing in this section shall preclude an owner or operator
from combining this public meeting with any other public meeting
required as part of any other Federal, State, or local permit review
process except the public meeting required under paragraph (b)(4) of
this section.
(3) Following the public meeting required by paragraph (a)(2) of
this section, the owner or operator shall prepare responses to the
comments received at the public meeting.
(4) The owner or operator shall make the document summarizing
responses to public comments available to the public (including
distribution to the principal public libraries used to announce the
meeting) in the service area where the affected facility is to be
located.
(5) The owner or operator shall prepare a final draft materials
separation plan for the affected facility considering the public
comments received at the public meeting.
(6) As required under Sec. 60.59b(a), the owner or operator shall
submit to the Administrator a copy of the notification of the public
meeting, a transcript of the public meeting, the document summarizing
responses to public comments, and copies of both the preliminary and
final draft materials separation plans on or before the time the
facility's application for a construction permit is submitted under 40
CFR part 51, subpart I, or part 52, as applicable.
(7) As part of the distribution of the siting analysis required
under paragraph (b)(3) of this section, the owner or operator shall
make the final draft materials separation plan required under paragraph
(a)(5) of this section available to the public, as specified in
paragraph (b)(3) of this section.
(8) As part of the public meeting for review of the siting analysis
required under paragraph (b)(4) of this section, the owner or operator
shall address questions concerning the final draft materials separation
plan required by paragraph (a)(5) of this section including discussion
of how the final draft materials separation plan has changed from the
preliminary draft materials separation plan that was discussed at the
first public meeting required by paragraph (a)(2) of this section.
(9) If the owner or operator receives any comments on the final
draft materials separation plan during the public meeting required in
paragraph (b)(4) of this section, the owner or operator shall respond
to those comments in the document prepared in accordance with paragraph
(b)(5) of this section.
(10) The owner or operator shall prepare a final materials
separation plan and shall submit, as required under
Sec. 60.59b(b)(5)(ii), the final materials separation plan as part of
the initial notification of construction.
(b) The owner or operator of an affected facility located within a
small or large municipal waste combustor plant, for which the initial
application for a construction permit under 40 CFR part 51, subpart I,
or part 52, as applicable, is submitted after December 19, 1995 shall
prepare a siting analysis in accordance with paragraphs (b)(1) and
(b)(2) of this section and shall comply with the requirements specified
in paragraphs (b)(3) through (b)(7) of this section.
(1) The siting analysis shall be an analysis of the impact of the
affected facility on ambient air quality, visibility, soils, and
vegetation.
(2) The analysis shall consider air pollution control alternatives
that minimize, on a site-specific basis, to the maximum extent
practicable, potential risks to the public health or the environment.
(3) The owner or operator shall make the siting analysis and final
draft materials separation plan required by paragraph (a)(5) of this
section available to the public as specified in paragraphs (b)(3)(i)
and (b)(3)(ii) of this section.
(i) The owner or operator shall distribute the siting analysis and
final draft materials separation plan to the principal public libraries
in the area where the affected facility is to be constructed.
(ii) The owner or operator shall publish a notification of a public
meeting in the principal newspaper(s) serving the area where the
affected facility is to be constructed and where the waste treated by
the affected facility will primarily be collected. As a minimum, the
notification shall include the information specified in paragraphs
(b)(3)(ii)(A) through (b)(3)(ii)(D) of this section.
(A) The date, time, and location of the public meeting.
(B) The location of the public libraries where the siting analyses
and final draft materials separation plan may be found, including
normal business hours.
(C) An agenda of the issues to be discussed at the public meeting.
(D) The dates that the public comment period on the siting analyses
and final draft materials separation plan begins and ends.
[[Page 65427]]
(4) The owner or operator shall conduct a public meeting and accept
comments on the siting analysis and the final draft materials
separation plan required under paragraph (a)(5) of this section. The
public meeting shall be conducted in the county where the affected
facility is to be located and shall be scheduled to occur 30 days or
more after making the siting analysis available to the public as
specified under paragraph (b)(3) of this section.
(5) The owner or operator shall prepare responses to the comments
on the siting analysis and the final draft materials separation plan
that are received at the public meeting.
(6) The owner or operator shall make the document summarizing
responses to public comments available to the public (including
distribution to all public libraries) in the service area where the
affected facility is to be located.
(7) As required under Sec. 60.59b(b)(5), the owner or operator
shall submit a copy of the notification of the public meeting, a
transcript of the public meeting, the document summarizing responses to
public comments, and the siting analysis as part of the initial
notification of construction.
(c) The owner or operator of an affected facility located within a
small or large municipal waste combustor plant, for which construction
is commenced after September 20, 1994 shall prepare a siting analysis
in accordance with 40 CFR part 51, Subpart I, or part 52, as
applicable, and shall submit the siting analysis as part of the initial
notification of construction. Affected facilities subject to paragraphs
(a) and (b) of this section are not subject to this paragraph.
Sec. 60.58b Compliance and performance testing.
(a) The provisions for startup, shutdown, and malfunction are
provided in paragraphs (a)(1) and (a)(2) of this section.
(1) Except as provided by Sec. 60.56b, the standards under this
subpart apply at all times except during periods of startup, shutdown,
or malfunction. Duration of startup, shutdown, or malfunction periods
are limited to 3 hours per occurrence.
(i) The startup period commences when the affected facility begins
the continuous burning of municipal solid waste and does not include
any warmup period when the affected facility is combusting fossil fuel
or other nonmunicipal solid waste fuel, and no municipal solid waste is
being fed to the combustor.
(ii) Continuous burning is the continuous, semicontinuous, or batch
feeding of municipal solid waste for purposes of waste disposal, energy
production, or providing heat to the combustion system in preparation
for waste disposal or energy production. The use of municipal solid
waste solely to provide thermal protection of the grate or hearth
during the startup period when municipal solid waste is not being fed
to the grate is not considered to be continuous burning.
(2) The opacity limits for air curtain incinerators specified in
Sec. 60.56b apply at all times as specified under Sec. 60.56b except
during periods of malfunction. Duration of malfunction periods are
limited to 3 hours per occurrence.
(b) The owner or operator of a small or large municipal waste
combustor plant shall install, calibrate, maintain, and operate a
continuous emission monitoring system and record the output of the
system for measuring the oxygen or carbon dioxide content of the flue
gas at each location where carbon monoxide, sulfur dioxide, or nitrogen
oxides emissions are monitored and shall comply with the test
procedures and test methods specified in paragraphs (b)(1) through
(b)(7) of this section.
(1) The span value of the oxygen (or carbon dioxide) monitor shall
be 25 percent oxygen (or carbon dioxide).
(2) The monitor shall be installed, evaluated, and operated in
accordance with Sec. 60.13 of subpart A of this part.
(3) The initial performance evaluation shall be completed no later
than 180 days after the date of initial startup of the municipal waste
combustor, as specified under Sec. 60.8 of subpart A of this part.
(4) The monitor shall conform to Performance Specification 3 in
appendix B of this part except for section 2.3 (relative accuracy
requirement).
(5) The quality assurance procedures of appendix F of this part
except for section 5.1.1 (relative accuracy test audit) shall apply to
the monitor.
(6) If carbon dioxide is selected for use in diluent corrections,
the relationship between oxygen and carbon dioxide levels shall be
established during the initial performance test according to the
procedures and methods specified in paragraphs (b)(6)(i) through
(b)(6)(iv) of this section. This relationship may be reestablished
during performance compliance tests.
(i) The emission rate correction factor and the integrated bag
sampling and analysis procedure of EPA Reference Method 3B shall be
used to determine the oxygen concentration at the same location as the
carbon dioxide monitor.
(ii) Samples shall be taken for at least 30 minutes in each hour.
(iii) Each sample shall represent a 1-hour average.
(iv) A minimum of three runs shall be performed.
(7) As required by Sec. 60.59b(f)(5), the relationship between
carbon dioxide and oxygen concentrations that is established in
accordance with paragraph (b)(6) of this section shall be submitted to
the EPA as part of the initial performance test report.
(c) The procedures and test methods specified in paragraphs (c)(1)
through (c)(11) of this section shall be used to determine compliance
with the emission limits for particulate matter and opacity under
Sec. 60.52b(a)(1) and (a)(2).
(1) The EPA Reference Method 1 shall be used to select sampling
site and number of traverse points.
(2) The EPA Reference Method 3 shall be used for gas analysis.
(3) The EPA Reference Method 5 shall be used for determining
compliance with the particulate matter emission limit. The minimum
sample volume shall be 1.7 cubic meters. The probe and filter holder
heating systems in the sample train shall be set to provide a gas
temperature no greater than 160plus-minus14 deg.C. An oxygen or
carbon dioxide measurement shall be obtained simultaneously with each
Method 5 run.
(4) An owner or operator may request that compliance with the
particulate matter emission limit be determined using carbon dioxide
measurements corrected to an equivalent of 7 percent oxygen. The
relationship between oxygen and carbon dioxide levels for the affected
facility shall be established as specified in paragraph (b)(6) of this
section.
(5) As specified under Sec. 60.8 of subpart A of this part, all
performance tests shall consist of three test runs. The average of the
particulate matter emission concentrations from the three test runs is
used to determine compliance.
(6) In accordance with paragraphs (c)(7) and (c)(11) of this
section, EPA Reference Method 9 shall be used for determining
compliance with the opacity limit except as provided under
Sec. 60.11(e) of subpart A of this part.
(7) The owner or operator of an affected facility located within a
small or large municipal waste combustor plant shall conduct an initial
performance test for particulate matter emissions and opacity as
required under Sec. 60.8 of subpart A of this part.
(8) The owner or operator of an affected facility shall install,
calibrate, maintain, and operate a continuous
[[Page 65428]]
opacity monitoring system for measuring opacity and shall follow the
methods and procedures specified in paragraphs (c)(8)(i) through
(c)(8)(iv) of this section.
(i) The output of the continuous opacity monitoring system shall be
recorded on a 6-minute average basis.
(ii) The continuous opacity monitoring system shall be installed,
evaluated, and operated in accordance with Sec. 60.13 of subpart A of
this part.
(iii) The continuous opacity monitoring system shall conform to
Performance Specification 1 in appendix B of this part.
(iv) The initial performance evaluation shall be completed no later
than 180 days after the date of the initial startup of the municipal
waste combustor unit, as specified under Sec. 60.8 of subpart A of this
part.
(9) Following the date that the initial performance test for
particulate matter is completed or is required to be completed under
Sec. 60.8 of subpart A of this part for an affected facility located
within a large municipal waste combustor plant, the owner or operator
shall conduct a performance test for particulate matter on an annual
basis (no more than 12 calendar months following the previous
performance test).
(10) Following the date that the initial performance test for
particulate matter is completed or is required to be completed under
Sec. 60.8 of subpart A of this part for an affected facility located
within a small municipal waste combustor plant, the owner or operator
shall conduct a performance test for particulate matter on an annual
basis (no more than 12 calendar months following the previous
performance test). If all performance tests over a 3-year period
indicate compliance with the particulate matter emission limit, the
owner or operator may elect not to conduct a performance test for the
subsequent 2 years. At a minimum, a performance test for particulate
matter shall be conducted every third year (no more than 36 months
following the previous performance test) at a small municipal waste
combustor plant. If a performance test conducted every third year
indicates compliance with the particulate matter emission limit, the
owner or operator may elect not to conduct a performance test for an
additional 2 years. If any performance test indicates noncompliance
with the particulate matter emission limit, performance tests shall be
required annually until all annual performance tests over a 3-year
period indicate compliance with the particulate matter emission limit.
(11) Following the date that the initial performance test for
opacity is completed or is required to be completed under Sec. 60.8 of
subpart A of this part for an affected facility located within a small
or large municipal waste combustor plant, the owner or operator shall
conduct a performance test for opacity on an annual basis (no more than
12 calendar months following the previous performance test) using the
test method specified in paragraph (c)(6) of this section.
(d) The procedures and test methods specified in paragraphs (d)(1)
and (d)(2) of this section shall be used to determine compliance with
the emission limits for cadmium, lead, and mercury under
Sec. 60.52b(a).
(1) The procedures and test methods specified in paragraphs
(d)(1)(i) through (d)(1)(ix) of this section shall be used to determine
compliance with the emission limits for cadmium and lead under
Sec. 60.52b(a) (3) and (4).
(i) The EPA Reference Method 1 shall be used for determining the
location and number of sampling points.
(ii) The EPA Reference Method 3 shall be used for flue gas
analysis.
(iii) The EPA Reference Method 29 shall be used for determining
compliance with the cadmium and lead emission limits.
(iv) An oxygen or carbon dioxide measurement shall be obtained
simultaneously with each Method 29 test run for cadmium and lead
required under paragraph (d)(1)(iii) of this section.
(v) An owner or operator may request that compliance with the
cadmium or lead emission limit be determined using carbon dioxide
measurements corrected to an equivalent of 7 percent oxygen. The
relationship between oxygen and carbon dioxide levels for the affected
facility shall be established as specified in paragraph (b)(6) of this
section.
(vi) All performance tests shall consist of a minimum of three test
runs conducted under representative full load operating conditions. The
average of the cadmium or lead emission concentrations from three test
runs or more shall be used to determine compliance.
(vii) Following the date of the initial performance test or the
date on which the initial performance test is required to be completed
under Sec. 60.8 of subpart A of this part, the owner or operator of an
affected facility located within a large municipal waste combustor
plant shall conduct a performance test for compliance with the emission
limits for cadmium and lead on an annual basis (no more than 12
calendar months following the previous performance test).
(viii) Following the date that the initial performance test for
cadmium is completed or is required to be completed under Sec. 60.8 of
subpart A of this part for an affected facility located within a small
municipal waste combustor plant, the owner or operator shall conduct a
performance test for cadmium emissions on an annual basis (no more than
12 calendar months following the previous performance test). If all
performance tests over a 3-year period indicate compliance with the
cadmium emission limit, the owner or operator may elect not to conduct
a performance test for the subsequent 2 years. At a minimum, a
performance test for cadmium shall be conducted every third year (no
more than 36 months following the previous performance test) at a small
municipal waste combustor plant. If a performance test conducted every
third year indicates compliance with the cadmium emission limit, the
owner or operator may elect not to conduct a performance test for an
additional 2 years. If any performance test indicates noncompliance
with the cadmium emission limit, performance tests shall be conducted
annually until all annual performance tests over a 3-year period
indicate compliance with the cadmium emission limit.
(ix) Following the date that the initial performance test for lead
is completed or is required to be completed under Sec. 60.8 of subpart
A of this part for an affected facility located within a small
municipal waste combustor plant, the owner or operator shall conduct a
performance test for lead emissions on an annual basis (no more than 12
calendar months following the previous performance test). If all three
performance tests over a 3-year period indicate compliance with the
lead emission limit, the owner or operator may elect not to conduct a
performance test for the subsequent 2 years. At a minimum, a
performance test for lead shall be conducted every third year (no more
than 36 months following the previous performance test) at a small
municipal waste combustor plant. If a performance test conducted every
third year indicates compliance with the lead emission limit, the owner
or operator may elect not to conduct a performance test for an
additional 2 years. If any performance test indicates noncompliance
with the lead emission limit, performance tests shall be conducted
annually until all annual performance tests over a 3-year period
indicate compliance with the lead emission limit.
[[Page 65429]]
(2) The procedures and test methods specified in paragraphs
(d)(2)(i) through (d)(2)(xi) of this section shall be used to determine
compliance with the mercury emission limit under Sec. 60.52b(a)(5).
(i) The EPA Reference Method 1 shall be used for determining the
location and number of sampling points.
(ii) The EPA Reference Method 3 shall be used for flue gas
analysis.
(iii) The EPA Reference Method 29 shall be used to determine the
mercury emission concentration. The minimum sample volume when using
Method 29 for mercury shall be 1.7 cubic meters.
(iv) An oxygen (or carbon dioxide) measurement shall be obtained
simultaneously with each Method 29 test run for mercury required under
paragraph (d)(2)(iii) of this section.
(v) The percent reduction in the potential mercury emissions (%PHg)
is computed using equation 1:
[GRAPHIC][TIFF OMITTED]TR19DE95.001
where:
%PHg = percent reduction of the potential mercury emissions
achieved.
Ei = potential mercury emission concentration measured at the
control device inlet, corrected to 7 percent oxygen (dry basis).
Eo = controlled mercury emission concentration measured at the
mercury control device outlet, corrected to 7 percent oxygen (dry
basis).
(vi) All performance tests shall consist of a minimum of three test
runs conducted under representative full load operating conditions. The
average of the mercury emission concentrations or percent reductions
from three test runs or more is used to determine compliance.
(vii) An owner or operator may request that compliance with the
mercury emission limit be determined using carbon dioxide measurements
corrected to an equivalent of 7 percent oxygen. The relationship
between oxygen and carbon dioxide levels for the affected facility
shall be established as specified in paragraph (b)(6) of this section.
(viii) The owner or operator of an affected facility located within
a small or large municipal waste combustor plant shall conduct an
initial performance test for mercury emissions as required under
Sec. 60.8 of subpart A of this part.
(ix) Following the date that the initial performance test for
mercury is completed or is required to be completed under Sec. 60.8 of
subpart A of this part, the owner or operator of an affected facility
located within a large municipal waste combustor plant shall conduct a
performance test for mercury emissions on a annual basis (no more than
12 calendar months from the previous performance test).
(x) Following the date that the initial performance test for
mercury is completed or is required to be completed under Sec. 60.8 of
subpart A of this part for an affected facility located within a small
municipal waste combustor plant, the owner or operator shall conduct a
performance test for mercury emissions on an annual basis (no more than
12 calendar months following the previous performance test). If all
three performance tests over a 3-year period indicate compliance with
the mercury emission limit, the owner or operator may elect not to
conduct a performance test for the subsequent 2 years. At a minimum, a
performance test for mercury shall be conducted every third year (no
more than 36 months following the previous performance test) at a small
municipal waste combustor plant. If a performance test conducted every
third year indicates compliance with the mercury emission limit, the
owner or operator may elect not to conduct a performance test for an
additional 2 years. If any performance test indicates noncompliance
with the mercury emission limit, performance tests shall be conducted
annually until all annual performance tests over a 3-year period
indicate compliance with the mercury emission limit.
(xi) The owner or operator of an affected facility where activated
carbon injection is used to comply with the mercury emission limit
shall follow the procedures specified in paragraph (m) of this section
for measuring and calculating carbon usage.
(e) The procedures and test methods specified in paragraphs (e)(1)
through (e)(14) of this section shall be used for determining
compliance with the sulfur dioxide emission limit under
Sec. 60.52b(b)(1).
(1) The EPA Reference Method 19, section 4.3, shall be used to
calculate the daily geometric average sulfur dioxide emission
concentration.
(2) The EPA Reference Method 19, section 5.4, shall be used to
determine the daily geometric average percent reduction in the
potential sulfur dioxide emission concentration.
(3) An owner or operator may request that compliance with the
sulfur dioxide emission limit be determined using carbon dioxide
measurements corrected to an equivalent of 7 percent oxygen. The
relationship between oxygen and carbon dioxide levels for the affected
facility shall be established as specified in paragraph (b)(6) of this
section.
(4) The owner or operator of an affected facility shall conduct an
initial performance test for sulfur dioxide emissions as required under
Sec. 60.8 of subpart A of this part. Compliance with the sulfur dioxide
emission limit (concentration or percent reduction) shall be determined
by using the continuous emission monitoring system specified in
paragraph (e)(5) of this section to measure sulfur dioxide and
calculating a 24-hour daily geometric average emission concentration or
a 24-hour daily geometric average percent reduction using EPA Reference
Method 19, sections 4.3 and 5.4, as applicable.
(5) The owner or operator of an affected facility shall install,
calibrate, maintain, and operate a continuous emission monitoring
system for measuring sulfur dioxide emissions discharged to the
atmosphere and record the output of the system.
(6) Following the date that the initial performance test for sulfur
dioxide is completed or is required to be completed under Sec. 60.8 of
subpart A of this part, compliance with the sulfur dioxide emission
limit shall be determined based on the 24-hour daily geometric average
of the hourly arithmetic average emission concentrations using
continuous emission monitoring system outlet data if compliance is
based on an emission concentration, or continuous emission monitoring
system inlet and outlet data if compliance is based on a percent
reduction.
(7) At a minimum, valid continuous monitoring system hourly
averages shall be obtained as specified in paragraphs (e)(7)(i) and
(e)(7)(ii) for 75 percent of the operating hours per day for 90 percent
of the operating days per calendar quarter that the affected facility
is combusting municipal solid waste.
(i) At least two data points per hour shall be used to calculate
each 1-hour arithmetic average.
(ii) Each sulfur dioxide 1-hour arithmetic average shall be
corrected to 7 percent oxygen on an hourly basis using the 1-hour
arithmetic average of the oxygen (or carbon dioxide) continuous
emission monitoring system data.
(8) The 1-hour arithmetic averages required under paragraph (e)(6)
of this section shall be expressed in parts per million corrected to 7
percent oxygen (dry basis) and used to calculate the 24-hour daily
geometric average emission concentrations and daily geometric average
emission percent reductions. The 1-hour arithmetic averages shall be
calculated using the data points
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required under Sec. 60.13(e)(2) of subpart A of this part.
(9) All valid continuous emission monitoring system data shall be
used in calculating average emission concentrations and percent
reductions even if the minimum continuous emission monitoring system
data requirements of paragraph (e)(7) of this section are not met.
(10) The procedures under Sec. 60.13 of subpart A of this part
shall be followed for installation, evaluation, and operation of the
continuous emission monitoring system.
(11) The initial performance evaluation shall be completed no later
than 180 days after the date of initial startup of the municipal waste
combustor as specified under Sec. 60.8 of subpart A of this part.
(12) The continuous emission monitoring system shall be operated
according to Performance Specification 2 in appendix B of this part.
(i) During each relative accuracy test run of the continuous
emission monitoring system required by Performance Specification 2 in
appendix B of this part, sulfur dioxide and oxygen (or carbon dioxide)
data shall be collected concurrently (or within a 30- to 60-minute
period) by both the continuous emission monitors and the test methods
specified in paragraphs (e)(12)(i)(A) and (e)(12)(i)(B) of this
section.
(A) For sulfur dioxide, EPA Reference Method 6, 6A, or 6C shall be
used.
(B) For oxygen (or carbon dioxide), EPA Reference Method 3A or 3B
shall be used.
(ii) The span value of the continuous emissions monitoring system
at the inlet to the sulfur dioxide control device shall be 125 percent
of the maximum estimated hourly potential sulfur dioxide emissions of
the municipal waste combustor unit. The span value of the continuous
emission monitoring system at the outlet of the sulfur dioxide control
device shall be 50 percent of the maximum estimated hourly potential
sulfur dioxide emissions of the municipal waste combustor unit.
(13) Quarterly accuracy determinations and daily calibration drift
tests shall be performed in accordance with procedure 1 in appendix F
of this part.
(14) When sulfur dioxide emissions data are not obtained because of
continuous emission monitoring system breakdowns, repairs, calibration
checks, and zero and span adjustments, emissions data shall be obtained
by using other monitoring systems as approved by the Administrator or
EPA Reference Method 19 to provide, as necessary, valid emissions data
for a minimum of 75 percent of the hours per day that the affected
facility is operated and combusting municipal solid waste for 90
percent of the days per calendar quarter that the affected facility is
operated and combusting municipal solid waste.
(f) The procedures and test methods specified in paragraphs (f)(1)
through (f)(8) of this section shall be used for determining compliance
with the hydrogen chloride emission limit under Sec. 60.52b(b)(2).
(1) The EPA Reference Method 26 or 26A, as applicable, shall be
used to determine the hydrogen chloride emission concentration. The
minimum sampling time for Method 26 shall be 1 hour.
(2) An oxygen (or carbon dioxide) measurement shall be obtained
simultaneously with each Method 26 test run for hydrogen chloride
required by paragraph (f)(1) of this section.
(3) The percent reduction in potential hydrogen chloride emissions
(% P