AGENCY:

Pipeline and Hazardous Materials Safety Administration (PHMSA), Department of Transportation (DOT).

ACTION:

Final rule.

SUMMARY:

PHMSA is issuing a final rule to amend the Hazardous Materials Regulations (HMR) to maintain consistency with international regulations and standards by incorporating various amendments, including changes to proper shipping names, hazard classes, packing groups, special provisions, packaging authorizations, air transport quantity limitations, and vessel stowage requirements. These revisions are necessary to harmonize the HMR with recent changes made to the International Maritime Dangerous Goods Code, the International Civil Aviation Organization's Technical Instructions for the Safe Transport of Dangerous Goods by Air, and the United Nations Recommendations on the Transport of Dangerous Goods—Model Regulations. Additionally, PHMSA is adopting several amendments to the HMR that result from coordination with Canada under the U.S.-Canada Regulatory Cooperation Council.

DATES:

Effective date: This rule is effective March 30, 2017, except for instruction 22, which is effective January 2, 2019.

Voluntary compliance date: January 1, 2017.

Delayed compliance date: Unless otherwise specified, compliance with the amendments adopted in this final rule is required beginning January 1, 2018.

Incorporation by reference date: The incorporation by reference of certain publications listed in this rule is approved by the Director of the Federal Register as of March 30, 2017.

FOR FURTHER INFORMATION CONTACT:

Steven Webb International Standards, (202) 366-8553, Pipeline and Hazardous Materials Safety Administration, U.S. Department of Transportation, 1200 New Jersey Avenue SE., 2nd Floor, Washington, DC 20590-0001.

SUPPLEMENTARY INFORMATION:

Table of Contents

I. Executive Summary

II. Background

III. Incorporation by Reference Discussion Under 1 CFR Part 51

IV. Comment Discussion

V. Section-by-Section Review

VI. Regulatory Analyses and Notices

A. Statutory/Legal Authority for This Rulemaking

B. Executive Order 12866, Executive Order 13563, and DOT Regulatory Policies and Procedures

C. Executive Order 13132

D. Executive Order 13175

E. Regulatory Flexibility Act, Executive Order 13272, and DOT Policies and Procedures

F. Paperwork Reduction Act

G. Regulation Identifier Number (RIN)

H. Unfunded Mandates Reform Act of 1995

I. Environmental Assessment

J. Privacy Act

K. Executive Order 13609 and International Trade Analysis

L. National Technology Transfer and Advancement Act

List of Subjects

I. Executive Summary

The Pipeline and Hazardous Materials Safety Administration (PHMSA) is amending the Hazardous Materials Regulations (HMR; 49 CFR parts 171 to 180) to maintain consistency with international regulations and standards by incorporating various amendments, including changes to proper shipping names, hazard classes, packing groups, special provisions, packaging authorizations, air transport quantity limitations, and vessel stowage requirements. This rulemaking project is part of our ongoing biennial process to harmonize the HMR with international regulations and standards.

Federal law and policy strongly favor the harmonization of domestic and international standards for hazardous materials transportation. The Federal hazardous materials transportation law (Federal hazmat law; 49 U.S.C. 5101 et seq.) directs PHMSA to participate in relevant international standard-setting bodies and promotes consistency of the HMR with international transport standards to the extent practicable. Federal hazmat law permits PHMSA to depart from international standards where appropriate, including to promote safety or other overriding public interest. However, Federal hazmat law otherwise encourages domestic and international harmonization (see 49 U.S.C. 5120).

Harmonization facilitates international trade by minimizing the costs and other burdens of complying with multiple or inconsistent safety requirements for transportation of hazardous materials. Safety is enhanced by creating a uniform framework for compliance, and as the volume of hazardous materials transported in international commerce continues to grow, harmonization becomes increasingly important.

II. Background

PHMSA published a notice of proposed rulemaking (NPRM) under Docket HM-215N [81 FR 61741 (Sept. 7, 2016)] to incorporate various amendments to harmonize the HMR with recent changes to the International Maritime Dangerous Goods Code (IMDG Code), the International Civil Aviation Organization's Technical Instructions for the Safe Transport of Dangerous Goods by Air (ICAO Technical Instructions), and the United Nations Recommendations on the Transport of Dangerous Goods—Model Regulations (UN Model Regulations). When considering alignment of the HMR with international standards, we review and evaluate each amendment on its own merit, on the basis of its overall impact on transportation safety, and on the basis of the economic implications associated with its adoption into the HMR. Our goal is to harmonize without diminishing the level of safety currently provided by the HMR or imposing undue burdens on the regulated community. Based on this review and evaluation, in this final rule, PHMSA is amending the HMR to incorporate changes from the 19th Revised Edition of the UN Model Regulations, Amendment 38-16 of the IMDG Code, and the 2017-2018 ICAO Technical Instructions, which become effective January 1, 2017. (Amendment 38-16 to the IMDG Code may be voluntarily applied on January 1, 2017; however, the previous amendment remains effective through December 31, 2017) Notable amendments to the HMR in this final rule include the following:

• Incorporation by Reference: PHMSA incorporates by reference the newest versions of various international hazardous materials standards, including the 2017-2018 Edition of the ICAO Technical Instructions; Amendment 38-16 of the IMDG Code; the 19th Revised Edition of the UN Model Regulations; the 6th Revised Edition of the UN Manual of Tests and Criteria; and the 6th Revised Edition of the Globally Harmonized System of Classification and Labelling of Chemicals. Additionally, we are updating our incorporation by reference of the Canadian Transportation of Dangerous Goods (TDG) Regulations to include SOR/2014-152 and SOR/2014-Start Printed Page 15797159 published July 2, 2014; SOR/2014-159 Erratum published July 16, 2014; SOR/2014-152 Erratum published August 27, 2014; SOR/2014-306 published December 31, 2014; SOR/2014-306 Erratum published January 28, 2015; and SOR/2015-100 published May 20, 2015. Finally, in this final rule, PHMSA adopts various updated International Organization for Standardization (ISO) standards.
• Hazardous Materials Table (HMT): PHMSA amends the § 172.101 Hazardous Materials Table (HMT) consistent with recent changes in the Dangerous Goods List of the 19th Revised Edition of the UN Model Regulations, the IMDG Code, and the ICAO Technical Instructions. Specifically, we are making amendments to the HMT to add, revise, or remove certain proper shipping names, hazard classes, packing groups, special provisions, packaging authorizations, bulk packaging requirements, and passenger and cargo aircraft maximum quantity limits.
• Provisions for Polymerizing Substances: PHMSA includes in the HMT four new Division 4.1 entries for polymerizing substances and adds into the HMR defining criteria, authorized packagings, and safety requirements including, but not limited to, stabilization methods and operational controls. These provisions will be in effect until January 2, 2019. During the interim time period, PHMSA intends to review and research the implications of the polymerizing substance amendments during this two-year timeframe, and readdress the issue in the next international harmonization rulemaking.
• Modification of the Marine Pollutant List: PHMSA modifies the list of marine pollutants in appendix B to § 172.101. The HMR maintain this list as the basis for regulating substances toxic to the aquatic environment and allow use of the criteria in the IMDG Code if a listed material does not meet the criteria for a marine pollutant. PHMSA periodically updates this list based on changes to the IMDG Code and evaluation of listed materials.
• Packaging Requirements for Water-Reactive Materials Transported by Vessel: PHMSA amends packaging requirements for vessel transportation of water-reactive substances consistent with requirements in the IMDG Code. The amendments include changes to the packaging requirements to require certain commodities to have hermetically sealed packaging and to require other commodities—when packed in flexible, fiberboard, or wooden packagings—to have sift-proof and water-resistant packaging or packaging fitted with a sift-proof and water-resistant liner.
• Hazard Communication Requirements for Lithium Batteries: PHMSA revises hazard communication requirements for shipments of lithium batteries consistent with changes adopted in the 19th Revised Edition of the UN Model Regulations. Specifically, PHMSA adopts a new lithium battery label in place of the existing Class 9 label; amends the existing marking requirements for small lithium battery shipments in § 173.185(c) to incorporate a new standard lithium battery mark for use across all modes; ^[1] removes the documentation requirement in § 173.185(c) for shipments of small lithium cells and batteries; and requires the lithium battery mark be applied to each package containing small lithium cells or batteries contained in equipment when there are more than four lithium cells or two lithium batteries installed in the equipment or where there are more than two packages in the consignment.

• Engine, Internal Combustion/Machinery, Internal Combustion: PHMSA harmonizes the HMT proper shipping names utilized for the transportation of engines and machinery containing engines with those in the UN Model Regulations. Additionally, PHMSA harmonizes with the IMDG Code for domestic vessel shipments of engines, internal combustion, and machinery containing combustion engines. Existing requirements and exceptions for the transportation of engines and machinery containing engines transported by road, rail, and aircraft remain unchanged. However, PHMSA is harmonizing the transportation requirements for transportation by vessel, which includes varying degrees of hazard communication based on the type of fuel, amount of fuel, and capacity of the fuel tank.
• U.S.-Canada Regulatory Cooperation Council (RCC) Amendments: PHMSA makes amendments to the HMR resulting from coordination with Canada under the U.S.-Canada RCC. Specifically, we are adopting provisions for recognition of Transport Canada (TC) cylinders, equivalency certificates (permit for equivalent level of safety), and inspection and repair of cargo tanks. In a parallel effort, Transport Canada is adopting similar regulatory changes that will provide reciprocal recognition of DOT cylinders and DOT special permits.

III. Incorporation by Reference Discussion Under 1 CFR Part 51

The UN Recommendations on the Transport of Dangerous Goods—Model Regulations, Manual of Tests and Criteria, and Globally Harmonized System of Classification and Labelling of Chemicals, as well as all of the Transport Canada Clear Language Amendments, are free and easily accessible to the public on the internet, with access provided through the parent organization Web sites. The ICAO Technical Instructions, IMDG Code, and all ISO references are available for interested parties to purchase in either print or electronic versions through the parent organization Web sites. The price charged for those not freely available references helps to cover the cost of developing, maintaining, hosting, and accessing these standards. The specific standards are discussed at length in the “Section-by-Section Review” for § 171.7.

PHMSA received a comment from the Commercial Vehicle Safety Alliance (CVSA) recommending that access (including electronic and print media) to materials, such as technical standards developed by non-governmental organizations and incorporated by reference into regulation, be required at no additional charge for enforcement and government purposes. As noted, many of the standards incorporated by reference in this final rule are available for free through their parent organizations. However, some standards that are essential to ensure shippers offer hazardous materials in accordance with international standards are simply not available for free public access, and PHMSA is unable to provide unrestricted access to these materials. Members of the public may access hard copies of standards incorporated by reference at PHMSA's Hazardous Materials Information Center (HMIC) at DOT Headquarters in Washington, DC. Members of the public may make arrangements to visit the HMIC by visiting HMIC's Web site at http://www.phmsa.dot.gov/​hazmat/​standardsrulemaking/​hmic or by telephone at (800) 467-4922. PHMSA staff will work directly with any person requesting access to these standards.Start Printed Page 15798

IV. Comment Discussion

In response to the September 7, 2016 NPRM [81 FR 61741], PHMSA received comments from the following organizations and individuals:

• Christopher Adams
• Alaska Airlines
• American Coatings Association (ACA)
• Anonymous
• Arkema Inc.
• Basic Acrylic Monomer Manufacturers, Inc. (BAMM) and the Methacrylate Producers Association, Inc. (MPA)
• Sean Bevan
• Commercial Vehicle Safety Alliance (CVSA)
• Council on Safe Transportation of Hazardous Articles (COSTHA)
• CTC Certified Training Co.
• Dangerous Goods Advisory Council (DGAC)
• Deltech Corporation
• Department of Defense (DOD)
• Dow Chemical (Dow)
• FIBA Technologies, Inc.
• Greg Hudspeth
• The Institute of Makers of Explosives (IME)
• International Vessel Operators Dangerous Goods Association (IVODGA)
• Brent Knoblett
• Labelmaster Services
• National Tank Truck Carriers (NTTC)
• The Rechargeable Battery Association (PRBA)
• Wesley Scott
• Specialty Trailer Leasing Inc.
• United Parcel Service (UPS)
• U.S. Amines
• Western International Gas Cylinders
• Worthington Industries

Notably, Dow requested an additional two-year delayed compliance period for any polymerizing substance amendments made in this final rule. Dow contends that appropriate test methods must be determined, materials must be tested, and if the material is determined to be regulated, appropriate packaging must be selected. PHMSA is sympathetic to the concerns raised by Dow, but in order to ensure the safe and efficient transportation of these commodities, PHMSA will maintain the general one-year transition period for these changes. Additional comments specific to the respective HMR sections are addressed in the “Section-by-Section Review” of this document.^[2]

PHMSA concluded that comments made by Specialty Trailer Leasing, Inc., Mr. Greg Hudspeth, the American Coating Association, and portions of comments made by Worthington Industries are outside the scope of this rulemaking. Therefore, PHMSA did not address these comments in this rulemaking.

Polymerizing Substances

In the NPRM, PHMSA proposed incorporating into the HMT four new Division 4.1 entries for polymerizing substances and adding into the HMR defining criteria, authorized packagings, and safety requirements including, but not limited to, stabilization methods and operational controls for these new entries and existing entries requiring stabilization.

PHMSA received comments from Arkema Inc., BAMM & MPA, Deltech Corporation, DGAC, Dow Chemical, and U.S. Amines concerning our proposed amendments. These comments addressed: Materials assigned SP 387 requiring stabilization; testing methods for determining self-accelerating polymerization temperature (SAPT); questions concerning testing requirements for materials already identified in the HMT as materials requiring stabilization; exclusion from classification as polymerizing substances of materials meeting the definition of another hazard class (including combustible liquids); and the SAPT temperature threshold before temperature control is required for portable tanks transporting polymerizing substances.

U.S. Amines requested that PHMSA reconsider assigning special provision 387 to Dipropylamine (UN2383). U.S. Amines asserts this material does not pose a polymerization risk and provides safety data sheets and other associated technical data to substantiate their claim. Based on a review of the material in question, PHMSA agrees and is not assigning either special provision 387 or stowage code 25 to this material.

PHMSA received comments from Arkema Inc., BAMM & MPA, DGAC, and Deltech raising concerns over PHMSA's proposal to require polymerizing substances intended to be transported in portable tanks or IBC's to undergo the Test Series E heating under confinement testing from the UN Manual of Tests and Criteria. The commenters state that when polymerizing substances react in the test apparatus they often clog the test apparatus orifice. They further state this testing leads to unreliable, overly conservative results suggesting the material poses a greater hazard from heating under confinement that it actually does. Additionally, the commenter requested PHMSA align with the international approach for testing these substances, which only requires testing the substances under Test Series H to determine the substances' SAPT. While testing in accordance with UN Series E does present difficulties, this testing has been performed in the past in support of approval applications for various polymerizing substances. Additionally, while a clogged orifice within the Series E tests could be overly conservative, it is important to note that similar situations may occur during transport. For instance, a polymerizing substance which clogs the orifice during testing could potentially clog the pressure relief device on a portable tank. In such an incident, the testing would provide similar results on what could be expected within a transportation situation. Test Series E and H do not measure and/or predict the same phenomena. PHMSA notes Test Series E (or an equivalent performance measure) provides information on how the material behaves when heated under confinement. Test Series H provides information on the SAPT, and thus the potential need for temperature controls. These two tests are synergistic, and not mutually exclusive. For these reasons, PHMSA is maintaining the testing requirements for polymerizing substances as proposed in the NPRM.

PHMSA received questions from Arkema Inc., BAMM & MPA, and Dow about exclusions from classification as polymerizing substances for combustible liquids and Class 9 substances. These same commenters also ask about testing requirements for materials currently identified in the HMT that may also polymerize. Arkema Inc., BAMM & MPA, and DOW request clarification that as proposed in the NPRM materials meeting the definition of a combustible liquid and a polymerizing substance would not need to be offered as a polymerizing substance. Arkema Inc. and BAMM & MPA similarly ask if substances meeting the definitions of Class 9 and polymerizing substances need to be offered as a polymerizing substance. The definition of polymerizing substance adopted by the UN Model Regulations excludes substances that meet the criteria for inclusion in Classes 1-8. In the NPRM we proposed to exclude all materials that meet the definition of any other hazard class. To further harmonize the HMR definition of polymerizing substances with that found in the Model Regulations, PHMSA is amending § 173.124(a)(4)(iii) to exclude substances that meet the criteria for inclusion in Classes 1-8, including combustible liquids. It is our belief that polymerizing substances that also meet the definition of Class 9 would be limited to environmentally hazardous substances. Much like the UN we believe that the polymerizing Start Printed Page 15799properties of these materials should take precedence in the identification of these materials, and that the applicable additional description elements (i.e. marine pollutant or “RQ” for hazardous substance) should be appropriately identified by shippers. Substances that meet the defining criteria for combustible liquids and polymerizing substances are only required to be offered for transportation as a combustible liquid.

PHMSA received comments from BAMM & MPA, Deltech Corporation, and DGAC concerning our proposal to maintain a minimum SAPT temperature of 50 °C for portable tanks versus the internationally adopted 45 °C. The commenters cite PHMSA's decision not to harmonize the transport provisions applicable to self-reactive materials and organic peroxides and potential non-compliance concerns for imported materials that were evaluated and offered for transport at different temperatures than the proposal would require in the HMR. PHMSA has, and does still maintain that 50 °C is the maximum temperature reasonable expected to be experienced by any self-reactive, organic peroxide, and/or polymerizing substance. Additionally, we note that this 50 °C (122 °F) temperature is consistent with existing requirements for Division 4.1 (Self-reactive) and Division 5.2 (Organic peroxide) hazardous materials.

PHMSA received comments the proposed inclusion of HMT entries, classification criteria, and transport provisions for polymerizing substances. In light of the commenter's concerns, PHMSA is including “sunset” provisions for all amendments concerning polymerizing substances. In each regulatory citation adding or amending requirements for polymerizing substances we are including regulatory text that will sunset the provision after a two-year period from the effective date of this rule. PHMSA intends to review and research the implications of the polymerizing substance amendments during this two-year timeframe, and readdress the issue in the next international harmonization rulemaking. During the next international harmonization rulemaking, we will specifically solicit comments from the public on their experiences utilizing these provisions. If PHMSA does not take subsequent action to amend these provisions, the HMR would revert to the requirements in effect before the issuance of this final rule.

V. Section-by-Section Review

The following is a section-by-section review of the amendments adopted in this final rule:

Part 107

Section 107.502

Section 107.502 provides general requirements for the registration of cargo tanks and cargo tank motor vehicle manufacturers, assemblers, repairers, inspectors, testers, and design certifying engineers. PHMSA is revising paragraph (b) to provide an exception from the registration requirements for certain persons engaged in the repair, as defined in § 180.403, of DOT specification cargo tanks by facilities in Canada in accordance with the requirements of § 180.413(a)(1)(iii) in this final rule. Persons engaged in the repair of cargo tanks in Canada are required to register in accordance with the Transport Canada TDG Regulations, as the Canadian registration requirements are substantially equivalent to those in part 107, subpart F of the HMR. The registration information is available on Transport Canada's Web site at http://wwwapps.tc.gc.ca/​saf-sec-sur/​3/​fdr-rici/​highway/​tanks.aspx. The Transport Canada TDG Regulations except persons repairing TC specification cargo tanks at facilities in the United States from registering in Canada if they are registered in accordance with part 107, subpart F.

Therefore, PHMSA believes that requiring the registration of Canadian cargo tank repair facilities authorized by § 180.413(a)(1)(iii) is unnecessarily duplicative and that excepting them from registering in accordance with part 107 subpart F augments reciprocity without negatively impacting safety. See the § 180.413 entry in the “Section-by-Section Review” of this document for additional background and discussion of this change.

Section 107.801

Section 107.801 prescribes approval procedures for persons seeking to engage in a variety of activities regulated by PHMSA (i.e., independent inspection agencies, cylinder requalification). PHMSA is amending paragraph (a)(2) to include provisions for persons seeking approval to engage in the requalification, rebuilding, or repair of a cylinder manufactured in accordance with a Transport Canada (TC), Canadian Transportation Commission (CTC), Board of Transport Commissioners for Canada (BTC), or Canadian Railway Commission (CRC) specification under the Transport Canada TDG Regulations. Persons engaged in the requalification, rebuilding, or repair of TC, CTC, BTC, or CRC specification cylinders in the U.S. are required to register with DOT in accordance with this subpart. PHMSA will issue a new approval or revise an existing one to reflect the applicant's intent to requalify TC cylinders. See the § 107.805 entry in the “Section-by-Section Review” of this document for discussion of this change, as well as for additional requirements and exceptions.

Section 107.805

Section 107.805 prescribes the requirements cylinder and pressure receptacle requalifiers must meet in order to be approved by PHMSA. PHMSA is amending paragraph (a) to authorize prospective requalifiers to obtain approval by PHMSA to inspect, test, certify, repair, or rebuild TC specification cylinders; amending paragraph (c)(2) to ensure the types of TC cylinders intended to be inspected, tested, repaired, or rebuilt at the facility are included in the application for approval to PHMSA; and amending paragraph (d) to include various TC cylinders to the list of cylinders requiring issuance of a RIN to requalifiers.

PHMSA is also amending paragraph (f) to recognize facilities authorized by Transport Canada to requalify comparable DOT specification cylinders, as well as DOT RIN holders to requalify comparable Transport Canada cylinders subject to modification of their existing approval. PHMSA recognizes that Transport Canada's approval and registration requirements are substantially equivalent to the requirements in 49 CFR part 107, subpart I, and provide an equivalent level of safety. In addition, traceability is maintained based on Transport Canada's publicly available Web site at http://wwwapps.tc.gc.ca/​saf-sec-sur/​3/​fdr-rici/​cylinder/​requalifier.aspx, which allows tracing of a DOT specification cylinder marked with the registered mark of a Transport Canada assigned requalifier back to the appropriate requalification facility.^[3]

The addition of paragraph (f)(2) allows persons who are already registered with PHMSA to perform requalification functions on DOT specification cylinders to register to requalify corresponding TC cylinder Start Printed Page 15800specifications without additional review by an independent inspection agency. Table 1 of the § 171.12 entry in the “Section-by-Section Review” identifies specifications considered to be equivalent. Applicants will be required to submit all of the information prescribed in § 107.705(a) that identifies the TC, CTC, CRC, or BTC specification cylinder(s) or tube(s) to be inspected; certifies the requalifier will operate in compliance with the applicable TDG Regulations; and certifies the persons performing requalification have been trained in the functions applicable to the requalifier activities.

The addition of paragraph (f)(3) allows persons who are already registered with Transport Canada to requalify corresponding DOT specification cylinders without additional application to PHMSA for approval. This exception will provide cylinder owners with additional access to repair and requalification facilities in Canada, while also broadening reciprocity with Canada.

Part 171

Section 171.2

Section 171.2 prescribes general requirements for each person performing functions covered by this subchapter. PHMSA is amending paragraph (h)(1) by adding the letters “TC,” “CRC,” and “BTC” to the list of specification indications that may not be misrepresented according to § 171.2(g). This is necessary as a result of amendments in § 171.12 authorizing the use of various Transport Canada approved specification cylinders under certain conditions.

Section 171.7

Section 171.7 provides a listing of all voluntary consensus standards incorporated by reference into the HMR, as directed by the National Technology Transfer and Advancement Act of 1996. According to the Office of Management and Budget (OMB), Circular A-119, “Federal Participation in the Development and Use of Voluntary Consensus Standards and in Conformity Assessment Activities,” government agencies must use voluntary consensus standards wherever practical in the development of regulations. Agency adoption of industry standards promotes productivity and efficiency in government and industry, expands opportunities for international trade, conserves resources, improves health and safety, and protects the environment.

PHMSA actively participates in the development and updating of consensus standards through representation on more than 20 consensus standard bodies and regularly reviews updated consensus standards and considers their merit for inclusion in the HMR.

For this rulemaking, we evaluated updated international consensus standards pertaining to proper shipping names, hazard classes, packing groups, special provisions, packaging authorizations, air transport quantity limitations, and vessel stowage requirements and determined that the revised standards provide an enhanced level of safety without imposing significant compliance burdens. These standards have well-established and documented safety histories, and their adoption will maintain the high safety standard currently achieved under the HMR. Therefore, in this final rule, PHMSA is adding and revising the following incorporation by reference materials:

• Paragraph (t)(1), which incorporates the International Civil Aviation Organization Technical Instructions for the Safe Transport of Dangerous Goods by Air, 2015-2016 Edition, is revised to incorporate the 2017-2018 Edition. The International Civil Aviation Organization Technical Instructions for the Safe Transport of Dangerous Goods by Air contain detailed instructions necessary for the safe international transport of dangerous goods by air. The ICAO Technical Instructions support the broad principles by establishing requirements necessary to ensure hazardous materials are safely transported in aircraft while providing a level of safety that protects the aircraft and its occupants from undue risk.
• Paragraph (v)(2), which incorporates the International Maritime Organization International Maritime Dangerous Goods Code, 2014 Edition, Incorporating Amendment 37-14, English Edition, Volumes 1 and 2, is revised to incorporate the 2016 Edition, Amendment 38-16. The IMDG Code is intended to provide for the safe transportation of hazardous materials by vessel, protect crew members, and prevent marine pollution. The IMDG Code is based on the UN Model Regulations, but also includes additional requirements applicable to the transport of hazardous materials by sea (e.g., requirements for marine pollutants; freight container loading procedures; stowage and segregation; and other requirements applicable to shipboard safety and preservation of the marine environment) that are not covered by the UN Model Regulations.
• Paragraph (w), which incorporates various International Organization for Standardization entries, is revised to incorporate by reference standards for the specification, design, construction, testing, and use of gas cylinders:

—ISO 3807:2013 Gas cylinders—Acetylene cylinders—Basic requirements and type testing is incorporated in paragraph (w)(16). ISO 3807:2013 specifies the basic and type testing requirements for acetylene cylinders with and without fusible plugs with a maximum nominal water capacity of 150 L (39.62 gallons) and requirements regarding production/batch test procedures for manufacturing of acetylene cylinders with porous material.

—ISO 7866:2012 Gas cylinders—Refillable seamless aluminium alloy gas cylinders—Design, construction and testing; and ISO 7866:2012/Cor 1:2014 Gas cylinders—Refillable seamless aluminium alloy gas cylinders—Design, construction and testing, Technical Corrigendum 1 is incorporated in paragraphs (w)(27) and (28). ISO 7866:2012 specifies minimum requirements for the material, design, construction and workmanship, manufacturing processes and tests at time of manufacture of refillable seamless aluminium alloy gas cylinders of water capacities up to and including 150 L (39.62 gallons) for compressed, liquefied, and dissolved gases for worldwide use. PHMSA received a comment from Western International Gas Cylinders requesting that the previous edition of this standard be referenced with an applicability date. PHMSA notes that the previous edition of this standard was included in the NPRM, but we have amended the language to more clearly indicate that construction to the old standard is authorized until December 31, 2020.

—ISO 9809-4:2014 Gas cylinders—Refillable seamless steel gas cylinders—Design, construction and testing—Part 4: Stainless steel cylinders with an Rm value of less than 1 100 MPa is incorporated in paragraph (w)(36). ISO 9809-4:2014 specifies the minimum requirements for the material, design, construction and workmanship, manufacturing processes, examinations, and tests at manufacture of refillable seamless stainless steel gas cylinders of water capacities from 0.5 L (.13 gallons) up to and including 150 L (39.62 gallons) for compressed, liquefied, and dissolved gases.

—ISO 10297:2014 Gas cylinders—Cylinder valves—Specification and type testing is incorporated in Start Printed Page 15801paragraph (w)(42). ISO 10297:2014 specifies design, type testing, and marking requirements for: (a) Cylinder valves intended to be fitted to refillable transportable gas cylinders; (b) main valves (excluding ball valves) for cylinder bundles; and (c) cylinder valves or main valves with integrated pressure regulator (VIPR); which convey compressed, liquefied, or dissolved gases.

—ISO 10462:2013 Gas cylinders—Transportable cylinders for dissolved acetylene—Periodic inspection and maintenance is incorporated in paragraph (w)(44). ISO 10462:2013 specifies requirements for the periodic inspection of acetylene cylinders as required for the transport of dangerous goods and for maintenance in connection with periodic inspection. It applies to acetylene cylinders with and without solvent and with a maximum nominal water capacity of 150 L (39.62 gallons).

—ISO 11114-2:2013 Gas cylinders—Compatibility of cylinder and valve materials with gas contents—Part 2: Non-metallic materials is incorporated in paragraph (w)(48). ISO 11114-2:2013 gives guidance in the selection and evaluation of compatibility between non-metallic materials for gas cylinders and valves and the gas contents. It also covers bundles, tubes, and pressure drums.

—ISO 11119-1:2012 Gas cylinders—Refillable composite gas cylinders and tubes—Design, construction and testing—Part 1: Hoop wrapped fibre reinforced composite gas cylinders and tubes up to 450 l; ISO 11119-2:2012 Gas cylinders—Refillable composite gas cylinders and tubes—Design, construction and testing—Part 2: Fully wrapped fibre reinforced composite gas cylinders and tubes up to 450 l with load-sharing metal liners; ISO 11119-2:2012/Amd 1:2014 Gas cylinders—Refillable composite gas cylinders and tubes—Design, construction and testing—Part 2: Fully wrapped fibre reinforced composite gas cylinders and tubes up to 450 l with load-sharing metal liners; and ISO 11119-3:2013 Gas cylinders—Refillable composite gas cylinders and tubes—Design, construction and testing—Part 3: Fully wrapped fibre reinforced composite gas cylinders and tubes up to 450 l with non-load-sharing metallic or non-metallic liners are incorporated in paragraphs (w)(54), (56), (57), and (59), respectively. ISO 11119-1:2012, ISO 11119-2:2012, and ISO 11119-3:2013 specify requirements for composite gas cylinders and tubes between 0.5 L (39.62 gallons) and 450 L (119 gallons) water capacity, for the storage and conveyance of compressed or liquefied gases.

• Paragraph (bb)(1), which incorporates the Transport Canada Transportation of Dangerous Goods Regulations, adds paragraphs (bb)(1)(xiii), (xiv), (xv), (xvi), (xvii), (xviii), and (xix) to include SOR/2014-152 and SOR/2014-159 published July 2, 2014; SOR/2014-159 Erratum published July 16, 2014; SOR/2014-152 Erratum published August 27, 2014; SOR/2014-306 published December 31, 2014; SOR/2014-306 Erratum published January 28, 2015; and SOR/2015-100 published May 20, 2015, respectively. The Transport Canada Transportation of Dangerous Goods Regulations incorporated in this final rule are updates to the existing Transportation of Dangerous Goods Regulations and cover all updates made by Transport Canada between January 2014 and May 2015. PHMSA received a comment from COSTHA requesting we also incorporate by reference TDG Regulations, SOR/2016-95 published on June 1, 2016. However, as this standard was not proposed for incorporation in the NPRM, we are unable to adopt it in this final rule.
• Paragraph (dd)(1), which incorporates the United Nations Recommendations on the Transport of Dangerous Goods—Model Regulations, 18th Revised Edition (2013), Volumes I and II, is revised to incorporate the 19th Revised Edition (2015), Volumes I and II. The United Nations Model Regulations on the Transport of Dangerous Goods provide a basis for development of harmonized regulations for all modes of transport, in order to facilitate trade and the safe, efficient transport of hazardous materials.
• Paragraph (dd)(2), which incorporates the United Nations Recommendations on the Transport of Dangerous Goods—Manual of Tests and Criteria, 5th Revised Edition (2009), is revised to incorporate the 6th Revised Edition (2015). The Manual of Tests and Criteria contains criteria, test methods, and procedures to be used for classification of dangerous goods according to the provisions of Parts 2 and 3 of the United Nations Recommendations on the Transport of Dangerous Goods—Model Regulations, as well as of chemicals presenting physical hazards according to the Globally Harmonized System of Classification and Labelling of Chemicals (GHS).
• Paragraph (dd)(3) is added to incorporate the United Nations Recommendations on the Transport of Dangerous Goods—Globally Harmonized System of Classification and Labelling of Chemicals (GHS), 6th Revised Edition (2015). Section 172.401 references the incorporation by reference of the GHS in § 171.7; however, this entry does not currently appear in § 171.7. The addition of this paragraph corrects this oversight. The GHS addresses classification of chemicals by types of hazard and proposes harmonized hazard communication elements, including labels and safety data sheets. It aims at ensuring that information on physical hazards and toxicity from chemicals is available in order to enhance the protection of human health and the environment during the handling, transport, and use of these chemicals. GHS also provides a basis for harmonization of rules and regulations on chemicals at national, regional, and worldwide levels, which is an important factor for trade facilitation.
• In the NPRM, PHMSA proposed incorporating ISO 11515:2013 Gas cylinders—Refillable composite reinforced tubes of water capacity between 450 L and 3000 L—Design, construction and testing into the HMR. After further review, and in order to appropriately address comments received, the incorporation by reference of ISO 11515:2013 will be considered under a future rulemaking rather than adopted at this time. We note that ISO 11515:2013 is currently under review by the relevant ISO Technical Committee (e.g., ISO/TC58/SC3). Substantive revisions under consideration include reintroduction of the high velocity impact (gunfire) test and revisions to the blunt impact test. Consideration of this item under a future rulemaking will allow for these safety enhancements to be appropriately considered by ISO. It also provides opportunity to consider comments received such as those requesting consideration of relevant special permits. PHMSA received a comment from FIBA Technologies, Inc. requesting that we expand the volume maximum allowed from 3000 L to 8500 L; reduce the minimum design burst pressure for Type 3 and Type 4 cylinders from 2.0 to 1.6; waive the blunt impact test if the tubes will be mounted inside a structural framework that finite analysis has demonstrated will protect the tubes from damage; and introduce a high velocity impact test. FIBA Technologies, Inc. correctly noted that these requirements, allowances, and tests are currently authorized under Start Printed Page 15802existing special permits for composite tubes. These requests were outside the scope of this rulemaking, but we do note ongoing work at ISO to generate a standard for larger composite tubes.

In the NPRM, PHMSA proposed to incorporate by reference the Transport Canada standards into §§ 107.801 and 805 with the text “IBR, See 171.7.” Part 107 is in subchapter A. Section 171.7 is only applicable to subchapter C, therefore the IBR references proposed have in 107.801 and 805 would not have been valid. As a result PHMSA is amending § 171.7(a)(1) as central section for material that is incorporated by reference into subchapters A, B, and C.

Section 171.8

Section 171.8 defines terms generally used throughout the HMR that have broad or multi-modal applicability. PHMSA is adding the following terms and definitions:

• Design life: PHMSA adds the term “design life” to define the maximum life of composite cylinders and tubes. This term is specifically limited to references in the HMR related to composite cylinders and tubes.
• SAPT: PHMSA adds the term “SAPT,” which means self-accelerated polymerization temperature, and a reference to § 173.21(f). This is consistent with the similar term “SADT” (self-accelerated decomposition temperature). In the absence of further rulemaking actions, this definition will sunset two years from the effective date of this rulemaking. See the “Comment Discussion” section of this document for further discussion.
• Service life: PHMSA adds the term “service life” to define the number of years a composite cylinder or tube is permitted to be in service. This term is specifically limited to references in the HMR related to composite cylinders and tubes.

Additionally, PHMSA amends the definitions for the following terms:

• Aerosol: PHMSA revises the definition of “aerosol” to clarify that it is an article. Currently under the HMR, an aerosol is considered to be an article, and therefore, the use of inner packagings in a combination package is not necessary; however, practice has shown that an aerosol is often mistaken for the inner packaging of a combination packaging, including both the substance dispensed (liquid, paste, or powder) and the propellant gas itself.
• Large salvage packaging: PHMSA revises the definition of “large salvage packaging” to add a reference to non-conforming hazardous materials packages to be consistent with the wording in the definition of “salvage packaging.”
• UN tube: PHMSA revises the definition of “UN tube,” which describes it as a seamless pressure receptacle, to specify that the term includes composite cylinders.

Section 171.12

Section 171.12 prescribes requirements for the use of the Transport Canada TDG Regulations. Under the U.S.-Canada RCC—which was established in 2011 by the President of the United States and the Canadian Prime Minister—PHMSA and Transport Canada, with input from stakeholders, identified impediments to cross-border transportation of hazardous materials. In this final rule, PHMSA is addressing these barriers by amending the HMR to expand recognition of cylinders, cargo tank repair facilities, and equivalency certificates in accordance with the TDG Regulations.

The HMR in § 171.12(a)(1) provide general authorizations to use the TDG Regulations for hazardous materials transported from Canada to the United States, from the United States to Canada, or through the United States to Canada or a foreign destination. PHMSA is amending § 171.12(a)(1) to authorize the use of a Transport Canada equivalency certificate for such road or rail transportation of a hazardous material shipment. Consistent with existing authorizations to utilize the TDG Regulations for transportation from Canada to the United States, the authorization to use a Transport Canada equivalency certificate only applies until the shipment's initial transportation ends. In other words, once a shipment offered in accordance with a Transport Canada equivalency certificate reaches the destination shown on either a transport document or package markings, transportation under the authorization in § 171.12 has ended. Any subsequent offering of packages imported under a Transport Canada equivalency certificate would have to be done in full compliance with the HMR.

Transport Canada is proposing amendments to the TDG Regulations to authorize similar reciprocal treatment of PHMSA special permits. PHMSA received comments from Dow and DGAC supporting the proposed acceptance of Transport Canada equivalency certificates. These same commenters requested that PHMSA extend the authorization to offer in accordance with an equivalency certificate further than a shipment's initial transportation into or out of the country. The commenters requested PHMSA allow a shipment offered in accordance with a Canadian certificate of equivalency to be reshipped under the provisions of the permit (e.g., original shipment from Canada to a distribution center in the U.S. and then reoffered to other U.S. locations). As previously noted, the intent of this regulatory change is to authorize the use of Canadian certificates of equivalency consistent with the recognition given to shipments made in accordance with the TDG Regulations. PHMSA may continue the expansion of this allowance in future RCC rulemaking activities.

PHMSA received questions from Western International Gas Cylinders concerning ultrasonic requalification of cylinders in accordance with a special permit or certificate of equivalency. Western International Gas Cylinders asked if cylinders that are requalified in accordance with a special permit ultrasonically and then offered for transport to Canada can be refilled and reoffered to the United States. It is our understanding that Transport Canada intends to provide the same reciprocity to PHMSA special permits that we are extending to their certificates of equivalency. Please review the Transport Canada harmonization rulemaking ^[4] for a better understanding of the Canadian proposals in this area. Changes to § 171.12 would authorize the shipment of a Canadian cylinder in accordance with the provisions in a certificate of equivalency, including the use of ultrasonic examination techniques if so indicated in the certificate. Western International Gas Cylinders further asked if ultrasonic cylinder requalifiers in the U.S. would be allowed to add TC, CTC, BTC, and CRC marked cylinders to their special permits and conduct ultrasonic examinations of these cylinders. Cylinder requalifiers may submit a modification request for their special permit to authorize ultrasonic examination of these Canadian cylinders. Each request will be evaluated on its own merits.

PHMSA is additionally amending § 171.12(a)(1) to authorize the transportation of cylinders and multiple-element gas containers (MEGCs) authorized by the Transport Canada TDG Regulations to be transported from Canada to the United States, from the United States to Canada, or through the United States to Canada or a foreign destination.

The HMR in § 171.12(a)(4) permit the transportation of a cylinder authorized by the Transport Canada TDG Start Printed Page 15803Regulations to, from, or within the United States. Currently this authorization is limited to CTC cylinders corresponding to a DOT specification cylinder and UN pressure receptacles marked with “CAN.” In this final rule, PHMSA is amending paragraph (a)(4)(ii) to authorize the use of Canadian manufactured cylinders. Specifically, PHMSA is authorizing the transportation of CTC, CRC, BTC, and TC cylinders that have a corresponding DOT specification cylinder prescribed in the HMR.

This final rule does not remove or amend existing requirements for DOT specification cylinders; rather, PHMSA is providing that a shipper may use either a DOT specification cylinder or a TC cylinder as appropriate. The goal of these amendments is to promote flexibility; to permit the use of advanced technology for the requalification and use of pressure receptacles; to provide for a broader selection of authorized pressure receptacles; to reduce the need for special permits; and to facilitate cross-border transportation of these cylinders.

Additionally, PHMSA is amending paragraph (a)(4) to authorize the filling, maintenance, testing, and use of CTC, CRC, BTC, and TC cylinders that have a corresponding DOT specification cylinder as prescribed in HMR. This authorization extends the recognition of cylinders manufactured in Canada to be filled, used, and requalified (including rebuild, repair, reheat-treatment) in the United States in accordance with the TDG Regulations. PHMSA received a comment from CTC Certified Training Co. requesting that we reconsider requiring requalification of all CTC, CRC, BTC, and TC cylinders be done in accordance with the Transport Canada TDG Regulations. CTC Certified Training Co. stated that the current authorization for CTC specification cylinders allows requalification to be done under either a program authorized by the Transport Canada TDG Regulations or requalified in accordance with the requirements in § 180.205. The commenter further noted that CTC, CRC, and BTC all correspond to DOT specification cylinders and that requiring these cylinders to be requalified in accordance with the TDG Regulations is unnecessary. PHMSA agrees and is amending paragraph (a)(4)(ii)(B) to note that Canadian cylinders that have been requalified in accordance with either a program authorized by the TDG Regulations or part 107, subpart I, of the HMR are acceptable. See the § 180.205 entry in the “Section-by-Section Review” of this document for specific requalification requirements for Canadian cylinders.

Table 1 lists the Canadian cylinders with the corresponding DOT specification cylinders:

In accordance with § 171.12(a)(4), when the provisions of subchapter C of the HMR require that either a DOT specification or a UN pressure receptacle must be used for a hazardous material, a packaging authorized by Transport Canada's TDG Regulations may be used only if it corresponds to the DOT specification or UN standard authorized by this subchapter. PHMSA received a comment from COSTHA requesting that the table of Canadian cylinders and the corresponding DOT specification cylinders be included in the HMR. PHMSA agrees that this is useful information and is including the table of corresponding cylinders in new paragraph (a)(4)(iii).

Section 171.23

Section 171.23 prescribes requirements for specific materials and packagings transported under the various international standards authorized by the HMR. PHMSA is amending paragraph (a) to add TC, CTC, BTC, or CRC specification cylinders to the list of cylinders which may be transported to, from, or within the United States.

Part 172

Section 172.101

Section 172.101 provides the Hazardous Materials Table (HMT), as well as instructions for its use. Readers should review all changes for a complete understanding of the amendments. For purposes of the Start Printed Page 15804Government Publishing Office's typesetting procedures, changes to the HMT appear under three sections of the Table: “remove,” “add,” and “revise.” Certain entries in the HMT, such as those with revisions to the proper shipping names, appear as a “remove” and “add.” In this final rule, PHMSA is amending the HMT for the following:

New HMT Entries

• UN 0510 Rocket Motors, Division 1.4C

This new HMT entry is the result of packaged products of low power “Rocket motors” that typically meet test criteria for assignment to Division 1.4, Compatibility Group C, but are assigned to 1.3C (i.e., UN 0186) or the 1.4C n.o.s. classification (i.e., UN 0351). This 1.4 rocket motor entry accurately reflects the product type and hazard of these articles and allows for the assignment of specific packaging instructions.

• UN 3527 Polyester resin kit, solid base material

This new HMT entry addresses polyester resin kits with a base material that does not meet the definition of Class 3 (Flammable liquid) and is more appropriately classed as a Division 4.1 (Flammable solid). Presently, polyester resin kits are limited to those with a Class 3 liquid base material component and are assigned under the entry UN 3269. This new entry permits products with a viscous base component containing a flammable solvent that does not meet the definition of a flammable liquid but does meet the definition of a flammable solid.

• UN 3528 Engine, internal combustion, flammable liquid powered or Engine, fuel cell, flammable liquid powered or Machinery, internal combustion, flammable liquid powered or Machinery, fuel cell, flammable liquid powered
• UN 3529 Engine, internal combustion, flammable gas powered or Engine, fuel cell, flammable gas powered or Machinery, internal combustion, flammable gas powered or Machinery, fuel cell, flammable gas powered
• UN 3530 Engine, internal combustion or Machinery, internal combustion

These new HMT entries apply to the fuel contained in engines and machinery powered by Class 3 flammable liquids, Division 2.1 gases, and Class 9 environmentally hazardous substances. The previous entry applicable to these articles, UN 3166, is now applicable to vehicles only. As a result of the new “Engine” and “Machinery” entries, the entries “UN 3166, Engines, internal combustion, or Engines, fuel cell, flammable gas powered” and “UN 3166, Engines internal combustion, or Engines, fuel cell, flammable liquid powered” are removed.

PHMSA received comments from COSTHA and UPS noting that new entries UN 3528, UN 3529, and UN 3530 include reference to special provision 363 in column (7) of the HMT. Both commenters noted that while special provision 363—which is assigned to these entries in the UN Model Regulations—does not exist in the current or proposed § 172.102, its conditions are proposed in § 176.906. PHMSA agrees with the commenters. The assignment of special provision 363 in column (7) of the HMT was inadvertent and as a result, the references to special provision 363 are removed in this final rule.

Additionally, during our review of the proposed changes to the engine HMT entries, we noticed that special provisions 135 and A200 were inadvertently left out of column (7) for these three new engine entries. This omission was not intended, and these provisions are placed back in column (7) in this final rule.

• UN 3531 Polymerizing substance, solid, stabilized, n.o.s.
• UN 3532 Polymerizing substance, liquid, stabilized, n.o.s.
• UN 3533 Polymerizing substance, solid, temperature controlled, n.o.s.
• UN 3534 Polymerizing substance, liquid, temperature controlled, n.o.s.

These new Division 4.1 HMT entries are added for polymerizing substances that do not meet the criteria for inclusion in any other hazard class. In the absence of further rulemaking actions, these entries will cease to have effect two years from the effective date of this rulemaking. See the “Comment Discussion” section of this document for further discussion.

• Catecholborane (also known as 1, 3, 2-Benzodioxaborole)

At the October 2015 meeting of the ICAO Dangerous Goods Panel (DGP/25), the Panel was informed of an incident involving Catecholborane (also known as 1, 3, 2-Benzodioxaborole) that resulted in a recommendation to forbid transport of the substance by air unless transported in pressure receptacles and under cooled conditions. The material was classified as “UN 2924, Flammable liquid, corrosive, n.o.s.” The product properties indicate (1) that the substance decomposes to borane gas at a rate of 2 percent per week at room temperature, (2) that borane gas could ignite when in contact with moist air, and (3) that catecholborane could react violently with water. The incident occurred after transport of the substance was delayed for nine days as the result of extreme weather conditions with temperatures consistently above 33 °C (91 °F). After being stored for approximately two weeks at a low temperature at the destination, several bottles containing the substance exploded and caught fire. It was concluded that moist air entered the bottles during the long transit time under high temperatures causing a chemical reaction and pressure build up. Panel members suspected a classification problem, but they could not determine whether this was due to shipper error or a limitation in the classification criteria in the regulations. The issue was submitted to the attention of the UN Sub-Committee at the December 2016 meeting for further review and determination if a new classification was required. In the interim, a new light type entry was added to the ICAO Technical Instructions Dangerous Goods List with a new special provision A210 assigned to “Catecholborane” and “1, 3, 2-Benzodioxaborole” forbidding the substance for transport by air on both passenger-carrying and cargo-only aircraft. Transport on cargo-only aircraft would be possible with the approval of the State of Origin and State of the Operator.

Consistent with the ICAO Technical Instructions, PHMSA is adding new HMT entries in italics for “Catecholborane” and “1, 3, 2-Benzodioxaborole” and assigning a new special provision A210 clarifying that this material is forbidden for air transport unless approved by the Associate Administrator for the Office of Hazardous Materials Safety. PHMSA received a comment from DGAC supporting the addition of these new entries in the HMT. Additionally, DGAC noted that it is unclear as to how this material is described, classed, packaged, etc. and requests guidance relative to the proper shipping description, class, label, etc. for this material. PHMSA acknowledges that for these two commodities the appropriate proper shipping description to be utilized based on the hazards presented is unclear. Therefore, these two specific technical names are added in italics in the table and not assigned to specific HMT entries.

Amendments to Column (2) Hazardous Materials Descriptions and Proper Shipping Names

Section 172.101(c) describes column (2) of the HMT and the requirements for Start Printed Page 15805hazardous materials descriptions and proper shipping names.

• PHMSA is amending the proper shipping name for “UN 3269, Polyester resin kit” by adding the italicized text “liquid base material.” This is consistent with the format of the new HMT entry for polyester resin kits with a solid base material.
• PHMSA is amending the proper shipping names for “UN 3151, Polyhalogenated biphenyls, liquid or Polyhalogenated terphenyls, liquid” and “UN 3152, Polyhalogenated biphenyls, solid or Polyhalogenated terphenyls, solid” by adding “Halogenated monomethyldiphenylmethanes, liquid” and “Halogenated monomethyldiphenylmethanes, solid,” respectively. Noting that halogenated monomethyldiphenylmethanes have similar chemical and ecotoxicological properties as polychlorinated biphenyls (PCBs) and polychlorinated terphenyls (PCTs), this revision ensures that they are considered as PCBs or PCTs for the purposes of transport.

Amendments to Column (3) Hazard Class or Division

Section 172.101(d) describes column (3) of the HMT and the designation of the hazard class or division corresponding to each proper shipping name. PHMSA is revising the hazard class of “UN 3507, Uranium hexafluoride, radioactive material, excepted package, less than 0.1 kg per package, non-fissile or fissile-excepted,” from Class 8 to Division 6.1 and subsequently adding the Class 8 hazard as a subsidiary hazard label code in column (6). This revision is based on the precedence provisions for classification of materials possessing more than one hazard and is consistent with the 19th Revised Edition of the UN Model Regulations. The presence of a Division 6.1 hazard was determined following a thorough review of literature and test data on uranium hexafluoride. A summary of the data and a proposal to revise the primary hazard class from Class 8 to Division 6.1 was provided in Working Paper ST/SG/AC.10/C.3/2014/60, which was submitted to the 45th session of the UN Sub-Committee of Experts on the Transport of Dangerous Goods (UNSCOE TDG) and is available at http://www.unece.org/​fileadmin/​DAM/​trans/​doc/​2013/​dgac10c3/​ST-SG-AC.10-C.3-2014-60e.pdf.

Amendments to Column (6) Label(s)

Section 172.101(g) describes column (6) of the HMT and the labels required (primary and subsidiary) for specific entries in the HMT.

Data presented to UNSCOE TDG in this last biennium indicated a need for the addition of a subsidiary hazard of Division 6.1 to be assigned to “UN 2815, N-Aminoethylpiperazine,” “UN 2977, Radioactive material, uranium hexafluoride, fissile,” and “UN 2978, Radioactive material, uranium hexafluoride non fissile or fissile-excepted.” PHMSA is making appropriate amendments to the HMT to account for these revisions to the UN Model Regulations.

For the HMT entry, “UN 3507, Uranium hexafluoride, radioactive material, excepted package, less than 0.1 kg per package, non-fissile or fissile-excepted,” PHMSA is revising the labels for consistency with the change made to the classification of this material under amendments to column (3). See discussion in the “Amendments to column (3) hazard class or division” section above. The Class 8 (Corrosive) primary hazard label is revised to a Division 6.1 primary hazard label and a Class 8 subsidiary hazard label in addition to the existing Class 7 (Radioactive) subsidiary hazard label to read “6.1, 7, 8.”

Amendments to Column (7) Special Provisions

Section 172.101(h) describes column (7) of the HMT whereas § 172.102(c) prescribes the special provisions assigned to specific entries in the HMT. The particular modifications to the entries in the HMT are discussed below. See “Section 172.102 special provisions” below for a detailed discussion of the additions, revisions, and deletions to the special provisions addressed in this final rule.

• New special provision 157 is assigned to the HMT entry “UN 3527, Polyester resin kit, solid base material.”
• New special provision 379 is assigned to the HMT entries “UN 1005, Ammonia, anhydrous” and “UN 3516, Adsorbed gas, toxic, corrosive, n.o.s.”
• In the 19th Revised Edition of the UN Model Regulations, new special provision 386 was assigned to the four new “n.o.s.” HMT entries for polymerizing substances and to the 52 named substances in the HMT that polymerize, all of which contain the text “stabilized” as part of the proper shipping name, except for “UN 2383, Dipropylamine” (see Table 2 below). This new special provision includes transport controls to avoid dangerous polymerization reactions including the use of chemical stabilization or temperature control. U.S. Amines requested that PHMSA reconsider assigning special provision 387 to Dipropylamine (UN 2383). They further asserted this material does not pose a polymerization risk and provided safety data sheets and other associated technical data to substantiate their claim. Based on a review of the material in question, PHMSA agrees and is not assigning either special provision 387 or stowage code 25 to this material.

Special provision 387 states that if chemical stabilization becomes ineffective at lower temperatures within the anticipated duration of transport, temperature control is required. Special provision 387 goes on to provide a non-inclusive list of factors to be considered in determining whether temperature control is necessary, to include an evaluation of any other relevant factors that may impact the ability of the chemical stabilizer to perform its function. BAMM & MPA and Dow stated that they routinely transport stabilized materials in rail cars where no effective means of temperature control exist. Rail car shipments of these stabilized materials are made year round and, during the winter months, are provided to customers and contracted terminals who have demonstrated they have in place the equipment (i.e., typically tempered water/glycol systems) and procedures to safely thaw these monomers before use. BAMM & MPA and Dow requested in their comments that PHMSA clarify that “any other relevant factors” at the close of special provision 387 can include use of appropriate methods to safely thaw any shipment that does contain frozen product. The intent of the proposed requirement for temperature control if chemical stabilization becomes ineffective at lower temperatures is that it would only apply if at any point during transportation (including unloading incidental to movement) the chemical stabilizer would be incapable of performing its function. Operational controls to ensure a frozen material is thawed to ensure no polymerizing effect occurs are considered appropriate other relevant factors for the purposes of determining when temperature control is required.

BAMM & MPA further requested that PHMSA amend special provision 387 to more clearly indicate that chemical stabilization must be sufficient to prevent the bulk mean temperature of the package from reaching 50 °C. PHMSA agrees and is making the recommended change.

In this final rule, new special provision 387 (special provision 386 already exists) is assigned to the 51 HMT entries shown in Table 2. In the absence of further rulemaking actions, this special provision will sunset two years from the effective date of this Start Printed Page 15806rulemaking. See the “Comment Discussion” section of this document for further discussion.

• New special provision 422 is assigned to the HMT entries “UN 3480, Lithium ion batteries including lithium ion polymer batteries”; “UN 3481, Lithium ion batteries contained in equipment including lithium ion polymer batteries”; “UN 3481 Lithium ion batteries packed with equipment including lithium ion polymer batteries”; “UN 3090, Lithium metal batteries including lithium alloy batteries”; “UN 3091, Lithium metal batteries contained in equipment including lithium alloy batteries”; and “UN3091, Lithium metal batteries packed with equipment including lithium alloy batteries.”
• Special provision 134 is removed from the HMT entry “UN 3072, Life-saving appliances, not self-inflating containing dangerous goods as equipment” and replaced with new special provision 182 as proposed in the NPRM. In reviewing the assignment of special provision 134 to “UN 3072” to make this clarification, PHMSA found that the provisions of special provision 134 are not assigned to “UN 3072” in any international standard, but rather to the entry for “UN 3171, Battery-powered vehicle or Battery-powered equipment.” Although special provision 134 does require that equipment powered only by lithium metal batteries or lithium ion batteries must be consigned under the entries associated with lithium batteries contained in or packed with equipment, the rest of special provision 134 is not applicable Start Printed Page 15807to “Life-saving appliances, not self-inflating containing dangerous goods as equipment.” As a result, PHMSA is adding a new special provision 182 applicable only to the HMT entry for “UN 3072, Life-saving appliances, not self-inflating containing dangerous goods as equipment” to clarify that equipment containing only lithium batteries must be classified as either lithium batteries contained in or packed with equipment “UN 3091” or “UN 3481,” as appropriate.
• New special provision A210 is assigned to the new HMT italicized entries for “Catecholborane” and “1, 3, 2-Benzodioxaborole.”
• New special provision A212 is assigned to the HMT entry for “UN 2031, Nitric acid other than red fuming, with more than 20 percent and less than 65 percent nitric acid.”
• New special provision B134 is assigned to the Packing Group (PG) III entries in Table 3 consistent with revisions to the IMDG Code.

• New special provision B135 is assigned to the PG III entries in Table 4 consistent with revisions to the IMDG Code.

• Special provision TP1 is changed to TP2 for the following entries: “UN 2672, Ammonia solution, relative density between 0.880 and 0.957 at 15 degrees C in water, with more than 10 percent but not more than 35 percent ammonia”; “UN 2709, Butyl benzenes”; “UN 2241, Cycloheptane”; “UN 1206, Heptanes”; “UN 1208, Hexanes”; “UN 2294, N-Methylaniline”; “UN 2296, Methylcyclohexane”; “UN 1920, Nonanes”; “UN 1262, Octanes”; “UN 2368, alpha-Pinene”; “UN 1272, Pine oil”; “UN 2850, Propylene tetramer”; “UN 2325, 1,3,5-Trimethylbenzene”; “UN 2057, Tripropylene”; “UN 1299, Turpentine”; and “UN 1840, Zinc chloride, solution.” Tank provision TP2 authorizes a slightly lower degree of filling than TP1. The IMDG Code follows a guiding principle that assigns TP2 to materials that are marine pollutants. In a previous harmonization rulemaking [HM-215M; 80 FR 1075 (Jan. 8, 2015)], PHMSA added various hazardous materials to the list of marine pollutants in appendix B to § 172.101, but both the HMT and IMDG Code failed to change the TP code from TP1 to TP2 to authorize a lower degree of filling.
• Special provisions T9, TP7, and TP33 are assigned to the HMT entry “UN 1415, Lithium.” This permits UN 1415 for transportation in UN portable tanks consistent with similar Division 4.3, PG I materials.
• New special provisions W31, W32, W40, and W100 are assigned to certain water-reactive substances. The special provisions correspond with special packaging provisions PP31, PP31 “modified” (Packing Instruction P403), PP40, and PP100 of the IMDG Code, respectively. Table 5 contains the changes listed in alphabetical order and showing the proper shipping name, UN identification number, and the special provision(s).

PHMSA received comment from DGAC noting for UN Numbers 1309, 1376, 1390, 1394, 1396, 1400, 1401, 1402 (PG II), 1405, 1417, 1483 (PG III), 1869, 1932, 2545 (PG III), 2546 (PG III), 2624, 2793, 2813 (PG II and III), 2830, 2878, 2881 (PG III), 3078, 3170, and 3208 (PG II and III), special provision IP4 was assigned in the regulatory text without corresponding discussion in the preamble. DGAC is correct that the assignment of these IP Codes was not discussed in the preamble; however, this omission was unintentional. The assignment of IP4 to these HMT entries was a result of aligning the HMR with the water-reactive packaging provisions for IBCs prescribed in the IMDG Code. Specifically, the provisions of IP4 are consistent with Special packing provision B4 of the IMDG Code. Special provision IP4 states, “Flexible, fiberboard or wooden IBCs must be sift-proof and water-resistant or be fitted with a sift-proof and water-resistant liner.” Based on further review of the implementation effects of this issue, a new special provision IP21, applicable only to vessel transport but with the same provisions as IP4, is assigned.

PHMSA received one comment from DGAC noting for the entry “UN 2793” that special provision IP3 is missing from column (7) in the proposed HMT. This was an inadvertent omission. Special provision IP3 has been reestablished.

Amendments to Column (9) Quantity Limitations

Section 172.101(j) describes column (9) of the HMT and the quantity limitations for specific entries. Furthermore, columns (9A) and (9B) specify the maximum quantities that may be offered for transportation in one package by passenger-carrying aircraft or passenger-carrying rail car (column (9A)) or by cargo-only aircraft (column (9B)). The indication of “forbidden” means the material may not be offered for transportation or transported in the applicable mode of transport.

In this final rule, PHMSA is amending for column (9B) a quantity limit of 75 kg for “UN 0501, Propellant, solid, Division 1.4C.” Previously, column (9B) forbade the transport of UN 0501 by cargo-only aircraft as proposed in the NPRM. This new quantity limit is consistent with the authorized quantity limit found in the ICAO Technical Instructions.

Amendments to Column (10) Vessel Stowage Requirements

Section 172.101(k) explains the purpose of column (10) of the HMT and prescribes the vessel stowage and segregation requirements for specific entries. Column (10) is divided into two columns: Column (10A) [Vessel stowage] specifies the authorized stowage locations on board cargo and passenger vessels, and column (10B) [Other provisions] specifies special stowage and segregation provisions. The meaning of each code in column (10B) is set forth in § 176.84.

Consistent with changes to Amendment 38-16 of the IMDG Code, PHMSA is making numerous changes to the vessel stowage location codes shown in column (10A) of the HMT. The majority of these changes are a result of those made to the IMDG Code to ensure the safe transportation of substances requiring stabilization when transported by vessel. Table 6 contains the changes listed in alphabetical order and showing the proper shipping name, UN identification number, current vessel stowage location code, and new vessel stowage location.

With the addition of a Division 6.1 subsidiary hazard to “UN 2815, N-Aminoethylpiperazine,” “UN 2977, Radioactive material, uranium hexafluoride, fissile,” and “UN 2978, Radioactive material, uranium hexafluoride non fissile or fissile-excepted,” PHMSA is adding code “40,” which indicates that the material must be stowed clear of living quarters, to column (10B) for these entries to remain consistent with the IMDG Code.

As a consequence of adding special provision 387, which addresses stabilization requirements to 51 existing entries in the HMT that are identified as requiring such, the IMO amended vessel stowage requirements for these entries. PHMSA is adding code “25” to column (10B) for the same 51 entries identified in Table 2. We note that the IMDG Code did not assign stowage provisions equivalent to code “25” to “UN 1167, Divinyl ether, stabilized.” Stowage code “25” requires these materials to be protected from sources of heat. PHMSA believes the omission of this stowage requirement in the IMDG Code to be an oversight, and we are adding stowage code “25” to this HMR entry. In the NPRM, we had proposed assigning stowage code “25” to UN 2383, Dipropylamine, but based on comments received from U.S. Amines indicating the material is not a polymerizing substance, we are not adding stowage code “25” to this entry. In the absence of further rulemaking actions, these provisions will sunset two years from the effective date of this rulemaking. See the “Comment Discussion” section of this document for further discussion.

Code “28” requires materials to which this code is assigned to be stowed away from flammable liquids. In this final rule, consistent with changes to the IMDG Code, PHMSA is removing code “28” from column (10B) for the following HMT entries: “UN 2965, Boron trifluoride dimethyl etherate”; “UN 2988, Chlorosilanes, water-reactive, flammable, corrosive, n.o.s”; “UN 1183, Ethyldichlorosilane”; “UN 1242, Methyldichlorosilane”; “UN 3490, Toxic by inhalation liquid, water-reactive, flammable, n.o.s. with an LC50 lower than or equal to 200 ml/m3 and saturated vapor concentration greater than or equal to 500 LC50”; and “UN 1295, Trichlorosilane.”

PHMSA received comments from two commenters concerning amendments to column (10). Sean Bevan provided general support for harmonization in this area, while DGAC provided multiple editorial comments related to the assignment of various vessel stowage codes. The DGAC comments are summarized as follows:

• “UN 3402, Alkaline earth metal amalgams, solid,” lists vessel stowage code “14” in column (10B). DGAC believes the code should be “148.” PHMSA agrees and has amended column (10B) accordingly.
• “UN 2968, Maneb stabilized or Maneb preparations, stabilized against self-heating,” lists vessel stowage code “25” in column (10B). DGAC states the current entry does not have this code and there is no discussion in the preamble of the NPRM regarding its addition. PHMSA agrees that code “25” should not have been proposed in association with this entry and has removed it accordingly.
• “UN 3395, Organometallic substance, solid, water-reactive,” the PGI entry lists vessel stowage code “14” in column (10B). DGAC believes the code should be “148.” PHMSA agrees and has amended column (10B) accordingly.
• “UN 3397, Organometallic substance, solid, water-reactive, self-heating,” the PGII and III entries list vessel stowage code “14” in column (10B). DGAC believes the code should be “148.” PHMSA agrees and has amended column (10B) accordingly.
• “UN 2257, Potassium,” vessel stowage codes “13” and “148” do not appear in column (10B). DGAC believes these codes were inadvertently omitted and should be shown. PHMSA agrees that codes “13” and “148” should not have been proposed for removal in association with this entry and has reinserted them into the HMT.
• “UN 3367, Trinitrobenzene, wetted, with not less than 10% water, by mass,” lists vessel stowage code “3” in column (10B). DGAC believes the code should be “36.” PHMSA agrees and has amended column (10B) accordingly.
• “UN1085, Vinyl bromide, stabilized,” lists stowage location “C” in column (10A). DGAC believes the code should be “B.” PHMSA agrees and has amended column (10A) accordingly.

Appendix B to § 172.101:

Appendix B to § 172.101 lists marine pollutants regulated under the HMR. PHMSA is revising the list of marine pollutants by adding five new entries to remain consistent with the IMDG Code. These changes include those substances that were either assigned a “P” in the dangerous goods list or identified in the alphabetical index to Amendment 38-16 of the IMDG Code—based on review of evaluations for each individual material, and associated isomers where appropriate, performed by the Group of Experts on the Scientific Aspects of Marine Environmental Protection (GESAMP) and the GESAMP defining criteria for marine pollutants. The following entries are added to the list of marine pollutants in appendix B to § 172.101: Hypochlorite solutions; Isoprene, stabilized; N-Methylaniline; Methylcyclohexane; and Tripropylene. DGAC commented that there already exists an entry in the list of marine pollutants for “hexane,” so there is no need to add the entry “hexanes.” PHMSA agrees and is not adding a duplicative entry for “hexanes.” IVODGA commented with general support for the addition of these entries.

Section 172.102 special provisions:

Section 172.102 lists special provisions applicable to the transportation of specific hazardous materials. Special provisions contain packaging requirements, prohibitions, and exceptions applicable to particular quantities or forms of hazardous materials. In this final rule, PHMSA is making the following revisions to § 172.102 special provisions:

• Special Provision 40: Special provision 40 prescribes the criteria for classification of a “Polyester resin kit.” Start Printed Page 15813PHMSA is revising special provision 40 by authorizing a polyester resin kit to contain a Division 4.1 base material consistent with the new HMT entry “UN 3527, Polyester resin kit, solid base material, 4.1.”
• Special Provision 134: Special provision 134 prescribes the applicability of the HMT entry “UN 3171, Battery-powered vehicle or Battery-powered equipment.” PHMSA is revising special provision 134 by amending the list of battery-powered vehicle examples to include trucks, locomotives, bicycles (pedal cycles with an electric motor) and other vehicles of this type (e.g., self-balancing vehicles or vehicles not equipped with at least one seating position), and self-propelled farming and construction equipment. In addition, PHMSA is organizing the structure of the special provision into paragraph form for ease of reading. PHMSA received a comment from UPS stating that the amendment to special provision 134 categorizes hoverboards as battery-powered vehicles and not lithium batteries contained in equipment. UPS argued that this classification obscures to carriers the presence of lithium batteries with no indication in the proper shipping name that lithium batteries are present and requested that the United Nations reconsider this amendment during the next biennium. PHMSA notes these concerns and will consider whether the issue should be reconsidered during the next UN biennium. In the interest of ensuring proper shipping names utilized by shippers are consistent in all transport modes, we are adopting the amendments to special provision 134 as proposed in the NPRM.
• Special Provision 135: Special provision 135 specifies that an internal combustion engine installed in a vehicle must be consigned to the entries “Vehicle, flammable gas powered” or “Vehicle, flammable liquid powered,” as appropriate. PHMSA is revising special provision 135 by clarifying that vehicles powered by both a flammable liquid and a flammable gas internal combustion engine must be consigned to the entry “Vehicle, flammable gas powered.” In addition, PHMSA is revising special provision 135 by clarifying that for the purpose of this special provision, a “vehicle” is a self-propelled apparatus designed to carry one or more persons or goods. A list of examples is provided.
• Special Provision 157: PHMSA is adding new special provision 157 and assigning it to “UN 3527, Polyester resin kit, solid base material.” The special provision allows the maximum net capacity for inner packagings of flammable solids in PG II to be increased to no more than 5 kg (11 pounds) when the material is transported as a limited quantity.
• Special Provision 181: PHMSA is adding new special provision 181 and assigning it to “UN 3481, Lithium ion batteries contained in equipment”; “UN 3481, Lithium ion batteries packed with equipment”; “UN 3091, Lithium metal batteries contained in equipment”; and “UN 3091, Lithium metal batteries packed with equipment.” The special provision specifies that when lithium cells or batteries packed with equipment and lithium cells or batteries contained in equipment are packed in the same package, the shipping paper (if used) and the package must use the “packed with” proper shipping name and UN number. Further, all packaging requirements applicable to both proper shipping names must be met and the total mass of cells or batteries in the package must not exceed the quantity limits specified in columns (9A) and (9B), as applicable.
• Special Provision 182: PHMSA is adding new special provision 182 and assigning it to “UN 3072, Life-saving appliances, not self-inflating containing dangerous goods as equipment” to clarify that equipment containing only lithium batteries must be classified as either UN 3091 or UN 3481, as appropriate.
• Special Provision 238: Special provision 238 addresses the shipment of neutron radiation detectors. PHMSA is revising special provision 238 to align with the UN Model Regulations special provision 373 by permitting the packaging to contain “absorbent” or “adsorbent” material where the previous requirement permitted “absorbent” material only.
• Special Provision 369: Special provision 369 prescribes classification criteria, consignment instructions and transport conditions for “UN 3507, Uranium hexafluoride, radioactive material, excepted package, less than 0.1 kg per package, non-fissile or fissile-excepted.” PHMSA is revising special provision 369 in conjunction with revising the primary classification for UN 3507 from Class 8 to Division 6.1. Specifically, PHMSA is clarifying that this radioactive material in an excepted package possessing toxic and corrosive properties is classified in Division 6.1 with radioactive and corrosive subsidiary risks.
• Special Provision 379: PHMSA is adding new special provision 379 and assigning it to the HMT entries “UN 1005, Ammonia, anhydrous” and “UN 3516, Adsorbed gas, toxic, corrosive, n.o.s.” This special provision is applicable to ammonia dispensers containing adsorbed ammonia, which are used to reduce polluting nitrogen oxide emissions from automobiles. The UN Sub-Committee found that the substance contained in the receptacles did not meet any criteria for classification in the Model Regulations, but it acknowledged that the substance did fit the recent definition of an adsorbed gas. Based on the stability of adsorption under normal transport conditions, an exception for these dispensers was adopted subject to appropriate packaging conditions. These materials are normally forbidden for transport by air on passenger-carrying and cargo-only aircraft; however, consistent with the ICAO Technical Instructions, PHMSA is authorizing them on cargo-only aircraft subject to the transport conditions prescribed in the special provision with additional approval of the Associate Administrator.
• Special Provision 387: PHMSA is adding new special provision 387 and assigning it to the four new “n.o.s.” polymerizing substance HMT entries and to the 52 existing HMT entries that are identified as requiring stabilization. This special provision sets forth the transport conditions when stabilization, or prevention of polymerization, is provided through the use of a chemical inhibitor. When a substance is stabilized via use of a chemical inhibitor, it is important to ensure that the level of stabilization is sufficient to prevent the onset of a dangerous reaction under conditions normally incident to transportation. This special provision requires a determination that the degree of chemical stabilization employed at the time the package, IBC, or tank is offered for transport must be suitable to ensure that the sustained bulk mean temperature of the substance in the package, IBC, or tank will not exceed 50 °C (122 °F), under conditions normally incident to transportation. The special provision also specifies that temperature control is required at the point where chemical stabilization becomes ineffective at lower temperatures within the anticipated duration of transport. Consistent with the ICAO Technical Instructions, PHMSA is clarifying in special provision 387 that these substances are forbidden for transport by air when temperature control is required. U.S. Amines requests that PHMSA reconsider assigning special provision 387 to Dipropylamine (UN 2383), further asserting that this material does not pose a polymerization risk. They provided safety data sheets and other associated technical data to substantiate the claim. Based on a Start Printed Page 15814review of the technical information provided and the physical properties of the substance in question, PHMSA agrees and is not assigning special provision 387 to this substance. In the absence of further rulemaking actions, this provision will sunset two years from the effective date of this rulemaking. See the “Comment Discussion” section of this document for further discussion.
• Special Provision 420: PHMSA is adding new special provision 420 and assigning it to the HMT entry “UN 2000, Celluloid.” This special provision states that table tennis balls are not subject to the requirements of the HMR. The 19th Revised Edition of the UN Model Regulations includes a special provision assigned to “UN 2000, Celluloid” that excepts table tennis balls made of celluloid from the requirements of the Model Regulations if the total net mass of each table tennis ball does not exceed 3 grams and the net mass of table tennis balls does not exceed 500 grams per package. In the NPRM, PHMSA discussed not including this special provision (see Section V, “Amendments Not Being Considered for Adoption in This NPRM”) as it is unnecessary based on our position—as stated in the letter of interpretation (Ref. No. 14-0141)—that table tennis balls are not subject to the requirements of the HMR and that the “UN 2000, Celluloid” entry only applies when the material is in a pre-manufactured state (i.e., blocks rod, rolls, sheets, tubes, etc.). PHMSA received three comments from COSTHA, DGAC, and IVODGA requesting that PHMSA reconsider the position to omit the special provision. DGAC specifically commented that while they fully agree with PHMSA's view that celluloid table tennis balls are not subject to the HMR and that the HMT entry “UN 2000, Celluloid” only applies when celluloid is in a pre-manufactured state, this position is not universally held by other governmental transport authorities. The commenters asserted that while the letter of interpretation is helpful, as it is not formally included in the HMR, including a special provision stating that table tennis balls are not subject to the HMR would be beneficial. PHMSA agrees with the commenters that adding a special provision to clarify table tennis balls are not subject to the requirements of the HMR is warranted and may lead to a reduction in the number of shipments rejected or frustrated by carriers. The special provision 420 added in this final rule differs from special provision 383 of the Model Regulations in that it excepts articles manufactured of celluloid, such as table tennis balls, without a limit on the size of the ball or the quantity per package.
• Special Provision 421: PHMSA is adding new special provision 421 and assigning it to the four new polymerizing substance, n.o.s. entries. This special provision is added to indicate that after January 2, 2019 shipments may not be offered for transportation under these basic descriptions. This special provision is added as a result of sunset provisions for polymerizing substance amendments. See the “Comment Discussion” section of this document for a discussion on the sunset provision.
• Special Provision 422: PHMSA is adding new special provision 422 and assigning it to the following HMT entries: “UN 3480, Lithium ion batteries including lithium ion polymer batteries”; “UN 3481, Lithium ion batteries contained in equipment including lithium ion polymer batteries”; “UN 3481, Lithium ion batteries packed with equipment including lithium ion polymer batteries”; “UN 3090, Lithium metal batteries including lithium alloy batteries”; “UN 3091, Lithium metal batteries contained in equipment including lithium alloy batteries”; and “Lithium metal batteries packed with equipment including lithium alloy batteries.” Special provision 422 states that the new lithium battery Class 9 label shown in § 172.447 is to be used for packages containing lithium batteries that require labels. Consistent with the UN Model Regulations, PHMSA is providing a transition period that would authorize labels conforming to requirements in place on December 31, 2016 to continue to be used until December 31, 2018. Class 9 placards, when used, must conform to the existing requirements in § 172.560.
• Special Provision A210: PHMSA is adding new special provision A210 and assigning it to the new italicized HMT entries “Catecholborane” and its synonym “1, 3, 2-Benzodioxaborole.” Consistent with the ICAO Technical Instructions, this special provision clarifies that this substance is forbidden for transport by air and may only be transported on cargo-only aircraft with the approval of the Associate Administrator.
• Special Provision A212: PHMSA is adding new special provision A212 and assigning it to the to the HMT entry “UN 2031, Nitric acid other than red fuming, with more than 20 percent and less than 65 percent nitric acid.” Consistent with the ICAO Technical Instructions, this special provision allows sterilization devices containing nitric acid conforming to the conditions in the special provision to be offered for transportation by passenger-carrying aircraft irrespective of column (9A) of the § 172.101 HMT listing the material as forbidden.
• Special Provision B134: PHMSA is adding new special provision B134 and assigning it to UN Numbers 1309, 1376, 1483, 1869, 2793, and 2878. This special provision states that when in Large Packagings offered for transport by vessel, flexible or fiber inner packages containing these materials would need to be sift-proof and water-resistant, or fitted with a sift-proof and water-resistant liner. Consistent with the IMDG Code, these provisions will increase the ability of these packages to perform their containment function and reduce the likelihood of a fire on board cargo vessels when used to transport substances that either generate large amounts of heat or give off flammable or corrosive toxic gases on contact with water or moisture.
• Special Provision B135: PHMSA is adding new special provision B135 and assigning it to UN Numbers 1932, 2008, 2545, 2546, 2881, and 3189. This special provision states that when in Large Packagings offered for transport by vessel, flexible or fiber inner packages containing these materials would need to be hermetically sealed. Consistent with the IMDG Code, these provisions will increase the ability of these packages to perform their containment function and reduce the likelihood of a fire on board cargo vessels when used to transport substances that either generate large amounts of heat or give off flammable or corrosive toxic gases on contact with water or moisture.
• IP Code 19: PHMSA is adding a new IP Code 19 and assigning it to UN 3531, UN 3532, UN 3553, and UN 3534. Consistent with international regulations, this special provision requires that IBCs are designed and constructed to permit the release of gas or vapor, thereby preventing a build-up of pressure that could rupture the IBCs in the event of loss of stabilization.
• IP Code 21: PHMSA is adding a new IP Code 21 and assigning it to UN Numbers 1309, 1376, 1390, 1394, 1396, 1400, 1401, 1402 (PG II), 1405, 1417, 1483 (PG III), 1869, 1932, 2545 (PG III), 2546 (PG III), 2624, 2793, 2813 (PG II and III), 2830, 2878, 2881 (PG III), 3078, 3170, and 3208 (PG II and III). Consistent with the IMDG Code, this special provision requires that flexible, fiberboard, or wooden IBCs must be sift-proof and water-resistant or be fitted with a sift-proof and water-resistant liner.Start Printed Page 15815
• Special Provision N90: Special provision N90 is assigned to the HMT entry “UN 3474, 1-Hydroxybenzotriazole, monohydrate” and prohibits the use of metal packages. Consistent with the UN Model Regulations, PHMSA is revising special provision N90 by clarifying that the prohibition of metal packages does not include packagings constructed of other material with a small amount of metal (e.g., metal closures or other metal fittings). However, packagings constructed with a small amount of metal must be designed such that the hazardous material does not contact the metal.
• Special Provision N92: PHMSA is adding special provision N92 to the four new polymerizing substance, n.o.s. entries. This special provision requires packages that are utilized for the transportation of polymerizing substances to be designed and constructed to permit the release of gas or vapor to prevent a build-up of pressure that could rupture the packagings in the event of loss of stabilization.
• Special Provision W31: PHMSA is adding new special provision W31 and assigning it to the 155 HMT entries identified in Table 5 in the “Amendments to column (7) special provisions” section of this rulemaking. With the addition of this special provision, PHMSA is requiring packages assigned as such to be hermetically sealed when offered for transportation by vessel.

The addition of W31 to these commodities harmonizes the HMR with changes made in Amendment 38-16 of the IMDG Code, as well as the transportation requirements of the HMR with the IMDG Code for other commodities where they were not previously harmonized. The IMDG Code has had provisions in place equivalent to proposed W31 (PP31) for certain commodities since at least 1998.^[5] Other hazardous materials regulations (ICAO Technical Instructions, HMR, and UN Model Regulations) do not currently contain provisions similar to W31. Amendment 38-16 of the IMDG Code is adding this hermetically sealed packaging requirement to 15 entries in its Dangerous Goods List (some with multiple packing groups).

The amendments would reduce the risk of fire on board cargo vessels carrying hazardous materials that can react dangerously with the ship's available water and carbon dioxide fire extinguishing systems. Some of the hazardous materials for which PHMSA is amending the vessel transportation packaging requirements react with water or moisture generating excessive heat or releasing toxic or flammable gases. Common causes for water entering into the container are: Water entering through ventilation or structural flaws in the container; water entering into the containers placed on deck or in the hold in heavy seas; and water entering into the cargo space upon a ship collision or leak. If water has already entered the container, the packaging is the only protection from a potential fire.

In this final rule, PHMSA is strengthening the ability of these packages transporting water-reactive substances. PHMSA received one comment from DGAC noting that the proposed text for W31 would apply to both “non-bulk” and “bulk” packagings as defined in the HMR. DGAC commented that the analogous special provision in IMDG code (PP31) only applies to what the HMR defines as “non-bulk” packagings. As a result, DGAC requested that special provision W31 be limited in its applicability to “non-bulk” packagings. PHMSA agrees with DGAC, and in this final rule, special provision W31 is added with applicability limited to non-bulk packagings.

• Special Provision W32: PHMSA is adding new special provision W32 and assigning it to 38 HMT entries identified in Table 5 in the “Amendments to column (7) special provisions” section of this rulemaking. With the addition of this special provision, PHMSA is requiring packages assigned this special provision to be hermetically sealed, except for solid fused material, when offered for transportation by vessel. The 38 entries to which this addition is made are already required to be packaged in this manner in accordance with the IMDG Code through a modified PP31 (when compared to the PP31 mentioned in the W31 discussion above) assigned to various packing instructions. See the comments in the W31 discussion above for more discussion on the reasons for this amendment.
• Special Provision W40: PHMSA is adding new special provision W40 and assigning it to 38 HMT entries identified in Table 5 in the “Amendments to column (7) special provisions” section of this rulemaking. With the addition of this special provision, PHMSA is prohibiting the use of non-bulk bags when offered for transportation by vessel. See the comments in the W31 discussion above for more discussion on the reasons for this amendment.
• Special Provision W100: PHMSA is adding new special provision W100 and assigning it to 27 HMT entries identified in Table 5 in the “Amendments to column (7) special provisions” section of this rulemaking. With the addition of this special provision, PHMSA is requiring non-bulk flexible, fiberboard, or wooden packagings that are assigned this special provision to be sift-proof and water-resistant, or to be fitted with a sift-proof and water-resistant liner. These amendments are intended to ensure that water-reactive materials transported by vessel are in packages that provide an appropriate level of protection from the ingress of water. See the comments in the W31 discussion above for more discussion on the reasons for this amendment.

Section 172.202

Section 172.202 details the requirements for the description of hazardous materials on shipping papers. PHMSA received a comment from COSTHA requesting an amendment to the transportation description requirements for consumer commodities offered for transportation by aircraft. COSTHA stated the notification of the pilot-in-command is created using information provided on the shipping papers and requested PHMSA allow a shipper offering consumer commodities to show on the shipping paper either the actual gross mass of each package or the average gross mass of all packages in the consignment. PHMSA agrees with COSTHA that without the consequential amendment they proposed in their comment, it would be difficult for airlines to implement our change to § 175.33 as proposed in the NPRM. Therefore, we are adding a new paragraph (a)(6)(viii) to provide an allowance for shippers of consumer commodities to show on the shipping paper either the actual gross mass of each package or the average gross mass of all packages in the consignment.

Section 172.407

Section 172.407 prescribes specifications for labels. On January 8, 2015, PHMSA published a final rule [Docket No. PHMSA-2013-0260 (HM-215M); 80 FR 1075] that required labels to have a solid line forming the inner border 5 mm from the outside edge of the label and a minimum line width of 2 mm. Transitional exceptions were provided allowing labels authorized prior to this rulemaking to be used until December 31, 2016.

The rulemaking authorized a reduction in label dimensions and Start Printed Page 15816features if the size of the packaging so requires. This allowance for reduction in label dimensions, consistent with the requirements for standard size labels, was contingent on the solid line forming the inner border remaining 5 mm from the outside edge of the label and the minimum width of the line remaining 2 mm. PHMSA has become aware that maintaining these inner border size requirements, while reducing the size of other label elements, may potentially result in the symbols on the reduced size labels no longer being identifiable. Consequently, we are revising paragraph (c)(i) to remove the existing inner border size requirements for reduced dimension labels and authorizing the entire label to be reduced proportionally.

In the same January 8, 2015 final rule, PHMSA authorized the continued use of a label in conformance with the requirements of this paragraph in effect on December 31, 2014, until December 31, 2016. PHMSA has been made aware that the transition period provided may not be sufficient to allow the regulated community to implement necessary changes to business practices or to deplete inventories of previously authorized labels. PHMSA is extending the transition date provided in paragraph (c)(1)(iii) until December 31, 2018 for domestic transportation in order to provide additional time for implementation and depletion of existing stocks of labels. PHMSA received a comment of support for this amendment from Arkema Inc. and is adopting this transition date as proposed.

Section 172.447

PHMSA is creating a new section containing a new Class 9 hazard warning label for lithium batteries. The label consists of the existing Class 9 label with the addition of a figure depicting a group of batteries with one broken and emitting a flame in the lower half. This label will appear on packages containing lithium batteries required to display hazard warning labels and is intended to better communicate the specific hazards posed by lithium batteries. This action is consistent with the most recent editions of the UN Model Regulations, the ICAO Technical Instructions, and the IMDG Code. Packages of lithium batteries displaying the existing Class 9 label may continue to be used until December 31, 2018. We are adopting this transition period to allow shippers time to exhaust existing stocks of labels and pre-printed packagings. However, we are not adopting any modifications to the existing Class 9 placard or the creation of a Class 9 placard specifically for cargo transport units transporting lithium batteries. PHMSA received a comment from UPS providing support for this amendment.

Section 172.505

Section 172.505 details the transport situations that require subsidiary placarding. Uranium hexafluoride is a volatile solid that may present both chemical and radiological hazards. It is one of the most highly soluble industrial uranium compounds and, when airborne, hydrolyzes rapidly on contact with water to form hydrofluoric acid (HF) and uranyl fluoride (UO₂ F₂).^[6]

As previously discussed in the review of changes to § 172.102, the UN Sub-Committee determined it necessary that a 6.1 subsidiary hazard be added to the Dangerous Goods List of uranium hexafluoride entries. Currently, in addition to the radioactive placard that may be required by § 172.504(e), each transport vehicle, portable tank, or freight container that contains 454 kg (1,001 pounds) or more gross weight of non-fissile, fissile-excepted, or fissile uranium hexafluoride must be placarded with a corrosive placard on each side and each end. PHMSA is adding a requirement for these shipments currently requiring corrosive subsidiary placards to also placard with 6.1 poison or toxic placards.

Part 173

Section 173.4a

Section 173.4a prescribes transportation requirements for excepted packages. In this final rule, consistent with changes to the UN Model Regulations, PHMSA is amending paragraph (e)(3) to allow required absorbent materials to be placed in either the intermediate or outer packaging.

Section 173.9

Section 173.9 prescribes requirements for the fumigant marking. In this final rule, PHMSA is amending § 173.9 to require that the fumigant marking and its required information are capable of withstanding a 30-day exposure to open weather conditions. This requirement is consistent with the survivability requirements for placards found in § 172.519. Therefore, we are making amendments to this section consistent with the survivability requirements for placards as proposed in the NPRM.

Section 173.21

Section 173.21 describes situations in which the offering for transport or transportation of materials or packages is forbidden. Examples include materials designated as “Forbidden” in column (3) of the HMT; electrical devices that are likely to generate sparks and/or a dangerous amount of heat; and materials that are likely to decompose or polymerize and generate dangerous quantities of heat or gas during decomposition or polymerization. In § 173.21, PHMSA is lowering the temperature threshold at which a polymerizing substance is forbidden for transport, unless the material is stabilized or inhibited, from 54 °C (130 °F) to 50 °C (122 °F) and amending the table in paragraph (f)(1) to accommodate the specific temperature controls applicable to polymerizing substances. This 50 °C (122 °F) temperature is consistent with existing requirements for Division 4.1 (self-reactive) and Division 5.2 (Organic peroxide) hazardous materials, as well as the 19th Revised Edition of UN Model Regulations for the transport of polymerizing substances in packages and IBCs, which requires temperature control in transport if the SAPT is 45 °C (113 °F) only for polymerizing substances offered for transport in portable tanks.

PHMSA received comments from DGAC and Dow proposing an editorial amendment to paragraph (f) to distinguish between a material that is likely to decompose with a self-accelerated decomposition temperature and a material that will polymerize. PHMSA agrees with the commenters and is revising paragraph (f) to clarify that materials with a SADT decompose and those with a SAPT polymerize. Additionally, PHMSA received a comment from Arkema Inc. asking if there are equivalent or alternative test methods that may be utilized other than the four test methods described in Part II of the UN Manual of Tests and Criteria for determining classification as a polymerizing substance. The only tests authorized to determine SAPT in § 173.21 are the Test Series H tests described in Part II of the UN Manual of Tests and Criteria.

We are not adopting a different temperature threshold before temperature control is required for portable tanks transporting polymerizing substances. At this time, we believe there is not sufficient data to support a different threshold for polymerizing substances in portable tanks.Start Printed Page 15817

PHMSA received comments from BAMM & MPA, Deltech Corporation, and DGAC concerning our proposal to maintain a minimum SAPT temperature of 50 °C for portable tanks versus the internationally adopted 45 °C. The commenters cited PHMSA's failure to harmonize in the past for transport provisions applicable to self-reactive materials and organic peroxides, as well as potential non-compliance concerns for imported materials that were evaluated and offered for transport at different temperatures than the proposal would require in the HMR. PHMSA continues to maintain that 50 °C is the maximum temperature reasonably expected to be experienced by any self-reactive, organic peroxide, and/or polymerizing substance. This 50 °C (122 °F) temperature is consistent with existing requirements for Division 4.1 (self-reactive) and Division 5.2 (organic peroxide) hazardous materials. In the absence of further rulemaking actions, these provisions will sunset two years from the effective date of this rulemaking. See the “Comment Discussion” section of this document for a discussion on the sunset provision. See the “Comment Discussion” section of this document for full discussion.

Section 173.40

Section 173.40 provides general packaging requirements for toxic materials packaged in cylinders. In this final rule, PHMSA is revising paragraph (a)(1) to clarify that TC, CTC, CRC, and BTC cylinders authorized in § 171.12, except for acetylene cylinders, may be used for toxic materials. PHMSA received a comment from COSTHA stating that the current § 173.40(a)(1) prohibits acetylene cylinders and non-refillable cylinders from carrying toxic by inhalation gases, and that “non-refillable cylinders” seem to have been inadvertently deleted from the proposed regulatory text in the NPRM. PHMSA agrees and is adding non-refillable cylinders to this prohibition in paragraph (a)(1).

Section 173.50

Section 173.50 provides definitions for the various divisions of Class 1 (Explosive) materials referenced in part 173, subpart C. Paragraph (b) of this section notes that Class 1 (Explosive) materials are divided into six divisions and that the current definition of Division 1.6 states that “this division comprises articles which contain only extremely insensitive substances.” PHMSA is amending the definition of Division 1.6 to note that the division is made up of articles that predominately contain extremely insensitive substances. Consistent with the recent changes to the UN Model Regulations, the new definition means that an article does not need to contain solely extremely insensitive substances to be classified as a Division 1.6 material.

Section 173.52

Section 173.52 contains descriptions of classification codes for explosives assigned by the Associate Administrator. These compatibility codes consist of the division number followed by the compatibility group letter. Consistent with changes proposed to § 173.50 and those made in the UN Model Regulations, PHMSA is amending the descriptive text for the 1.6N classification code entry in the existing table in this section to indicate that these explosives are articles predominantly containing extremely insensitive substances.

Section 173.62

Section 173.62 provides specific packaging requirements for explosives. Consistent with the UN Model Regulations, PHMSA is revising § 173.62 relating to specific packaging requirements for explosives.

In paragraph (b), in the Explosives Table, the entry for “UN 0510, Rocket motors” is added and assigned Packing Instruction 130 consistent with other rocket motor entries.

In paragraph (c), in the Table of Packing Methods, Packing Instruction 112(c) is revised by adding a particular packaging requirement applicable to UN 0504 requiring that metal packagings must not be used. It is also clarified that the prohibition of metal packagings does not include packagings constructed of other material with a small amount of metal (e.g., metal closures or other metal fittings). Packing Instruction 114(b) is revised to clarify in the particular packaging requirement applicable to UN 0508 and UN 0509 that the prohibition of metal packagings does not include packagings constructed of other material with a small amount of metal (i.e., metal closures or other metal fittings). Packing Instruction 130 is revised by adding UN 0510 to the list of large and robust explosives articles that may be transported unpackaged. PHMSA received a comment from Brent Knoblett asking if a rocket motor could be classified as a 1.4C article and qualify as large and robust. Given weight to power ratios, it is unlikely that a rocket motor would have the minimal energetics that would lead to a Division 1.4C classification. However, in the interest of harmonization and the inability to rule out the possibility of a large and robust rocket motor meeting the criteria for classification as a 1.4C article, PHMSA is adopting this unpackaged article authorization as proposed.

PHMSA is adding UN 0502 to Packing Instruction P130. This addition corrects an existing error in the HMR. Packing Instruction 130 is referenced for UN 0502 but contains no mention of UN 0502 in the actual instruction. In the NPRM, we proposed amending Packing Instruction 137 by amending the particular packaging instruction applicable to UN Numbers 0059, 0439, 0440, and 0441 by replacing the marking requirement “THIS SIDE UP” with a reference to the package orientation marking prescribed in § 172.312(b). PHMSA received comments from COSTHA, DOD, and IME noting that § 172.312(b) only provides a limitation on the use of orientation arrows and does not provide details for the manner in which they are to be displayed. PHMSA agrees that the paragraph referenced in the NPRM does not provide shippers of shape charges with an indication of the appropriate marking. Therefore, in this final rule, we are changing the reference to orientation markings meeting the requirements of § 172.312(a)(2).

Section 173.121

Section 173.121 provides criteria for the assignment of packing groups to Class 3 materials. Paragraph (b)(1)(iv) provides criteria for viscous flammable liquids of Class 3—such as paints, enamels, lacquers and varnishes—to be placed in PG III on the basis of their viscosity, coupled with other criteria. In this final rule and consistent with the changes to the UN Model regulations, PHMSA is amending paragraph (b)(1)(iv) to include additional viscosity criteria that can be used as an alternative where a flow cup test is unsuitable. PHMSA received a comment from the ACA providing support for this amendment.

Section 173.124

Section 173.124 outlines defining criteria for Divisions 4.1 (Flammable solid), 4.2 (Spontaneously combustible), and 4.3 (Dangerous when wet material). Division 4.1 (Flammable solid) includes desensitized explosives, self-reactive materials, and readily combustible solids. The UN Model Regulations adopted amendments to include polymerizing materials to the list of materials that meet the definition of Division 4.1. Transport conditions for polymerizing materials are not new under the HMR.

PHMSA received questions from Arkema Inc., BAMM & MPA, and Dow about exclusions from classification as Start Printed Page 15818polymerizing substances for combustible liquids and Class 9 substances. These commenters further asked about testing requirements for materials currently identified in the HMT that may also polymerize and requested clarification that—as proposed in the NPRM—it would not be necessary to offer materials meeting the definition of a combustible liquid and a polymerizing substance as a polymerizing substance. Arkema Inc. and BAMM & MPA similarly asked if substances meeting the definitions of Class 9 and polymerizing substances need to be offered as a polymerizing substance. The definition of polymerizing substance adopted by the UN Model Regulations excludes substances that meet the criteria for inclusion in Classes 1-8. In the NPRM, we proposed to exclude all materials that meet the definition of any other hazard class. To further harmonize the HMR definition of polymerizing substances with that found in the Model Regulations, PHMSA is amending § 173.124(a)(4)(iii) to exclude substances that meet the criteria for inclusion in Classes 1-8, including combustible liquids. It is our belief that polymerizing substances that also meet the definition of Class 9 would be limited to environmentally hazardous substances. Much like the UN, we believe that the polymerizing properties of these materials should take precedence in the identification of these materials and that the applicable additional description elements (i.e., marine pollutant or “RQ” for hazardous substance) should be appropriately identified by shippers. Substances that meet the defining criteria for combustible liquids and polymerizing substances are only required to be offered for transportation as a combustible liquid.

Section 173.21 presently contains approval provisions for the transport of polymerizing materials. Unlike the present HMR requirements, the classification requirements adopted in the UN Model Regulations do not require testing to determine the rate of vapor production when heated under confinement. This rate should be the deciding factor when determining whether a polymerizing substance should be authorized for transportation in an IBC or portable tank. PHMSA is adding polymerizing materials to the list of materials that meet the definition of Division 4.1 with the additional requirement that that polymerizing substances are only authorized for transport if they pass the UN Test Series E at the “None” or “Low” level when tested for heating under confinement, or other equivalent test methods.

Specifically, we are adding a new paragraph (a)(4) that defines polymerizing materials generally and specifies defining criteria. Polymerizing materials are materials that are liable to undergo an exothermic reaction resulting in the formation of polymers under conditions normally encountered in transport. Additionally, polymerizing materials in Division 4.1 have a self-accelerating polymerization temperature of 75 °C (167 °F) or less; have an appropriate packaging determined by successfully passing the UN Test Series E at the “None” or “Low” level or by an equivalent test method; exhibit a heat of reaction of more than 300 J/g; and do not meet the definition of any other hazard class. PHMSA received questions from Arkema Inc. and Dow requesting clarification that for materials specifically listed by name in the HMT no testing is required to determine SAPT or appropriate transport provisions. Additionally, Arkema Inc. requested PHMSA more closely align our definition with that in the UN Model Regulations by including the phrase “which, without stabilization” in paragraph (a). Arkema Inc. and Dow are correct in their understanding that for materials specifically identified in the HMT by name (including n.o.s. entries) no additional testing is required to determine if the material is polymerizing. PHMSA agrees that the text as noted by Arkema Inc. is helpful in determining the applicability of the defining criteria for polymerizing substances and is making the recommended change to the definition of polymerizing substances.

PHMSA received comments from Arkema Inc., BAMM & MPA, Deltech, and DGAC raising concerns over PHMSA's proposal to require polymerizing substances intended to be transported in portable tanks or IBCs to undergo the Test Series E heating under confinement testing from the UN Manual of Tests and Criteria. The commenters stated that when polymerizing substances react in the test apparatus they often clog its orifice. They further stated this testing leads to unreliable, overly conservative results that suggest the material under test poses a greater hazard from heating under confinement than it actually does. Additionally, the commenters requested PHMSA align with the international approach for testing these substances, which only requires testing the substances under Test Series H to determine the substances SAPT.

While testing in accordance with UN Series E does present difficulties, this testing has been performed in the past in support of approval applications for various polymerizing substances. Additionally, while a clogged orifice within the Series E tests could be overly conservative, it is important to note that similar situations may occur during transport. For instance, a polymerizing substance that clogs the orifice during testing could potentially clog the pressure relief device on a portable tank. In such an incident, the testing would provide similar results to what could be expected within a transportation situation. Test Series E and H do not measure and/or predict the same phenomena. PHMSA notes Test Series E (or an equivalent performance measure) provides information on how the material behaves when heated under confinement. Test Series H provides information on the SAPT, and thus the potential need for temperature controls. These two tests are synergistic and not mutually exclusive. For these reasons, PHMSA is maintaining the testing requirements for polymerizing substances as proposed in the NPRM.

In the NPRM, PHMSA proposed to allow “equivalent test methods” to the Test Series E and specifically solicited comments on this topic. The only comment received concerning equivalent test methods was from BAMM & MPA, who noted their belief that Test Series H plus modeling could potentially provide equivalent results to Test Series E. In this final rule, PHMSA is authorizing additional test methods for determining heating under confinement with the approval of the Associate Administrator. In the absence of further rulemaking actions, this definition will sunset two years from the effective date of this rulemaking. See the “Comment Discussion” section of this document for further discussion.

Section 173.165

Section 173.165 prescribes the transport and packaging requirements for polyester resin kits. PHMSA is revising § 173.165 by adding the requirements for polyester resin kits with a flammable solid base consistent with the new HMT entry “UN 3527, Polyester resin kit, solid base material, 4.1.”

Section 173.185

Section 173.185 prescribes transportation requirements for lithium batteries. Paragraph (c) describes alternative packaging and alternative hazard communication for shipments of up to 8 small lithium cells or 2 small batteries per package (up to 1 gram per Start Printed Page 15819lithium metal cell, 2 grams per lithium metal battery, 20 Wh per lithium ion cell, and 100 Wh per lithium ion battery). Specifically, PHMSA is amending paragraph (c) to require strong outer packagings for small lithium cells or batteries to be rigid and to replace the current text markings that communicate the presence of lithium batteries and the flammability hazard that exists if damaged with a single lithium battery mark. The package must be of adequate size that the lithium battery mark can be displayed on one side of the package without folding. In addition, the lithium battery mark will be required to appear on packages containing lithium cells or batteries, or lithium cells or batteries packed with, or contained in, equipment when there are more than two packages in the consignment. This requirement would not apply to a package containing button cell batteries installed in equipment (including circuit boards) or when no more than four lithium cells or two lithium batteries are installed in the equipment. We are further clarifying what is meant by the term “consignment” by defining the term used in § 173.185 as one or more packages of hazardous materials accepted by an operator from one shipper at one time and at one address, receipted for in one lot and moving to one consignee at one destination address.

PRBA submitted a comment to the NPRM noting that PHMSA's proposed definition for “consignment” would be applied to all modes of transport and that, while ICAO's definition applies only to air transportation, the proposed text is consistent with that found in the ICAO Technical Instructions. The ICAO Technical Instructions, IMDG Code, and UN Model Regulations do not have the same definition for “consignment.” Therefore, PRBA requested PHMSA amend the definition of consignment to indicate that it is only applicable to transportation by air. PRBA is correct that the definitions for “consignment” vary slightly between the various international standards. However, we note that the UN Model Regulations, IMDG Code, and ICAO Technical Instructions all include the term “consignment” when referencing exceptions from the lithium battery mark. The intent of these standards is to require the marking when multiple packages are offered from one shipper to one consignee. The definition as proposed in the NPRM best represents this requirement and allows for consistent application across all modes of transportation. PHMSA notes that under the HMR this definition is limited to its usage in § 173.185. Therefore, we are amending the definition of “consignment” as proposed in the NPRM.

Under current HMR requirements, a package of cells or batteries that meets the requirements of § 173.185(c) may be packed in strong outer packagings that meet the general requirements of §§ 173.24 and 173.24a instead of the standard UN performance packaging. Lithium batteries packed in accordance with § 173.185(c) must be packed in strong outer packagings that meet the general packaging requirements of §§ 173.24 and 173.24a and be capable of withstanding a 1.2 meter (3.9 ft) drop test without damage to the cells or batteries contained in the package, shifting of the contents that would allow battery-to-battery or cell-to-cell contact, or release of contents. Alternative hazard communication requirements also apply. The Class 9 label is replaced with text indicating the presence of lithium batteries; an indication that the package must be handled with care and that a flammability hazard exists if damaged; procedures to take in the event of damage; and a telephone number for additional information. Instead of a shipping paper, the shipper can provide the carrier with an alternative document that includes the same information as provided on the package.

In this rulemaking, PHMSA is replacing the existing text for marking requirements in § 173.185(c)(3) with a standard lithium battery mark for use in all transport modes and to remove the requirement in § 173.185(c)(3) for shippers to provide an alternative document. The lithium battery mark communicates key information (i.e., the package contents and that a flammability hazard exists if damaged). The mark utilizes recognizable symbols that permit transport workers and emergency responders to quickly ascertain the package contents and take appropriate action. A single mark that is understood and accepted for all transport modes will increase the effectiveness. A transition period until December 31, 2018, is provided to allow adequate time for shippers to transition the new lithium battery mark and exhaust existing stocks of preprinted packagings or markings. UPS asks if the transition period also includes the requirement to mark packages when there are more than two packages per consignment of lithium ion or metal batteries contained in equipment. As proposed this transition was only intended to apply to the requirements for the mark itself and not to the exception from marking. After reviewing the international standards this rulemaking is harmonizing the HMR with, PHMSA has determined that for modes of transportation other than air an additional year was provided for consignment limit changes. In this final rule, PHMSA is amending § 173.185(c)(3(ii) to state that for modes of transportation other than by aircraft the provisions in paragraph (c)(3), including the exceptions from marking, in effect on December 31, 2016 may continue to be used until December 31, 2018. For transportation by aircraft only the provisions concerning the lithium battery handling marking itself in paragraph (c)(3)(ii) may be used until December 31, 2018. The current documentation requirement is redundant given the existing marking requirement and provides minimal additional safety value to that provided by the mark.

At the 49th session of the UN Sub-Committee, a late design revision to the lithium battery mark was adopted to authorize the mark on a background of “suitable contrasting color” in addition to white. This is consistent with design requirements for limited quantity marks and other marks in the Model Regulations. In this rulemaking, PHMSA is allowing the mark on a background of suitable contrasting color in addition to white.

Additionally, PHMSA is amending § 173.185(c)(2) and (c)(3)(i) to specify that outer packagings used to contain small lithium batteries must be rigid and of adequate size so the handling mark can be affixed on one side without the mark being folded. The HMR currently do not prescribe minimum package dimensions or specific requirements for package performance other than the requirements described in §§ 173.24 and 173.24a. We are aware of several instances in which either the package dimensions were not adequate to accommodate the required marks and labels or the package was not sufficiently strong to withstand the rigors of transport. These amendments will enhance the communication and recognition of lithium batteries and better ensure that packaging is strong enough to withstand normal transport conditions. PHMSA received comments from COSTHA, DGAC, Labelmaster Services, and PRBA requesting that an exception from the requirement for rigid packaging for batteries contained in equipment be provided if the equipment that contains the battery offers an equivalent level of protection. COSTHA noted some key fobs and remote control devices as examples of equipment that generally provide an equivalent level of Start Printed Page 15820protection to a rigid packaging, further noting that these devices are currently shipped in padded envelopes safely. PHMSA agrees that rigid packaging is not necessary if the equipment containing lithium batteries provides a level of protection that is equivalent to rigid packaging and is therefore amending paragraph (c)(2) to address these comments.

PHMSA is amending § 173.185(e) to permit the transport of prototype and low production runs of lithium batteries contained in equipment. These amendments are mostly consistent with amendments adopted into the 19th Revised Edition of the UN Model Regulations and Amendment 38-16 of the IMDG Code, which authorize the transportation of prototype and low production runs of lithium batteries contained in equipment in packaging tested to the PG II level. The ICAO Technical Instructions authorize the transportation of prototype and low production runs of lithium batteries contained in equipment in packaging tested to the PG I level. In the NPRM, PHMSA proposed to continue to require prototype and low production batteries to be placed in packaging tested to the PG I performance level. We believe that the higher integrity packaging provides an additional layer of protection for cells and batteries not otherwise subjected to the UN design tests.

PRBA stated in their comment that PHMSA proposed to require PG I packaging and prohibit the use of fiberboard boxes when shipping prototype and low production lithium batteries by motor vehicle or vessel. PRBA noted this change is not consistent with the UN Model Regulations and IMDG Code because both standards authorize the use of PG II packaging and 4G fiberboard boxes. They further stated this lack of harmonization, particularly with the IMDG Code, will create compliance problems for our members shipping prototype or low production lithium batteries into the U.S. in accordance with the IMDG Code. Nothing in subpart C of part 171 would prohibit prototype or low production run batteries from being transported in accordance with the packaging authorizations in the IMDG Code (i.e., a 4G fiberboard box at the PG II performance level) as authorized by § 171.22. PRBA requests PHMSA authorize a PG II 4G fiberboard box for shipments offered for transportation by motor vehicle and vessel and a PG I 4G fiberboard box for transportation by aircraft.

PHMSA notes that the proposals in the NPRM were primarily to provide authorizations for prototype or low production run batteries contained in equipment and additional flexibility in packaging multiple batteries and equipment in tested packaging, using existing packaging authorizations for the batteries to determine appropriate packaging. PRBA further noted that if PHMSA prohibits the use of PG I 4G fiberboard boxes for shipping prototype or low production lithium batteries by air, the HMR will conflict with the requirements of the ICAO Technical Instructions and will not comply with Section 828 of the Federal Aviation Administration (FAA) Modernization and Reform Act of 2012. Shipments of prototype batteries require an approval for air transport. If the shipper wishes to offer by air in a PG I 4G fiberboard box, they may request such authorization in their approval request. Each request will be examined on its own merits.

Consistent with changes to the UN Model Regulations, the IMDG Code, and the ICAO Technical Instructions, PHMSA is adding a new paragraph (e)(7) to require shipments of low production runs and prototype lithium batteries to note conformance with the requirements of § 173.185(e) on shipping papers.

Additionally, PHMSA is amending § 173.185(f)(4) to harmonize with a requirement in the 19th Revised Edition of the UN Model Regulations that the “Damaged/defective lithium ion battery” and/or “Damaged/defective lithium metal battery” marking as appropriate be in characters at least 12 mm (0.47 inches) high.

Section 173.217

Section 173.217 establishes packaging requirements for dry ice (carbon dioxide, solid). Paragraph (c) prescribes additional packaging requirements for air transport. Consistent with the ICAO Technical Instructions, PHMSA is removing the term “other type of pallet” in paragraph (c)(3) that excepts dry ice being used as a refrigerant for other non-hazardous materials from the quantity limits per package shown in columns (9A) and (9B) of the § 172.101 HMT.

Section 173.220

Section 173.220 prescribes transportation requirements and exceptions for internal combustion engines, vehicles, machinery containing internal combustion engines, battery-powered equipment or machinery, and fuel cell-powered equipment or machinery. The UN Model Regulations adopted amendments to the existing UN 3166 engine and vehicle entries during the last biennium. These changes are continuations of efforts undertaken by the UN Sub-Committee to ensure appropriate hazard communication is provided for engines containing large quantities of fuels.

The 17th Edition of the UN Model Regulations added special provision 363, which required varying levels of hazard communication depending on the type and quantity of fuel present, in attempts to ensure the hazards associated with engines containing large quantities of fuel were sufficiently communicated. PHMSA did not adopt the provisions found in special provision 363 at the time they were introduced.

As previously discussed in the review of the new HMT entries, the existing UN 3166 identification number was maintained for the various vehicle entries in the Model Regulations, and three new UN identification numbers and proper shipping names were created for engines or machinery internal combustion and assigned a hazard classification based on the type of fuel used. The three new UN numbers and proper shipping names are as follows: A Class 3 entry “UN 3528, Engine, internal combustion engine, flammable liquid powered, or Engine fuel cell, flammable liquid powered, or Machinery, internal combustion, flammable liquid powered, or Machinery, fuel cell, flammable liquid powered”; a Division 2.1 entry “UN 3529, Engine, internal combustion engine, flammable gas powered, or Engine fuel cell, flammable gas powered, or Machinery, internal combustion, flammable gas powered, or Machinery, fuel cell, flammable gas powered”; and a Class 9 entry “UN 3530, Engine, internal combustion, or Machinery, internal combustion.”

Consistent with the UN Model Regulations, PHMSA is adding to the HMR the new UN identification numbers and proper shipping names for engines and machinery. PHMSA is maintaining the existing transportation requirements and exceptions for engines and machinery found in § 173.220 for all modes of transportation other than vessel. To harmonize as closely as possible with Amendment 38-16 of the IMDG Code, PHMSA is making the following amendments to § 173.220: (1) Amending paragraph (b)(1)(ii) to include a reference to engines powered by fuels that are marine pollutants but do not meet the criteria of any other Class or Division; (2) amending paragraph (b)(4)(ii) to include a reference to the proposed new § 176.906 containing requirements for shipments of engines or machinery offered for transportation by vessel; (3) amending paragraph (d) to authorize the Start Printed Page 15821transportation of securely installed prototype or low production run lithium batteries in engines and machinery by modes of transportation other than air; and (4) adding paragraph (h)(3) to include references to existing and amended exceptions for vehicles, engines, and machinery in §§ 176.905 and 176.906.

ICAO adopted a provision that requires battery-powered vehicles that could be handled in other than an upright position to be placed into a strong rigid outer package. This provision better ensures that small vehicles—particularly those powered by lithium batteries—are adequately protected from damage during transport. In this final rule, PHMSA is amending paragraphs (c) and (d) consistent with this requirement. However, while ICAO's requirement is specific to air transport, we are further applying this requirement to transportation by all transport modes for greater overall benefit.

Section 173.221

Section 173.221 prescribes the packaging requirements for Polymeric beads (or granules), expandable, evolving flammable vapor. PHMSA is adding a procedure for declassification of polymeric beads, expandable. PHMSA received a comment from UPS supporting this amendment and is adopting it as proposed in the NPRM.

Section 173.225

Section 173.225 prescribes packaging requirements and other provisions for organic peroxides. Consistent with the UN Model Regulations, PHMSA is revising the Organic Peroxide Table in paragraph (c) by amending the entries for: “Dibenzoyl peroxide,” “tert-Butyl cumyl peroxide,” “Dicetyl peroxydicarbonate,” and “tert-Butyl peroxy-3,5,5-trimethylhexanoate.” PHMSA received one comment from DGAC noting two editorial errors in the proposed Organic Peroxide Table in paragraph (c). In this final rule, the entry “Di-2,4-dichlorobenzoyl peroxide [as a paste]” is revised by moving the text in columns (5), (6), and (7) by one position to the right into columns (6), (7), and (8); and the entry “1,1-Di-(tert-butylperoxy)cyclohexane + tert-Butyl peroxy-2-ethylhexanoate” is added for consistency with the UN Model Regulations. We are revising the Organic Peroxide IBC Table in paragraph (e) to maintain alignment with the UN Model Regulations by adding new entries for “tert-Butyl cumyl peroxide” and “1,1,3,3-Tetramethylbutyl peroxy-2-ethylhexanoate, not more than 67%, in diluent type A” and adding a type 31HA1 IBC authorization to the existing entry for “Di-(2-ethylhexyl) peroxydicarbonate, not more than 62%, stable dispersion, in water.” We are republishing the complete Organic Peroxide and Organic Peroxide IBC tables to ensure the revisions are correctly inserted and adding the missing “UN” code to several identification numbers assigned to existing entries in the Organic Peroxide Table.

Section 173.301

Section 173.301 prescribes general requirements for shipment of compressed gases and other hazardous materials in cylinders, UN pressure receptacles, and spherical pressure vessels. PHMSA is amending the list of authorized packaging specifications in paragraph (a)(1) by adding a new footnote (1) and assigning it to the “packagings” heading. This footnote directs readers to § 171.12(a)(4)(iii) to determine authorized Canadian cylinders that correspond with DOT specification cylinders. Additionally, PHMSA is amending paragraph (a)(2) to address filling of TC cylinders. As TC cylinders are metric marked and their filling requirements vary slightly between the TDG Regulations and the HMR, PHMSA is requiring that TC cylinders be filled in accordance with the TDG Regulations. The remaining Canadian cylinders authorized in this rulemaking must be filled in accordance with the requirements of part 173. In a comment to the NPRM, Worthington Cylinder Corporation stated that TC cylinders have the service pressure marked in bar while DOT cylinders are marked in psi. They further noted that TC marked cylinders for liquefied gases have the tare weight and water capacity metric marked (kg and liter) and asked what action PHMSA has taken to assure fillers know how to convert these metric units to U.S. standard units. PHMSA is aware of the differences in metric markings on TC cylinders compared to DOT specification cylinders. In this final rule, we are requiring that TC cylinders be filled in accordance with the TDG requirements. There is a table of conversion factors in § 171.10 to assist fillers in appropriately converting from metric to U.S. standard. Additionally, PHMSA plans to produce guidance material shortly after publication of this rulemaking for both fillers and requalifiers of Canadian cylinders.

Additionally, Worthington Cylinder Corporation stated the National Fire Protection Association (NFPA) document NFPA-58 presently does not permit TC cylinders to be filled with LP-Gas and asked if PHMSA considered this a conflict in regulations. PHMSA does not see an authorization to requalify, fill, or transport a Canadian cylinder with liquefied petroleum gas as a conflict with the requirements of NFPA-58. However, PHMSA may consult with NFPA on the appropriateness of updating their standard to include references to Canadian cylinders in the future.

Section 173.301b

Section 173.301b contains additional general requirements for shipment of UN pressure receptacles. PHMSA is amending paragraph (a)(2) to include the most recent ISO standard for UN pressure receptacles and valve materials for non-metallic materials in ISO 11114-2:2013. Additionally, we are amending paragraph (c)(1) to include the most recent ISO standard on cylinder valves ISO 10297:2014. This paragraph also contains end dates for when the manufacture of cylinders and service equipment is no longer authorized in accordance with the outdated ISO standard. Finally, we are revising § 173.301b(g) to amend a reference to marking requirements for composite cylinders used for underwater applications. The current reference to the “UW” marking in § 173.301b(g) direct readers to § 178.71(o)(17), while the correct reference for the “UW” marking is actually § 178.71(q)(18).

Section 173.303

Section 173.303 prescribes requirements for the charging of cylinders with compressed gas in solution (acetylene). PHMSA is amending paragraph (f)(1) to require UN cylinders for acetylene use to comply with the current ISO standard ISO 3807:2013. This paragraph also contains end dates for when the manufacture of cylinders and service equipment is no longer authorized in accordance with the outdated ISO standard.

Section 173.304b

Section 173.304b prescribes filling requirements for liquefied gases in UN pressure receptacles. The UN Model Regulations amended packing instruction P200 by adding requirements for liquefied gases charged with compressed gases. In this rulemaking, PHMSA is amending § 173.304b specifically by adding a new paragraph (b)(5) to include filling limits when a UN cylinder filled with a liquefied gas is charged with a compressed gas. We are not including similar filling limits for DOT specification cylinders filled with a Start Printed Page 15822liquefied gas and charged with a compressed gas, as we feel the situation is adequately addressed by the requirements found in § 173.301(a)(8).

Section 173.310

Section 173.310 provides the transport conditions for certain specially designed radiation detectors containing a Division 2.2 (Non-flammable) gas. The 19th Revised Edition of the UN Model Regulations added a new special provision 378 applicable to radiation detectors containing certain Division 2.2 gases. Special provision 378 outlines conditions for the use of a non-specification pressure receptacle and strong outer packaging requirements. As § 173.310 currently prescribes similar transport conditions for radiation detectors containing Division 2.2 gases, we are not adding a new special provision.

Consistent with special provision 378 of the UN Model Regulations, PHMSA is making the following revisions to the transport conditions in § 173.310: [1] In the section header, clarify that Division 2.2 gases must be in non-refillable cylinders; [2] in paragraph (b), increase the maximum design pressure from 4.83 MPa (700 psig) to 5.00 MPa (725 psig) and increase the capacity from 355 fluid ounces (641 cubic inches) to 405 fluid ounces (731 cubic inches); [3] in new paragraph (d), require specific emergency response information to accompany each shipment and be available from the associated emergency response telephone number; [4] in new paragraph (e), require that transport in accordance with this section be noted on the shipping paper; and [5] in new paragraph (f), except radiation detectors, including detectors in radiation detection systems, containing less than 50 ml (1.7 fluid ounces) capacity, from the requirements of the subchapter if they conform to paragraphs (a) through (d) of this section.

PHMSA received one comment from UPS suggesting a revision to paragraphs (e) and (f) to clarify that radiation detectors, including detectors in radiation detection systems, containing less than 50 ml (1.7 fluid ounces) capacity are not subject to shipping paper requirements. Although consistent with special provision 378 of the UN Model Regulations, PHMSA agrees that the proposed text in paragraph (e) requiring that transport in accordance with this section must be noted on the shipping paper may be misinterpreted to also apply to radiation detectors excepted from the requirements of the subchapter in paragraph (e). Therefore, in efforts to avoid confusion, PHMSA is revising paragraphs (e) and (f) as suggested by UPS.

In the NPRM, the proposed text for the conversion from 50 ml to fluid ounces was 1.69. Consistent with other 50 ml provisions in the HMR we are indicating the conversion at 1.7 ounces.

Section 173.335

Section 173.335 contains requirements for cylinders filled with chemicals under pressure. The 19th Revised Edition of the UN Recommendations includes new instructions in P200 and P206 on how to calculate the filling ratio and test pressure when a liquid phase of a fluid is charged with a compressed gas. PHMSA is revising the requirements of § 173.335 for chemical under pressure n.o.s. to include a reference to § 173.304b, which specifies additional requirements for liquefied compressed gases in UN pressure receptacles. PHMSA is further amending § 173.304b specifically by adding a new paragraph (b)(5) to include these filling and test pressure requirements consistent with the UN Recommendations. See “Section 173.304b” for further discussion.

Part 175

Section 175.10

Section 175.10 specifies the conditions for which passengers, crew members, or an operator may carry hazardous materials aboard an aircraft. Paragraph (a)(7) permits the carriage of medical or clinical mercury thermometers, when carried in a protective case in carry-on or checked baggage. Consistent with revisions to the ICAO Technical Instructions, in this final rule, PHMSA is revising paragraph (a)(7) by limiting thermometers containing mercury to checked baggage only. PHMSA received no comments on this proposed amendment and is adopting the changes as proposed in the NPRM.

Section 175.25

Section 175.25 prescribes the notification that operators must provide to passengers regarding restrictions on the types of hazardous material they may or may not carry aboard an aircraft either on their person or in checked or carry-on baggage. Passenger notification of hazardous materials restrictions addresses the potential risks that passengers can introduce on board aircraft. PHMSA's predecessor, the Materials Transportation Bureau, introduced passenger notification requirements in 1980 [Docket No. HM-166B; 45 FR 13087]. Although this section had been previously amended to account for ticket purchase or check-in via the internet, new technological innovations have continued to outpace these provisions. Notwithstanding the several rounds of revisions, the rule remains unduly prescriptive.

The 2017-2018 ICAO Technical Instructions have removed prescriptive requirements concerning the manners in which information concerning dangerous goods that passengers are forbidden to transport must be conveyed to passengers. Specifically, they have done so by removing references to the phrases “prominently displayed” and “in sufficient numbers.” Additional changes to the ICAO Technical Instructions include removal of prescriptive requirements that the information be in “text or pictorial form” when checking in remotely, or “pictorial form” when not checking in remotely. ICAO's decision to move to a performance-based requirement will account for changes in technology as well as the unique characteristics of some air carrier operations. ICAO noted that these provisions lagged behind the latest technology and could sometimes hinder the effectiveness and efficiency of notifying passengers about hazardous materials. To account for the utilization of different technologies as well as air carrier specific differences in operating or business practices, ICAO adopted changes that require air carriers to describe their procedures for informing passengers about dangerous goods in their operations manual and/or other appropriate manuals.

PHMSA agrees with this approach and is harmonizing with the amendments made to the ICAO Technical Instructions part 7; 5.1. Harmonization is appropriate not only to account for evolving technologies or air carrier specific conditions, but also because we believe that this amendment will result in a more effective notification to passengers.

Under the revisions to § 175.25, in accordance with 14 CFR parts 121 and 135, air carriers operating under 14 CFR part 121 or 135 will need to describe their procedures in an operations manual and/or other appropriate manuals in accordance with the applicable provisions of 14 CFR. The manual(s) will be required to provide procedures and information necessary to allow personnel to implement and maintain their air carrier's specific passenger notification system. Aside from the manual provisions, all persons engaging in for hire air transportation of passengers will continue to be subject to § 175.25.Start Printed Page 15823

PHMSA received a comment from COSTHA stating that existing requirements provide a clear standard to which all air operators are held. Removal of this requirement, while giving air operators flexibility in providing such notification, may lead to various interpretations of what is required for notification. Operational manuals are subject to review and approval by different FAA regions. It is the opinion of the commenter that varying interpretations could lead operators to have different requirements in their operational manuals, thereby putting other operators in different regions at a competitive disadvantage. COSTHA further noted an FAA-sponsored Aviation Rulemaking Committee (ARC) for Passenger Notification of Hazardous Materials Regulations that resulted in a report and draft Advisory Circular (AC) finalized in November 2013. The AC was not issued by the FAA. COSTHA maintained that the recommendations on passenger notification systems contained in the AC are valid and would provide a better option than simply removing the prescriptive text from the HMR. COSTHA requested PHMSA discuss the results of the ARC with FAA before modifying the current language in § 175.25. PHMSA is aware of the recommendations resulting from the ARC meetings. The FAA intends to produce and distribute guidance material to assist operators and the FAA in determining an effective passenger notification system. The FAA will utilize the ARC report recommendations, ICAO Technical Instructions Supplement information, and any other available information in the drafting of the guidance material.

Section 175.33

Section 175.33 establishes requirements for shipping papers and the notification of the pilot-in-command when hazardous materials are transported by aircraft. The pilot notification requirements of part 7; 4.1.1.1 of the ICAO Technical Instructions include an exception for consumer commodities (ID8000) to allow for the average gross mass of the packages to be shown instead of the actual gross mass of each individual package. This exception is limited to consumer commodities offered to the operator by the shipper in a unit load device (ULD). Consistent with the ICAO Technical Instructions packing instruction applicable to consumer commodities (PI Y963), which permits the shipper to show on the shipping paper either the actual gross mass of each package or the average gross mass of all packages in the consignment, the notification to the pilot-in-command requirement for consumer commodities was revised to remove the exception applicability to ULDs only. This exception did not previously exist under the HMR. In this final rule, PHMSA is revising § 175.33(a)(3) by adding the text “For consumer commodities, the information provided may be either the gross mass of each package or the average gross mass of the packages as shown on the shipping paper.” This revision aligns the consumer commodity notification of the pilot-in-command requirements in the HMR with the ICAO Technical Instructions. PHMSA received a comment from UPS providing general support for this amendment. See “Section 172.202” for related changes in this final rule.

Section 175.75

Section 175.75 prescribes quantity limitation and cargo location requirements for hazardous materials carried aboard passenger-carrying and cargo-only aircraft. PHMSA received comments from Alaska Airlines, COSTHA, UPS, and an anonymous commenter noting impacts on aircraft loading requirements as a result of incorporating new UN identification numbers and proper shipping names for engines and machinery. In accordance with § 175.75(c), an aircraft operator must not load more than 25 kg (55 lbs) of hazardous materials in an inaccessible manner on a passenger-carrying aircraft; however, there is an exception for Class 9 materials. In addition, paragraph (e)(1) excepts Class 9 materials from the 25 kg limitation when loaded in an inaccessible manner aboard cargo-only aircraft. The commenters noted that as a result of separating engines and machinery from the Class 9 entry for vehicles (UN 3166) and creating new hazardous materials table entries in Class 2.1 (UN 3529) and Class 3 (UN 3528), these materials that have historically been excepted from the 25 kg limit when loaded in an inaccessible manner would now be subject to this restriction. The commenters also noted that paragraph (e)(1) excepts Class 3, PG III materials (unless also labeled as a corrosive) from the 25 kg limit; however, the new entry UN 3528 is not assigned to a packing group and therefore not eligible for the exception. COSTHA also commented, “Aircraft operators routinely ship engines for overhaul and repair. As Class 9 materials, these have been transported safely without incident for years.”

Consistent with the UN Model Regulations, PHMSA is adding to the HMR the new UN identification numbers and proper shipping names for engines and machinery while maintaining the existing transportation requirements and exceptions for engines and machinery for all modes of transportation other than vessel. It was never our intent to subject these articles that have historically received relief from the accessibility requirements of § 175.75 to these requirements. An article with identification numbers UN 3528 or UN 3529—and properly packaged accordance with § 173.220—is excepted from the requirements of § 175.75(c) and (e)(1). In this final rule, we are making clarifying amendments to paragraphs § 175.75(c) and (e)(1) and adding a new provision to Note 1 in paragraph (f), in the QUANTITY AND LOADING TABLE.

Section 175.900

Section 175.900 prescribes the handling requirements for air carriers that transport dry ice. Consistent with the ICAO Technical Instructions, PHMSA is removing the phrase “other type of pallet” with regard to packages containing dry ice prepared by a single shipper. See “Section 173.217” of this rulemaking for a detailed discussion of the revision.

Part 176

Section 176.83

Section 176.83 prescribes segregation requirements applicable to all cargo spaces on all types of vessels and to all cargo transport units. Paragraph (a)(4)(ii) has several groups of hazardous materials of different classes, which comprise a group of substances that do not react dangerously with each other and that are excepted from the segregation requirements of § 176.83. Consistent with changes made in Amendment 38-16 of the IMDG Code, PHMSA is adding a new group of hazardous materials that do not react dangerously with each other to this paragraph. The following materials are added in a new paragraph (a)(4)(ii)(C): “UN 3391, Organometallic substance, solid, pyrophoric”; “UN 3392, Organometallic substance, liquid, pyrophoric”; “UN 3393, Organometallic substance, solid, pyrophoric, water-reactive”; “UN 3394, Organometallic substance, liquid, pyrophoric, water-reactive”; “UN 3395, Organometallic substance, solid, water-reactive”; “UN 3396, Organometallic substance, solid, water-reactive, flammable”; “UN 3397, Organometallic substance, solid, water-reactive, self-heating”; “UN 3398, Start Printed Page 15824Organometallic substance, liquid, water-reactive”; “UN 3399, Organometallic substance, liquid, water-reactive, flammable”; and “UN 3400, Organometallic substance, solid, self-heating.”

Section 176.84

Section 176.84 prescribes the meanings and requirements for numbered or alpha-numeric stowage provisions for vessel shipments listed in column (10B) of the § 172.101 HMT. The provisions in § 176.84 are broken down into general stowage provisions, which are defined in the “table of provisions” in paragraph (b), and the stowage provisions applicable to vessel shipments of Class 1 explosives, which are defined in the table to paragraph (c)(2). PHMSA is creating a new stowage provision 149 and assigning it to the new UN 3528 engines or machinery powered by internal combustion engine flammable liquid entry. This new stowage provision requires engines or machinery containing fuels with a flash point equal or greater than 23 °C (73.4 °F) to be stowed in accordance with the stowage requirements of stowage Category A. Engines and machinery containing fuels with a flash point less than 23 °C (73.4 °F) are required to comply with the requirements of stowage Category E.

Additionally, consistent with Amendment 38-16 of the IMDG Code, PHMSA is creating a new stowage provision 150 to replace existing stowage provision 129 for “UN 3323, Radioactive material, low specific activity (LSA-III) non fissile or fissile excepted.” This new stowage provision requires that any material that is classified as UN 3323, which is either uranium metal pyrophoric or thorium metal pyrophoric, be stowed in accordance with stowage Category D requirements.

Section 176.905

Section 176.905 prescribes transportation requirements and exceptions for vessel transportation of motor vehicles and mechanical equipment. PHMSA is revising § 176.905 to update the transport requirements and exceptions for vehicles transported by vessel. These changes are necessary to remove references to machinery (see “Section 176.906”) and to maintain consistency with changes made in Amendment 38-16 of the IMDG Code.

The changes being made to the transport requirements for vehicles transported by vessel are as follows: [1] In paragraph (a)(2) for flammable liquid powered vehicles, the requirement that flammable liquid must not exceed 250 L (66 gal) unless otherwise approved by the Associate Administrator; [2] in paragraph (a)(4), the authorization to transport vehicles containing prototype or low production run batteries securely installed in vehicles; [3] also in paragraph (a)(4), the requirement that damaged or defective lithium batteries must be removed and transported in accordance with § 173.185(f); and [4] in paragraph (i)(1)(i), the inclusion of text to ensure the lithium batteries in vehicles stowed in a hold or compartment designated by the administration of the country in which the vessel is registered as specially designed and approved for vehicles have successfully passed the tests found in the UN Manual of Tests and Criteria (except for prototypes and low production runs).

Section 176.906

Consistent with changes made in Amendment 38-16 of the IMDG Code, PHMSA is creating a new section § 176.906 to prescribe transportation requirements for engines and machinery. Requirements found in paragraphs (a)-(h) are identical to existing requirements for engines and machinery contained in § 176.905, and their reproduction in this section is made necessary by the splitting of the provisions for engines/machinery and vehicles. Paragraph (i) contains exceptions that are divided into two separate categories: [1] Engines and machinery meeting one of the conditions provided in (i)(1), which are not subject to the requirements of subchapter C of the HMR; and [2] engines and machinery not meeting the conditions provided in (i)(1), which are subject to the requirements found in (i)(2) that prescribe general conditions for transport and varying degrees of hazard communication required for engines and machinery based on the actual fuel contents and capacity of the engine or machinery. IVODGA noted in their comment that § 172.203(i)(2) requires a flashpoint be provided on shipping papers for hazardous materials with a flashpoint at or below 140 °F and requested that PHMSA add a reference to this requirement in paragraph (i)(2)(v) to ensure shippers are aware that they must provide this information. PHMSA believes the requirement is sufficiently clear. The creation of the new Class 3 entries will enhance hazard communication of engines offered for transportation by vessel as well as ensure this flashpoint information is conveyed to carriers.

Tables 7 and 8 provide a summary of the hazard communication requirements for vessel transportation of engines and machinery that are not empty of fuel based on fuel content and capacity. The column titled “Additional Hazard Communication Requirements” indicates requirements that will differ from existing hazard communication requirements for engines or machinery.

Part 178

Section 178.71

Section 178.71 prescribes specifications for UN pressure receptacles. Consistent with the UN Model Regulations, PHMSA is amending paragraphs (d)(2), (h), (k)(2), and (l)(1) to reflect the adoption of the latest ISO standards for the design, construction, and testing of gas cylinders and their associated service equipment. Paragraph (l)(1) will require that composite cylinders be designed for a design life of not less than 15 years, as well as that composite cylinders and tubes with a design life longer than 15 years must not be filled after 15 years from the date of manufacture, unless the design has successfully passed a service life test program. The service life test program must be part of the initial design type approval and must specify inspections and tests to demonstrate that cylinders manufactured accordingly remain safe to the end of their design life. The service life test program and the results must be approved by the competent authority of the country of approval that is responsible for the initial approval of the cylinder design. The service life of a composite cylinder or tube must not be extended beyond its initial approved design life. These paragraphs also contain end dates for when the manufacture of cylinders and service equipment is no longer authorized in accordance with the outdated ISO standard.

PHMSA received a comment from Western International Gas Cylinders asking several questions about the requirements for service life test programs. Specifically, they asked: (1) Whether DOT would maintain a database of service life extensions that a requalifier will be able to search or if we plan to mandate the cylinder manufacturers maintain the information; and (2) if DOT will require the manufacturers to post this information on their Web sites. Information concerning service life extensions will be available from both PHMSA and the manufactures.

Additionally, consistent with the UN Model Regulations, PHMSA is revising paragraph (o)(2) to adopt the current ISO standard relating to material compatibility and adding paragraph (g)(4) to adopt the current ISO standard relating to design, construction, and testing of stainless steel cylinders with an Rm value of less than 1,100 MPa.

Finally, paragraphs (q) and (r) are revised to indicate the required markings for composite cylinders and tubes with a limited design life of 15 years or for cylinders and tubes with a design life greater than 15 years, or a non-limited design life.

PHMSA received a comment from Christopher Adams asking if we intended to replace the authorization to use a valve conforming to the requirements in ISO 10297:1999 with the transition date for the use of valves conforming to ISO 10297:2006. PHMSA intentionally left the references to all three ISO 10297 standards to mirror the authorizations shown in the UN Model Regulations. Additionally, PHMSA received comments from Wesley Scott and Western International Gas Cylinders requesting that the current § 178.71(h) prohibition on the use of aluminum alloy 6351-T6 or equivalent be extended to alloy 6082 for cylinders authorized under ISO 7866:1999. The commenters stated that alloy 6082 is known to ISO Working Group 11 and that it develops sustained load cracks similar in manner to those developed when using aluminum alloy 6351-T6. PHMSA is not aware of anyone manufacturing with this particular alloy but will continue to monitor the ongoing work at ISO and consider changes as addressed by the international community.

Section 178.75

Section 178.75 contains specifications for Multiple-element gas containers (MEGCs). Consistent with the UN Model Regulations, PHMSA is renumbering existing paragraph (d)(3)(iv) as (d)(3)(v) and adding a new paragraph (d)(3)(iv) to incorporate ISO 9809-4:2014 for stainless steel cylinders with an Rm value of less than 1,100 MPa.

Section 178.1015

Section 178.1015 prescribes general standards for the use of flexible bulk containers (FBCs). Consistent with changes to the UN Model Regulations, PHMSA is revising paragraph (f) to require that FBCs be fitted with a vent that is designed to prevent the ingress of water in situations where a dangerous accumulation of gases may develop absent such a vent. It is our understanding that only one particular material authorized for transportation in FBCs—UN 3378, Sodium carbonate peroxyhydrate—is known to decompose causing a dangerous accumulation of gas.

Part 180

Section 180.205

Section 180.205 outlines general requirements for requalification of specification cylinders. In the NPRM, PHMSA proposed amending paragraph (c) to require that Transport Canada cylinders be requalified and marked in accordance with the Transport Canada TDG Regulations. CTC Certified Training Co. commented stating that CRC, BTC, and CTC are the same as DOT specification cylinders and should be allowed to be requalified to either the Transport Canada TDG Regulations or under the provisions of the HMR. PHMSA agrees and is amending paragraph (c) to require CRC, BTC, or CTC cylinders be requalified and marked as specified in the Requalification Table in this subpart or requalified and marked by a facility registered by Transport Canada in accordance with the TDG Regulations. Canadian specification cylinders marked solely with TC must be requalified in accordance with the Transport Canada TDG Regulations. Cylinders that are dual marked with both TC and a corresponding DOT specification marking may be requalified to either the Transport Canada TDG Regulations or the provisions of the HMR.

PHMSA received a comment from Christopher Adams noting a typographical error in paragraph (c)(4). Mr. Adams noted that the current HMR text has “3AXX” instead of “3AAX” and requested PHMSA make this correction. We agree with the commenter that this is a typographical error and are making the suggested change. CTC Training Co. commented stating the TDG Regulations reference CSA B339, which references CGA C-1 (not referenced in the HMR) for the testing of cylinders, and other different versions of CGA pamphlets for visual inspection of cylinders not referenced by the HMR. The commenter further stated that requiring a DOT RIN holder to requalify a cylinder in accordance with the TDG Regulations places an unnecessary financial burden on the retester to purchase all of these differing versions of CGA pamphlets, as well as the challenge to try to determine which version to use for which cylinder they are requalifying. PHMSA notes that while the TDG Regulations do incorporate some cylinder requalification standards that are not in the HMR, there is no requirement for a requalifier to requalify TC cylinders. In fact, in order to begin requalifying TC cylinders, requalifiers will have to register with PHMSA and indicate—among other things—that they have all the necessary standards. This business decision will therefore be made by individual companies.

Section 180.207

Section 180.207 prescribes requirements for requalification of UN Start Printed Page 15826pressure receptacles. Consistent with changes to the UN Model Regulations, PHMSA is revising paragraph (d)(3) to incorporate ISO 10462:2013 concerning requalification of dissolved acetylene cylinders. This paragraph also includes an authorization to requalify acetylene cylinders in accordance with the current ISO standard until December 31, 2018.

Section 180.211

Section 180.211 prescribes requirements for the repair, rebuilding, and reheat treatment of DOT-4 series specification cylinders. In the NPRM preamble, PHMSA clearly indicated an intention to authorize DOT RIN holders to perform repair, rebuilding, and reheat treatment of Canadian cylinders (see “Section 107.805” and “Section 171.12”). However, PHMSA did not specifically propose the authorization of reciprocal treatment to facilities registered in Canada in accordance with the Transport Canada TDG Regulations. In line with the reciprocal treatment provided for requalification of Canadian cylinders, PHMSA is amending paragraph (a) and adding a new paragraph (g) to authorize the repair, rebuilding, and reheat treatment of DOT-4 series specification cylinders by authorized facilities registered in Canada and in accordance with the Transport Canada TDG Regulations.

Section 180.212

Section 180.212 prescribes requirements for the repair of seamless DOT-3 series specification cylinders and seamless UN pressure receptacles. PHMSA is amending paragraph (a)(1)(ii) to authorize repairs of DOT-3series cylinders by a facility registered by Transport Canada in accordance with the Transport Canada TDG Regulations.

Section 180.413

Section 180.413 provides the requirements for the repair, modification, stretching, rebarrelling, or mounting of specification cargo tanks. Currently, § 180.413(a)(1) requires that each repair of a specification cargo tank must be performed by a repair facility holding a valid National Board Certificate of Authorization for use of the National Board “R” stamp and must be made in accordance with the edition of the National Board Inspection Code in effect at the time the work is performed. “Repair” is defined in § 180.403 as “any welding on a cargo tank wall done to return a cargo tank or a cargo tank motor vehicle to its original design and construction specification, or to a condition prescribed for a later equivalent specification in effect at the time of the repair.” As previously discussed in this final rule, stakeholders participating in the U.S.-Canada RCC identified this requirement as being burdensome to United States carriers who also operate in Canada. In accordance with the Transport Canada TDG Regulations, a facility in Canada can perform a repair on a specification cargo tank if it holds either a valid National Board Certificate of Authorization for use of the National Board “R” stamp or a valid Certificate of Authorization from a provincial pressure vessel jurisdiction for repair. The latter authorization becomes problematic for United States carriers requiring the repair of a DOT specification cargo tank while in Canada. Section 180.413 currently only authorizes the repair of a DOT specification cargo tank by a facility holding a valid National Board Certificate of Authorization for use of the National Board “R” stamp. If a DOT specification cargo tank is repaired in Canada at a facility holding a Certificate of Authorization from a provincial pressure vessel jurisdiction for repair and not a National Board Certificate of Authorization for use of the National Board “R” stamp, the DOT specification of the cargo tank is placed in jeopardy.

Based on this input from RCC stakeholders, PHMSA conducted a comparison of the HMR requirements for the repair of specification cargo tanks and the corresponding requirements of the Transport Canada TDG Regulations. In consultation with FMCSA, PHMSA determined that the requirements for the repair of a specification cargo tank conducted in accordance with the Transport Canada TDG Regulations by a facility in Canada holding a valid Certificate of Authorization from a provincial pressure vessel jurisdiction for repair provide for at least an equivalent level of safety as those provided by the HMR. Further, the Transport Canada TDG Regulations authorize the repair of TC specification cargo tanks by facilities in the U.S. that are registered in accordance with part 107 subpart F.

Accordingly, PHMSA is expanding the authorization for the repair of DOT specification cargo tanks by revising § 180.413(a)(1). Specifically, PHMSA is adding a new paragraph (a)(1)(iii) authorizing a repair, as defined in § 180.403, of a DOT specification cargo tank used for the transportation of hazardous materials in the United States performed by a facility in Canada in accordance with the Transport Canada TDG Regulations, provided the [1] facility holds a valid Certificate of Authorization from a provincial pressure vessel jurisdiction for repair; [2] the facility is registered in accordance with the Transport Canada TDG Regulations to repair the corresponding TC specification; and [3] all repairs are performed using the quality control procedures used to obtain the Certificate of Authorization. PHMSA received a comment from FIBA stating that we are only including an authorization for a Canadian facility that holds a valid Certificate of Authorization from a provincial pressure vessel jurisdiction and not a Canadian facility holding a valid National Board Certificate of Authorization for the use of the National Board “R” stamp. FIBA requested that we authorize either type of repair facility. PHMSA notes that the use of the “R” Stamp by Canadian facilities is currently authorized in § 180.413(a)(1), and no changes to this authorization were proposed or adopted.

PHMSA is also making an incidental revision to § 180.413(b) to except facilities in Canada that perform a repair in accordance with the new § 180.413(a)(1)(iii) from the requirement that each repair of a cargo tank involving welding on the shell or head must be certified by a Registered Inspector. The Transport Canada TDG Regulations provide requirements for the oversight of welding repairs and do not use the term “Registered Inspector.”

These provisions would not place any additional financial or reporting burden on U.S. companies. Rather, the enhanced regulatory reciprocity between the United States and Canada as a result of these provisions would provide the companies with additional flexibility and cost savings due to opportunities for obtaining repairs to DOT specification cargo tanks in Canada. PHMSA received a comment of general support for this effort from NTTC.

Section 180.605

Section 180.605 prescribes requirements for the qualification of portable tanks. Consistent with the UN Model Regulations, PHMSA is amending paragraph (g)(1) to require as a part of internal and external examination that the wall thickness must be verified by appropriate measurement if this inspection indicates a reduction of wall thickness. This amendment will require the inspector to verify that the shell thickness is equal to or greater than the minimum shell thickness indicated on the portable tanks metal plate (see § 178.274(i)(1)).Start Printed Page 15827

VI. Regulatory Analyses and Notices

A. Statutory/Legal Authority for This Rulemaking

This final rule is published under the statutory authority of Federal hazardous materials transportation law (Federal hazmat law; 49 U.S.C. 5101 et seq.). Section 5103(b) of Federal hazmat law authorizes the Secretary of Transportation (Secretary) to prescribe regulations for the safe transportation, including security, of hazardous materials in intrastate, interstate, and foreign commerce. This final rule amends regulations to maintain alignment with international standards by incorporating various amendments, including changes to proper shipping names, hazard classes, packing groups, special provisions, packaging authorizations, air transport quantity limitations, and vessel stowage requirements. To this end, the final rule amends the HMR to more fully align with the biennial updates of the UN Model Regulations, the IMDG Code, and the ICAO Technical Instructions.

Harmonization serves to facilitate international commerce, while also promoting the safety of people, property, and the environment by reducing the potential for confusion and misunderstanding that could result if shippers and transporters were required to comply with two or more conflicting sets of regulatory requirements. While the intent of this rulemaking is to align the HMR with international standards, we review and consider each amendment based on its own merit, on its overall impact on transportation safety, and on the economic implications associated with its adoption into the HMR. Our goal is to harmonize internationally without sacrificing the current level of safety or imposing undue burdens on the regulated community. Thus, as explained in the corresponding sections above, we are not harmonizing with certain specific provisions of the UN Model Regulations, the IMDG Code, and the ICAO Technical Instructions. Moreover, we are maintaining a number of current exceptions for domestic transportation that should minimize the compliance burden on the regulated community. The following external agencies were consulted in the development of this rule: Federal Aviation Administration, Federal Motor Carrier Safety Administration, Federal Railroad Administration, and U.S. Coast Guard.

Section 49 U.S.C. 5120(b) of Federal hazardous materials law authorizes the Secretary to ensure that, to the extent practicable, regulations governing the transportation of hazardous materials in commerce are consistent with standards adopted by international authorities. The large volume of hazardous materials transported in international commerce warrants the harmonization of domestic and international requirements to the greatest extent possible. This final rule amends the HMR to maintain alignment with international standards by incorporating various amendments to facilitate the transport of hazardous material in international commerce. To this end, as discussed in detail above, PHMSA is incorporating changes into the HMR based on the 19th Revised Edition of the UN Model Regulations, Amendment 38-16 of the IMDG Code, and the 2017-2018 Edition of the ICAO Technical Instructions, which become effective January 1, 2017 (Amendment 38-16 to the IMDG Code may be voluntarily applied on January 1, 2017; however, the previous amendment remains effective through December 31, 2017).

B. Executive Order 12866, Executive Order 13563, and DOT Regulatory Policies and Procedures

This final rule is not considered a significant regulatory action under section 3(f) of Executive Order 12866, “Regulatory Planning and Review,” [58 FR 51735 (Oct. 4, 1993)] and therefore was not reviewed by the Office of Management and Budget. Accordingly, this final rule is not considered a significant rule under the Regulatory Policies and Procedures of the Department of Transportation of February 26, 1979. See 44 FR 11034. Executive Order 13563, “Improving Regulation and Regulatory Review,” supplements and reaffirms Executive Order 12866, stressing that, to the extent permitted by law, an agency rulemaking action must be based on benefits that justify its costs, impose the least burden, consider cumulative burdens, maximize benefits, use performance objectives, and assess available alternatives. See 76 FR 3821 (Jan. 21, 2011).

The HM-215N NPRM and the associated RIA (Docket ID: PHMSA-2015-0273) requested stakeholder comments and data on the benefit and cost estimates of the NPRM. While some commenters questioned the benefits and costs of individual provisions, no comments specifically provided data or alternative analysis to change our original analysis of benefits and costs. In addition, PHMSA has not identified additional data or analysis to change the costs and benefits presented in the NPRM and the associated RIA. As a result, PHMSA adopts the benefits and costs presented in the RIA of the NPRM for this final rule. The following table summarizes the benefits and costs as found in the RIA for the following amendments as discussed in detail above: 1. Updates to references in HMT; 2. Revising HMT for polymerizing substances; 3. Amending HMT to update certain proper shipping names, packing groups, special provisions, packaging authorizations, bulk packaging requirements, and vessel stowage requirements; 4. Adding various substances to the list of marine pollutants; 5. Modifying part 173 packaging requirements and authorizations; 6. Amending packaging requirements for vessel transportation of water-reactive substances; 7. Revising hazardous communication requirements for shipments of lithium batteries; and, 8. Recognizing Transport Canada cylinders, certificates of equivalencies, and inspection and repair of cargo tanks.

C. Executive Order 13132

This final rule has been analyzed in accordance with the principles and criteria contained in Executive Order 13132, “Federalism,” which requires agencies to assure meaningful and timely input by State and local officials in the development of regulatory policies that may have “substantial direct effects on the States, on the relationship between the national government and the States, or on the distribution of power and responsibilities among the various levels of government.” See 64 FR 43255 (Aug. 10, 1999). The regulatory changes in this rule preempt State, local, and Indian tribe requirements but do not have substantial direct effects on the States, the relationship between the national government and the States, or the distribution of power and responsibilities among the various levels of government. Therefore, the consultation and funding requirements of Executive Order 13132 do not apply.

The Federal hazmat law, 49 U.S.C. 5101-5128, contains an express preemption provision (49 U.S.C. 5125(b)) that preempts State, local, and Indian tribe requirements on certain covered subjects, as follows:

(1) The designation, description, and classification of hazardous material;

(2) The packing, repacking, handling, labeling, marking, and placarding of hazardous material;

(3) The preparation, execution, and use of shipping documents related to hazardous material and requirements related to the number, contents, and placement of those documents;

(4) The written notification, recording, and reporting of the unintentional release in transportation of hazardous material; and

(5) The design, manufacture, fabrication, inspection, marking, maintenance, recondition, repair, or testing of a packaging or container represented, marked, certified, or sold as qualified for use in transporting hazardous material in commerce.

This final rule addresses covered subject items (1), (2), (3), (4), and (5) above and preempts State, local, and Start Printed Page 15829Indian tribe requirements not meeting the “substantively the same” standard. This final rule is necessary to incorporate changes adopted in international standards, effective January 1, 2017. If the changes are not adopted in the HMR, U.S. companies—including numerous small entities competing in foreign markets—would be at an economic disadvantage because of their need to comply with a dual system of regulations. The changes in this rulemaking are intended to avoid this result. Federal hazmat law provides at 49 U.S.C. 5125(b)(2) that, if DOT issues a regulation concerning any of the covered subjects, DOT must determine and publish in the Federal Register the effective date of Federal preemption. The effective date may not be earlier than the 90th day following the date of issuance of the final rule and not later than two years after the date of issuance. PHMSA is setting the effective date of Federal preemption to be 90 days from publication of this final rule.

D. Executive Order 13175

This final rule was analyzed in accordance with the principles and criteria contained in Executive Order 13175, “Consultation and Coordination with Indian Tribal Governments,” which requires agencies to assure meaningful and timely input from Indian tribal government representatives in the development of rules that significantly or uniquely affect Indian communities by imposing “substantial direct compliance costs” or “substantial direct effects” on such communities or the relationship and distribution of power between the Federal Government and Indian tribes. See 65 FR 67249 (Nov. 9, 2000). Because this final rule does not have tribal implications, does not impose substantial direct compliance costs, upon tribes, and does not affect the relationship or power distribution between the Federal Government and Indian tribes, the funding and consultation requirements of Executive Order 13175 do not apply.

E. Regulatory Flexibility Act, Executive Order 13272, and DOT Policies and Procedures

The Regulatory Flexibility Act (5 U.S.C. 601 et seq.) requires an agency to review regulations to assess their impact on small entities, unless the agency determines that a rule is not expected to have a significant impact on a substantial number of small entities. This final rule facilitates the transportation of hazardous materials in international commerce by providing consistency with international standards. It applies to offerors and carriers of hazardous materials, some of whom are small entities, such as chemical manufacturers, users and suppliers, packaging manufacturers, distributors, and training companies. As previously discussed under “Executive Order 12866, Executive Order 13563, and DOT Regulatory Policies and Procedures,” the majority of amendments in this final rule should result in cost savings and ease the regulatory compliance burden for shippers engaged in domestic and international commerce, including trans-border shipments within North America.

Many companies will realize economic benefits as a result of these amendments. Additionally, the changes effected by this final rule will relieve U.S. companies, including small entities competing in foreign markets, from the burden of complying with a dual system of regulations. Therefore, we certify that these amendments will not have a significant economic impact on a substantial number of small entities.

This final rule has been developed in accordance with Executive Order 13272, “Proper Consideration of Small Entities in Agency Rulemaking,” [67 FR 53461 (Aug. 16, 2002)], as well as DOT's Policies and Procedures, to promote compliance with the Regulatory Flexibility Act to ensure that potential impacts of draft rules on small entities are properly considered.

F. Paperwork Reduction Act

PHMSA currently has approved information collections under Office of Management and Budget (OMB) Control Number 2137-0557, “Approvals for Hazardous Materials,” and OMB Control Number 2137-0034, “Hazardous Materials Shipping Papers & Emergency Response Information.” We anticipate that this final rule will result in an increase in the annual burden for OMB Control Number 2137-0034 due to an increase in the number of applications for modifications to existing holders of DOT-issued RINs. PHMSA is amending § 107.805(f)(2) to allow RIN holders to submit an application containing all the required information prescribed in § 107.705(a); identifying the TC, CTC, CRC, or BTC specification cylinder(s) or tube(s) to be inspected; certifying the requalifier will operate in compliance with the applicable TDG Regulations; and certifying the persons performing requalification have been trained and have the information contained in the TDG Regulations. This application is in addition to any existing application and burden encountered during the initial RIN application.

We anticipate this final rule will result in a decrease in the annual burden and costs of OMB Control Number 2137-0034. This burden and cost decrease is primarily attributable to the removal of the alternative document currently required for lithium cells or batteries offered in accordance with § 173.185(c). Additional increased burdens and costs to OMB Control Number 2137-0034 in this final rule are attributable to a new indication on shipping papers that a shipment of prototype or low production run lithium batteries or cells is in accordance with § 173.185(e)(7) and the addition of new marine pollutant entries.

This rulemaking identifies revised information collection requests that PHMSA will submit to OMB for approval based on the requirements in this final rule. PHMSA has developed burden estimates to reflect changes in this final rule and estimates the information collection and recordkeeping burdens in this rule are as follows:

OMB Control Number 2137-0557

Annual Increase in Number of Respondents: 3,600.

Annual Increase in Annual Number of Responses: 3,600.

Annual Increase in Annual Burden Hours: 1,800.

Annual Increase in Annual Burden Costs: $63,000.

OMB Control Number 2137-0034

Annual Decrease in Number of Respondents: 972,551.

Annual Decrease in Annual Number of Responses: 9,765,507.

Annual Decrease in Annual Burden Hours: 27,161.

Annual Decrease in Annual Burden Costs: $950,635.

PHMSA will submit the revised information collection and recordkeeping requirements to OMB for approval.

G. Regulation Identifier Number (RIN)

A regulation identifier number (RIN) is assigned to each regulatory action listed in the Unified Agenda of Federal Regulations. The Regulatory Information Service Center publishes the Unified Agenda in April and October of each year. The RIN contained in the heading of this document can be used to cross-reference this action with the Unified Agenda.

H. Unfunded Mandates Reform Act of 1995

This final rule does not impose unfunded mandates under the Unfunded Mandates Reform Act of Start Printed Page 158301995. It does not result in costs of $141.3 million or more, adjusted for inflation, to either State, local, or Tribal governments, in the aggregate, or to the private sector in any one year, and is the least burdensome alternative that achieves the objective of the rule.

I. Environmental Assessment

The National Environmental Policy Act of 1969, 42 U.S.C. 4321-4375, requires that Federal agencies analyze actions to determine whether the action will have a significant impact on the human environment. The Council on Environmental Quality (CEQ) regulations that implement NEPA (40 CFR parts 1500 through 1508) require Federal agencies to conduct an environmental review considering (1) the need for the action, (2) alternatives to the action, (3) probable environmental impacts of the action and alternatives, and (4) the agencies and persons consulted during the consideration process.

1. Purpose and Need

This action is necessary to incorporate changes adopted in the IMDG Code, the ICAO Technical Instructions, and the UN Model Regulations, effective January 1, 2017. If the changes in this final rule are not adopted in the HMR by this effective date, U.S. companies—including numerous small entities competing in foreign markets—would be at an economic disadvantage because of their need to comply with a dual system of regulations. The changes to the HMR contained in this rulemaking are intended to avoid this result.

The intended effect of this action is to harmonize the HMR with international transport standards and requirements to the extent practicable in accordance with Federal hazmat law (see 49 U.S.C. 5120). When considering the adoption of international standards under the HMR, PHMSA reviews and evaluates each amendment on its own merit, on its overall impact on transportation safety, and on the economic implications associated with its adoption. Our goal is to harmonize internationally without diminishing the level of safety currently provided by the HMR or imposing undue burdens on the regulated public. PHMSA has provided a brief summary of each revision, the justification for the revision, and a preliminary estimate of economic impact.

2. Alternatives

In developing this rulemaking, PHMSA considered the following alternatives:

No Action Alternative

If PHMSA had selected the No Action Alternative, current regulations would remain in place and no new provisions would be added. However, efficiencies gained through harmonization in updates to transport standards, lists of regulated substances, definitions, packagings, stowage requirements/codes, flexibilities allowed, enhanced markings, segregation requirements, etc., would not be realized. Foregone efficiencies in the No Action Alternative include freeing up limited resources to concentrate on vessel transport hazard communication (hazcom) issues of potentially much greater environmental impact. Adopting the No Action Alternative would result in a lost opportunity for reducing environmental and safety-related incidents.

Preferred Alternative

This alternative is the current rule. The amendments included in this alternative are more fully addressed in the preamble and regulatory text sections of this final rule.

3. Probable Environmental Impact of the Alternatives

No Action Alternative

If PHMSA had selected select the No Action Alternative, current regulations would remain in place and no new provisions would be added. However, efficiencies gained through harmonization in updates to transport standards, lists of regulated substances, definitions, packagings, stowage requirements/codes, flexibilities allowed, enhanced markings, segregation requirements, etc., would not be realized. Foregone efficiencies in the No Action Alternative include freeing up limited resources to concentrate on vessel transport hazcom issues of potentially much greater environmental impact.

Additionally, the Preferred Alternative encompasses enhanced and clarified regulatory requirements, which would result in increased compliance and a decreased number of environmental and safety incidents. Not adopting the environmental and safety requirements in the final rule under the No Action Alternative would result in a lost opportunity for reducing environmental and safety-related incidents.

Preferred Alternative

PHMSA selected the preferred alternative. Potential environmental impacts of each proposed amendment in the preferred alternative are discussed as follows:

• Incorporation by Reference: PHMSA is updating references to various international hazardous materials transport standards, including the 2017-2018 ICAO Technical Instructions; Amendment 38-16 of the IMDG Code; the 19th Revised Edition of the UN Model Regulations; the 6th Revised Edition of the UN Manual of Tests and Criteria; and the latest amendments to the Canadian TDG Regulations. In addition, PHMSA is adding one new reference and updating eight other references to standards applicable to the manufacture, use, and requalification of pressure vessels published by the International Organization for Standardization.

The HMR authorize shipments prepared in accordance with the ICAO Technical Instructions and by motor vehicle either before or after being transported by aircraft. Similarly, the HMR authorize shipments prepared in accordance with the IMDG Code if all or part of the transportation is by vessel. The authorizations to use the ICAO Technical Instructions and the IMDG Code are subject to certain conditions and limitations outlined in part 171 subpart C.

• Hazardous Materials Table (HMT): PHMSA is adopting amendments to the HMT to add, revise, or remove certain proper shipping names, packing groups, special provisions, packaging authorizations, bulk packaging requirements, and vessel stowage requirements. Amendments to HMT proper shipping names include: assigning the existing “Engines, internal combustion” entries to their own new UN numbers and provisions; amending existing “Uranium Hexafluoride” entries to include a new Division 6.1 subsidiary hazard class designation; adding a new entry for “Polyester resin kit, solid base material; and adding a Division 1.4C new entry for “Rocket motors.” Additionally, we are adding and revising special provisions, large packaging authorizations, and IBC authorizations consistent with the UN Model Regulations to provide a wider range of packaging options to shippers of hazardous materials.

New and revised entries to the HMT reflect emerging technologies and a need to better describe or differentiate between existing entries. These changes mirror those made to the Dangerous Goods List of the 19th Revised Edition of the UN Model Regulations, the 2017-2018 ICAO Technical Instructions, and Amendment 38-16 of the IMDG Code. It is extremely important for the domestic HMR to mirror these international standards regarding the entries in the HMT to allow for consistent naming Start Printed Page 15831conventions across modes and international borders.

Inclusion of entries in the HMT reflects a degree of danger associated with a particular material and identifies appropriate packaging. This change provides a level of consistency for all articles specifically listed in the HMT, without diminishing environmental protection and safety.

• Provisions for Polymerizing Substances: Consistent with amendments adopted into the UN Model Regulations, PHMSA is revising the HMT in § 172.101 to include four new Division 4.1 entries for polymerizing substances. Additionally, we are adding into the HMR defining criteria, authorized packagings, and safety requirements including, but not limited to, stabilization methods and operational controls.

New and revised entries to the HMT reflect emerging technologies and a need to better describe or differentiate between existing entries. These changes mirror those made to the Dangerous Goods List of the 19th Revised Edition of the UN Model Regulations, the 2017-2018 ICAO Technical Instructions, and Amendment 38-16 of the IMDG Code. It is extremely important for the domestic HMR to mirror these international standards regarding the entries in the HMT to allow for consistent naming conventions across modes and international borders.

Inclusion of entries in the HMT reflects a degree of danger associated with a particular material and identifies appropriate packaging. This change provides a level of consistency for all articles specifically listed in the HMT, without diminishing environmental protection and safety.

• Modification of the Marine Pollutant List: PHMSA is adding the following substances to the list of marine pollutants in appendix B to § 172.101: Hypochlorite solutions; Isoprene, stabilized; N-Methylaniline; Methylcyclohexane; and Tripropylene. These additions are based on the criteria contained in the IMDG Code for substances classified as toxic to the aquatic environment. The HMR maintain a list as the basis for regulating substances toxic to the aquatic environment and allow use of the criteria in the IMDG Code if a listed material does not meet the criteria for a marine pollutant. PHMSA periodically updates this list based on changes to the IMDG Code and evaluation of listed materials against the IMDG Code criteria. Amending the marine pollutant list facilitates consistent communication of the presence of marine pollutants, as well as safe and efficient transportation, without imposing significant burden associated with characterizing mixtures as marine pollutants.
• Packaging Revisions: These changes include design, construction, and performance testing criteria of composite reinforced tubes between 450 L and 3,000 L water capacity.

These amendments permit additional flexibility for authorized packages without compromising environmental protection or safety. Manufacturing and performance standards for gas pressure receptacles strengthen the packaging without being overly prescriptive. Increased flexibility will also add to environmental protection by increasing the ease of regulatory compliance.

• Packaging Requirements for Water-Reactive Materials Transported by Vessel: PHMSA is adopting various amendments to packaging requirements for the vessel transportation of water-reactive substances. The amendments include requiring certain commodities to have hermetically sealed packaging and requiring other commodities—when packed in flexible, fiberboard, or wooden packagings—to have sift-proof and water-resistant packaging or packaging fitted with a sift-proof and water-resistant liner. This amendment reduces the risk of fire on board cargo vessels carrying hazardous materials that can react dangerously with the ship's available water and carbon dioxide fire extinguishing systems.

PHMSA is amending the packaging requirements for vessel transportation of hazardous materials that react with water or moisture to generate excessive heat or release toxic or flammable gases. Common causes for water entering into the container are: Water entering through ventilation or structural flaws in the container; water entering into the containers placed on deck or in the hold in heavy seas; and water entering into the cargo space upon a ship collision or leak. If water has already entered the container, the packaging is the only protection from the fire. In this final rule, PHMSA is strengthening the ability of these packages transporting water-reactive substances. This amendment will allow for a net increase in environmental protection and safety by keeping reactive substances in their packages, thus preventing release and damage to human health and the natural environment.

• Hazard Communication Requirements for Lithium Batteries: PHMSA is revising hazard communication requirements for shipments of lithium batteries. Specifically, PHMSA is: Adopting a new lithium battery label in place of the existing Class 9 label; amending the existing marking requirements for small lithium battery shipments in § 173.185(c) to incorporate a new standard lithium battery mark for use across all modes; deleting the documentation requirement in § 173.185(c) for shipments of small lithium cells and batteries; and amending the exception for small lithium cells and batteries requiring the lithium battery mark from the current applicability of “no more than four lithium cells or two lithium batteries installed in the equipment” to “no more than four lithium cells or two lithium batteries installed in equipment, where there are not more than two packages in the consignment.”

Greenhouse gas emissions would remain the same under this amendment.

• U.S.-Canada Regulatory Cooperation Council (RCC) Amendments: PHMSA is making amendments to the HMR resulting from coordination with Canada under the U.S.-Canada RCC. We are adopting provisions for recognition of TC cylinders, equivalency certificates, and inspection and repair of cargo tanks. The additions intend to provide reciprocal treatment of DOT Special Permits and TC equivalency certificates, DOT cylinders and TC cylinders, and cargo tank repair capabilities in both countries. Amending the HMR facilitates consistent communication for substances transported by cylinders and cargo tanks, thus decreasing not only incident response time, but the number and severity of environmental and safety incidents. The action is consistent with concurrent actions by Transport Canada to amend the TDG Regulations.

4. Agencies Consulted

PHMSA has coordinated with the U.S. Federal Aviation Administration, the Federal Motor Carrier Safety Administration, the Federal Railroad Administration, and the U.S. Coast Guard, in the development of this final rule. PHMSA has considered the views expressed in comments to the NPRM.

5. Conclusion

The provisions of this final rule build on current regulatory requirements to enhance the transportation safety and security of shipments of hazardous materials transported by highway, rail, aircraft, and vessel, thereby reducing the risks of an accidental or intentional release of hazardous materials and consequent environmental damage. PHMSA concludes that the net environmental impact will be positive and that there are no significant environmental impacts associated with this final rule.Start Printed Page 15832

J. Privacy Act

Anyone is able to search the electronic form of any written communications and comments received into any of our dockets by the name of the individual submitting the document (or signing the document, if submitted on behalf of an association, business, labor union, etc.). You may review DOT's complete Privacy Act Statement in the Federal Register published on April 11, 2000 (65 FR 19477), or you may visit http://www.dot.gov/​privacy.html.

K. Executive Order 13609 and International Trade Analysis

Under Executive Order 13609, “Promoting International Regulatory Cooperation”, agencies must consider whether the impacts associated with significant variations between domestic and international regulatory approaches are unnecessary or may impair the ability of American business to export and compete internationally. See 77 FR 26413 (May 4, 2012). In meeting shared challenges involving health, safety, labor, security, environmental, and other issues, international regulatory cooperation can identify approaches that are at least as protective as those that are or would be adopted in the absence of such cooperation. International regulatory cooperation can also reduce, eliminate, or prevent unnecessary differences in regulatory requirements.

Similarly, the Trade Agreements Act of 1979 (Pub. L. 96-39), as amended by the Uruguay Round Agreements Act (Pub. L. 103-465), prohibits Federal agencies from establishing any standards or engaging in related activities that create unnecessary obstacles to the foreign commerce of the United States. For purposes of these requirements, Federal agencies may participate in the establishment of international standards, so long as the standards have a legitimate domestic objective, such as providing for safety, and do not operate to exclude imports that meet this objective. The statute also requires consideration of international standards and, where appropriate, that they be the basis for U.S. standards.

PHMSA participates in the establishment of international standards to protect the safety of the American public. PHMSA has assessed the effects of this rulemaking and determined that it does not cause unnecessary obstacles to foreign trade. In fact, the rule is designed to facilitate international trade. Accordingly, this rulemaking is consistent with Executive Order 13609 and PHMSA's obligations under the Trade Agreement Act, as amended.

L. National Technology Transfer and Advancement Act

The National Technology Transfer and Advancement Act of 1995 (15 U.S.C. 272 note) directs Federal agencies to use voluntary consensus standards in their regulatory activities unless doing so would be inconsistent with applicable law or otherwise impractical. Voluntary consensus standards are technical standards (e.g., specification of materials, test methods, or performance requirements) that are developed or adopted by voluntary consensus standard bodies. This final rule involves multiple voluntary consensus standards which are discussed at length in the “Section-by-Section Review” for § 171.7.

List of Subjects

49 CFR Part 107

• Administrative practice and procedure
• Hazardous materials transportation
• Incorporation by reference
• Packaging and containers
• Penalties
• Reporting and recordkeeping requirements

49 CFR Part 171

• Exports
• Hazardous materials transportation
• Hazardous waste
• Imports
• Incorporation by reference
• Reporting and recordkeeping requirements

49 CFR Part 172

• Education
• Hazardous materials transportation
• Hazardous waste
• Incorporation by reference
• Labeling
• Markings
• Packaging and containers
• Reporting and recordkeeping requirements

49 CFR Part 173

• Hazardous materials transportation
• Incorporation by reference
• Packaging and containers
• Radioactive materials
• Reporting and recordkeeping requirements
• Uranium

49 CFR Part 175

• Air carriers
• Hazardous materials transportation
• Radioactive materials
• Incorporation by reference
• Reporting and recordkeeping requirements

49 CFR Part 176

• Maritime carriers
• Hazardous materials transportation
• Incorporation by reference
• Radioactive materials
• Reporting and recordkeeping requirements

49 CFR Part 178

• Hazardous materials transportation
• Incorporation by reference
• Motor vehicle safety
• Packaging and containers
• Reporting and recordkeeping requirements

49 CFR Part 180

• Hazardous materials transportation
• Motor carriers
• Motor vehicle safety
• Packaging and containers
• Railroad safety
• Reporting and recordkeeping requirements

In consideration of the foregoing, PHMSA amends 49 CFR chapter I as follows:

PART 107—HAZARDOUS MATERIALS PROGRAM PROCEDURES

1. The authority citation for part 107 continues to read as follows:

Authority: 49 U.S.C. 5101-5128, 44701; Pub. L. 101-410 section 4; Pub. L. 104-121, sections 212-213; Pub. L. 104-134, section 31001; Pub. L. 114-74 section 4 (28 U.S.C. 2461 note); 49 CFR 1.81 and 1.97.

2. In § 107.502, paragraph (b) is revised to read as follows:

3. In § 107.801, paragraph (a)(2) is revised to read as follows:

4. In § 107.805, paragraphs (a), (c)(2), (d), and (f) are revised to read as follows:

PART 171—GENERAL INFORMATION, REGULATIONS, AND DEFINITIONS

5. The authority citation for part 171 continues to read as follows:

Authority: 49 U.S.C. 5101-5128, 44701; Pub. L. 101-410 section 4; Pub. L. 104-134, section 31001; Pub. L. 114-74 section 4 (28 U.S.C. 2461 note); 49 CFR 1.81 and 1.97.

6. In § 171.2, paragraph (h)(1) is revised to read as follows:

7. In § 171.7:

a. Revise paragraphs (a)(1), (h)(44), (t), (v) introductory text, (v)(2), (w), (bb) introductory text, and (bb)(1) introductory text;

b, Add paragraphs (bb)(1)(xiii) through (xix); and

c. Revise paragraphs (dd).

The revisions and additions read as follows:

8. In § 171.8:

a. Revise the definition of “Aerosol”;

b. Add a definition for “Design life” in alphabetical order;

c. Revise the definition of “Large salvage packaging”;

d. Add definitions for “SAPT” and “Service life” in alphabetical order; and

e. Revise the definition of “UN tube.”

The revisions and additions read as follows:

9. In § 171.12, paragraphs (a)(1) and (4) are revised to read as follows:

10. In § 171.23, paragraph (a) is revised to read as follows:

PART 172—HAZARDOUS MATERIALS TABLE, SPECIAL PROVISIONS, HAZARDOUS MATERIALS COMMUNICATIONS, EMERGENCY RESPONSE INFORMATION, TRAINING REQUIREMENTS, AND SECURITY PLANS

11. The authority citation for part 172 continues to read as follows:

Authority: 49 U.S.C. 5101-5128, 44701; 49 CFR 1.81, 1.96 and 1.97.

12. In § 172.101:

a. The Hazardous Materials Table is amended by removing the entries under “[REMOVE]” and by adding the entries under “[ADD]” and revising the entries under “[REVISE]” in the appropriate alphabetical sequence; and

b. In appendix B to § 172.101, the List of Marine Pollutants is amended by adding five (5) entries in appropriate alphabetical order.

The additions and revisions read as follows:

13. In § 172.102:

a. In paragraph (c)(1):

i. Revise special provisions 40, 134, and 135;

ii. Add special provisions 157, 181, and 182 in numerical order;

iii. Revise special provisions 238 and 369; and

iv. Add special provisions, 379, 387, 420, 421 and 422 in numerical order.

b. In paragraph (c)(2), special provisions A210 and A212 are added in numerical order.

c. In paragraph (c)(3), special provisions B134 and B135 are added in numerical order.

d. In paragraph (c)(4), Table 2—IP Codes is revised.

e. In paragraph (c)(5), special provision N90 is revised and N92 is added in numerical order.

f. In paragraph (c)(9), special provisions W31, W32, W40, and W100 are added in numerical order.

The additions and revisions read as follows:

14. Section 172.202(a)(6)(viii) is added to read as follows:

15. In § 172.407, paragraphs (c)(1)(i) and (iii) are revised to read as follows:

16. Section 172.447 is added to read as follows:

17. In § 172.505, paragraph (b) is revised to read as follows:

PART 173—SHIPPERS—GENERAL REQUIREMENTS FOR SHIPMENTS AND PACKAGINGS

18. The authority citation for part 173 continues to read as follows:

Authority: 49 U.S.C. 5101-5128, 44701; 49 CFR 1.81, 1.96 and 1.97.

19. In § 173.4a, paragraph (e)(3) is revised to read as follows:

20. In § 173.9, paragraph (e) is revised to read as follows:

21. In § 173.21, paragraphs (f) introductory text and (f)(1) are revised to read as follows:

22. Effective January 2, 2019, in § 173.21, paragraphs (f) introductory text and (f)(1) are revised to read as follows:

23. In § 173.40, paragraph (a)(1) is revised to read as follows:

24. In § 173.50, paragraph (b)(6) is revised to read as follows:

25. In § 173.52, in paragraph (b), in Table 1, remove the entry “Articles containing only extremely insensitive substances” and add the entry “Articles predominantly containing extremely insensitive substances” in its place to read as follows:

26. In § 173.62:

a. In paragraph (b), in the Explosives Table, the entry for UN0510 is added after UN0509; and

b. In paragraph (c), in the Table of Packing Methods, Packing Instructions 112(c), 114(b), 130, and 137 are revised. Start Printed Page 15877

The addition and revisions read as follows:

27. In § 173.121, paragraph (b)(1)(iv) is revised to read as follows:

28. Section 173.124 is revised to read as follows:

29. Section 173.165 is revised to read as follows:

30. In § 173.185, the introductory text and paragraphs (c)(2) and (3), (c)(4)(ii), (e), and (f)(4) are revised to read as follows:

31. In § 173.217, revise paragraph (c)(3) to read as follows:

32. Section 173.220 is revised to read as follows:

33. In § 173.221, paragraph (d) is added to read as follows:

34. In § 173.225, in paragraph (c)(8), the “Organic Peroxide Table” is revised and in paragraph (e), the “Organic Peroxide IBC Table” is revised to read as follows: