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(b) * * *

American Society for Testing and Materials (ASTM)

ASTM F 1413-92, Standard Guide for Oil Spill Dispersant Application Equipment: Boom and Nozzle Systems—154.1045

ASTM F 1737-96, Standard Guide for Use of Oil Spill Dispersant Application Equipment During Spill Response: Boom and Nozzle Systems—154.1045

ASTM F 1779-97, Standard Practice for Reporting Visual Observations of Oil on Water—154.1045

3. In § 154.1020, add definitions in alphabetical order to read as follows:

Dispersant operations group supervisor means the person in charge of the dispersant operations under the operations section of the Incident Command System (ICS) organization.

Dispersant monitor means a person responsible for monitoring the effectiveness of the dispersant operation through measures and guidelines established by the National Response Team, Regional Response Teams, and Area Committees.

Dispersant spotter means the person who controls, guides, or lines up the dispersant-application platform over the spill target.

Dispersant-application platform means the vessel or aircraft outfitted with the dispersant-application equipment acting as the delivery system for the dispersant onto the oil spill.

Effective daily application capacity or EDAC means the estimated amount of dispersant that can be applied to a discharge by an application system given the availability of supporting dispersant stockpiles.

Effective daily burn capacity or EDBC means the estimated amount of oil that can be effectively removed from the surface of the water by burning in one day.

Fireproof boom means an oil containment boom constructed out of fireproof materials and designed to withstand prolonged periods of exposure to heat and flame during in-situ burning operations and have a demonstrated service life that extends through multiple days of burning operations. Stainless steel and water-cooled boom designs are examples of potential fireproof boom that may be credited with extended service lives if such durability can be properly demonstrated and documented.

Fire-resistant boom means an oil containment boom constructed out of fire-retardant fabrics and reinforced internal strength members and designed to withstand exposure to heat and flame during in-situ burning operations. Fire resistant booms typically undergo material degradation when subjected to intense heat and flame for extended periods as is associated with the in-situ burning of oil. Fire resistant booms have a planning service life of one operational day.

Gulf Coast means, for the purposes of dispersant-application requirements, the region encompassing the following Captain of the Port Zones:

(1) Corpus Christi, TX.

(2) Houston/Galveston, TX.

(3) Port Arthur, TX.

(4) Morgan City, LA.

(5) New Orleans, LA.

(6) Mobile, AL.

(7) Tampa, FL.

In-situ burn operations group supervisor means the person in charge of the in-situ burn operations functional group under the operations section of the ICS organization.

Operational effectiveness monitoring means monitoring concerned primarily with determining whether the dispersant was properly applied and how the dispersant is affecting the oil.

Pre-authorization for dispersant use means an agreement, adopted by a Regional Response Team or an Area Committee, that authorizes the use of dispersants at the discretion of the Federal On-Scene Coordinator (in some cases in the context of the Unified Command) without the further approval of other Federal or State authorities. These pre-authorization areas are generally limited to particular geographic areas within each region.

Pre-authorization for in-situ burning means an agreement, adopted by a Regional Response Team and an Area Committee, that authorizes the in-situ burning of oil at the discretion of the Federal On-Scene Coordinator (in some cases in the context of the Unified Command) without the further approval of other Federal or State authorities. These pre-authorization areas are generally limited to particular geographic areas within each region.

Primary dispersant staging site means a site designated within a Captain of the Port zone that has been identified as a forward staging area for dispersant application platforms and the loading of dispersant stockpiles. Primary staging sites are typically the planned locations where platforms load or reload dispersants before departing for application at the site of the discharge and may not be the locations where dispersant stockpiles are stored or application platforms are home based.

Quick or expedited approval for dispersant use means an arrangement that limits the information the Federal On-Scene Coordinator must provide in order to obtain concurrence from a limited number of agencies, generally associated with a limited time in which a decision must be reached (typically less than two hours).

Quick or expedited approval for in-situ burning means an arrangement that limits the information the Federal On-Scene Coordinator must provide in order to obtain concurrence from a limited number of agencies, generally associated with a limited time in which a decision must be reached (typically less than two hours).

4. In § 154.1035, revise paragraphs (b)(3)(iv) and (b)(3)(v), and add paragraphs (b)(3)(vi) through (b)(3)(ix) to read as follows:

(b) * * *

(3) * * *

(iv) This subsection must identify the oil spill removal organizations and the spill management team to be capable of providing the following resources:

(A) Equipment and supplies to meet the requirements of §§ 154.1045, 154.1047 or subparts H or I of this part, as appropriate.

(B) Trained personnel necessary to continue operation of the equipment and staff of the oil spill removal organization and spill management team for the first seven days of the response.

(v) This subsection must include job descriptions for each spill management team member within the organizational structure described in paragraph (b)(3)(iii) of this section. These job descriptions should include the responsibilities and duties of each spill management team member in a response action.

(vi) For facilities that handle, store, or transport Group II through Group IV petroleum oils (and that operate in waters where dispersant use pre-Start Printed Page 63341authorization or expedited approval exists) this subsection must also separately list the resource providers and specific resources, including appropriately trained dispersant-application personnel, necessary to provide the dispersant capabilities required in this subpart. All resource providers and resources must be available by contract or other approved means as described in § 154.1028(a). The dispersant resources to be listed within this section must include the following:

(A) The identification of each primary dispersant staging site to be used by each dispersant-application platform to meet the requirements of this subpart.

(B) The identification of the platform type, providing-resource organization, location, dispersant payload, and readiness/mobilization category (as provided for in Table 6 of appendix C to this part) for each dispersant-application platform identified. Location data must identify the distance between the platform's home base and the identified primary dispersant staging site for this section.

(C) The identification of the dispersant product resource provider, location, and amount for each unit of dispersant stockpile required to support the required Effective Daily Application Capacity (EDAC) of each dispersant-application platform necessary to sustain each intended response tier of operation. Location data must include the stockpile's distance to the primary staging sites where the stockpile would be loaded onto the corresponding platforms.

(D) If an oil spill removal organization is approved by the Coast Guard and its capability is equal to or exceeds the response capability needed by the owner or operator, the section may identify the oil spill removal organization only and not the information required in paragraphs (b)(3)(vi)(A) through (C) of this section.

(vii) This subsection must also separately list the resource providers and specific resources necessary to provide, if appropriate, the in-situ burn capabilities as required in this subpart. The in-situ burn resources to be listed within this section must include the following:

(A) The identification of the amount, type, resource provider, and location of in-situ burn boom.

(B) The identification of the amount, type, resource providers, and location of support vessels to deploy, and if necessary, tow, the in-situ burn boom during burning operations.

(C) The identification of the amount, type, resource provider, and location for each ignition device required to support the required Effective Daily Burn Capacity (EDBC) of each in-situ burn package.

(D) The identification of the amount, location, resource provider of trained personnel necessary to support the required EDBC of each in-situ burn package.

(E) If an oil spill removal organization has been approved by the Coast Guard and its capability is equal to or exceeds the response capability needed by the owner or operator for the credit level requested, the section may identify the oil spill removal organization and the level of in-situ-burn removal capability being provided, and not the information required in paragraphs(b)(3)(vii)(A)-(D).

(viii) This subsection must also separately list the resource providers and specific resources necessary to provide oil tracking capabilities required in this subpart. The oil tracking resources to be listed within this section must include the following:

(A) The identification of a resource provider.

(B) Type and location of aerial surveillance aircraft that are ensured available, through contract or other approved means, to meet the oil tracking requirements of § 154.1045(k).

(ix) For mobile facilities that operate in more than one captain of the port zone, the plan must identify the oil spill removal organization and the spill management team in the applicable geographic-specific appendix. The oil spill removal organization(s) and the spill management team discussed in paragraph (b)(3)(iv) of this section must be included for each COTP zone in which the facility will handle, store, or transport oil in bulk.

5. In § 154.1045—

a. Revise paragraph (i) as set forth below;

b. Remove paragraph (n);

c. Redesignate paragraphs (j), (k), (l), and (m) as paragraphs (l), (m), (n), and (o) respectively; and

d. Add new paragraphs (j) and (k) to read as follows:

(i) The owner or operator of a facility that handles, stores, or transports Groups II through IV petroleum oils within the inland, nearshore, or offshore area where pre-authorization or expedited approval for dispersant use exists must identify in their response plan, and ensure the availability of, through contract or other approved means, response resources capable of conducting dispersant operations within those areas.

(1) Dispersant response resources must be capable of commencing dispersant-application operations at the site of a discharge within 7 hours of the decision by the Federal On-Scene Coordinator to use dispersants.

(2) Dispersant response resources must include the following:

(i) Sufficient volumes of dispersants for application as required by paragraph (i)(3) of this section. Any dispersants identified in a response plan must be of a type listed on the National Oil and Hazardous Substances Pollution Contingency Plan Product Schedule (40 CFR part 300), as maintained by the Environmental Protection Agency.

(ii) Dispersant-application platforms capable of delivering and applying the dispersant on a discharge in the amounts as required by paragraph (i)(3) of this section. At least 50 percent of each EDAC tier requirement must be achieved through the use of fixed-wing, aircraft-based application platforms.

(iii) Dispersant-application systems that are consistent in design with, and are capable of applying dispersant within the performance criteria in ASTM F 1413-92. For dispersant-application systems not fully covered by ASTM F 1413-92, such as fire monitor-type applicators, adequacy of performance criteria must be documented by presentation of independent evaluation materials (e.g., laboratory tests, field tests, and reports of actual use) that document the design of performance specifications.

(iv) Dispersant-application personnel trained in and capable of applying dispersants according to the recommended procedures contained within ASTM F 1737-96.

(3) Dispersant stockpiles, application platforms, and other supporting resources must be available in a quantity and type sufficient to treat a facility's worst case discharge (as determined by using the criteria in appendix B, section 8) or in quantities sufficient to meet the requirements in Table 154.1045(i) of this section, whichever is the lesser amount.Start Printed Page 63342

(j) The owner or operator of a facility that handles, stores, or transports Groups II through IV petroleum oil within any inland, nearshore, or offshore area with pre-authorization or expedited approval for in-situ burning may request credit that will count toward the facility's on-water mechanical recovery capability for worst case discharge response Tiers 2 and 3 up to the amounts identified in Table 154.1045(j) of this section. No credit is available for Tier 1. To receive this credit, the vessel owner or operator must identify and ensure, through contract or other approved means, the availability of the necessary resources to sustain in-situ burning operations for the level of credit being requested.

(1) In-situ burn response resources must be capable of commencing ignition of oil at the site of a discharge within 12 hours of the initial authorization of the Federal On-Scene Coordinator to conduct in-situ burning to receive credit against Tier 2 requirements.

(2) In-situ burn response resources for all response tiers must include the following:

(i) Sufficient in-situ burn boom.

(ii) Vessel platforms capable of towing and tending in-situ burn boom in the operating environments where credit is requested.

(iii) Sufficient ignition devices to support burning operations.

(iv) Personnel trained in conducting in-situ burning operations.

(v) All equipment ensured available as required in paragraphs (j)(2)(i) through (iii) of this section must be capable of sustained use in the operating environments for which credit is requested.

(3) In areas that have ice-bound conditions throughout prolonged periods of the year, credit levels for Effective Daily Burn Capacity (EDBC) against on-water mechanical recovery requirements can be elevated, as deemed appropriate, by the respective Area Committee for the area where the extra credit is being considered. Extra EDBC levels are at the discretion of the Area Committee, however, it is not recommended that EDBC levels comprise more than 50 percent of the total on-water recovery capability for a planholder in any one particular Captain of the Port area.

(k) The owner or operator of a facility handling Groups I through IV petroleum oil as a primary cargo must identify in the response plan, and ensure the availability of through contract or other approved means, response resources necessary to provide aerial oil tracking to support oil spill assessment and cleanup activities. Aerial oil tracking resources must—

(1) Be capable of arriving at the site of a discharge within 3 hours from the time of the initial notification of the discharge for a distance up to 50 nautical miles from shore;

(2) Be capable of supporting oil spill removal operations continuously for three 10-hour operational periods during the initial 72 hours of the discharge; and

(3) Include the following:

(i) Appropriately located aircraft and personnel capable of meeting the response time requirement for oil tracking from paragraph (k)(1) of this section.

(ii) Sufficient numbers of aircraft, pilots, and trained observation personnel to support oil spill operations, commencing upon initial assessment, and capable of coordinating on-scene cleanup operations, including dispersant, in-situ burn, and mechanical recovery operations. Observation personnel must be trained in— Start Printed Page 63343

(A) The protocols of oil spill reporting and assessment, including estimation of slick size, thickness, and quantity; and

(B) The use of assessment techniques in ASTM F 1779-97, and familiar with the use of other guides, such as NOAA's “Open Water Oil Identification Job Aid for Aerial Observation,” (available at http://response.restoration.noaa.gov/​order/​jobaid.html) and NOAA's “Characteristic Coastal Habitats” Guide (available at http://response.restoration.noaa.gov/​oilaids/​coastal/​coastal.html).

6. In appendix C to Part 154, revise section 8, and following Table 5, add Tables 6, 7, and 8 to read as follows:

Appendix C to Part 154—Guidelines for Determining and Evaluating Required Response Resources for Facility Response Plans

8. Determining the Capability of High-Rate Response Methods 8.1 Calculating Cumulative Dispersant-Application Capacity Requirements.

8.1.1 A facility owner or operator should plan either for a dispersant capacity to respond to a facility's worst case discharge (WCD) of oil or for the amount of the dispersant resource cap as required by § 154.1045(i)(3) of this part, whichever is the lesser amount. When planning for the cumulative application capacity that is required, the calculations should account for the loss of some oil to the environment due to natural dissipation causes (primarily evaporation). The following procedure should be used to determine the cumulative application requirements:

8.1.2 Determine the WCD volume of oil in gallons and the appropriate cargo group for the type of petroleum oil (persistent Groups II, III, IV). For facilities with mixed petroleum oils, assume a total WCD volume using the group that constitutes the largest portion of the oil being handled or the group with the smallest natural dissipation factor.

8.1.3 Multiply the total WCD amount in gallons by the natural dissipation factor for the appropriate cargo group as follows: Group II factor is 0.50; Group III is 0.30 and Group IV is 0.10 associated with the nearshore area for the cargo type carried. This represents the amount of oil that can be expected to be lost to natural dissipation. Subtract the oil amount lost to natural dissipation from the total WCD amount to determine the remaining oil cargo available for treatment by dispersant-application.

8.1.4 Multiply the oil available for dispersant treatment by the dispersant to oil planning application ratio of 1 part dispersant to 20 parts oil (0.05). The resultant number represents the cumulative total dispersant-application capability that should be ensured available within the first 60 hours.

8.1.5 The following is an example of the procedure described above: A facility with a 1,000,000 gallon WCD of crude oil (specific gravity 0.87) is located in an area with pre-authorization for dispersant use in the nearshore environment on the U.S. East Coast.

WCD: 1,000,000 gallons, Group III oil.

Natural Dissipation Factor for Group III: 30%.

General formula to determine oil available for dispersant treatment: (WCD) − [(WCD) × (natural dissipation factor)] = available oil.

E.g., 1,000,000 gal − (1,000,000 gal × .30) = 700,000 gallons of available oil.

Cumulative application capacity = Available oil × planning application ratio (1 gal disp/20 gals oil = 0.05), 700,000 gal oil × (0.05) = 35,000 gallons cumulative dispersant-application capacity.

The requirements for cumulative dispersant-application capacity (35,000 gallons) for this facility's WCD is less than the overall dispersant capability for non-Gulf Coast waters as required by § 155.1045(i)(3) of this chapter. As such, this vessel would not need to meet the entire amount for Tier 3, but would be required to meet the following tier requirements (totaling 35,000 gallons application):

Tier 1 4,125 gallons—Completed in 12 hours

Tier 2 23,375 gallons—Completed in 36 hours

Tier 3 7,500 gallons—Completed in 60 hours

8.2 Determining Effective Daily Application Capacities “EDAC” for Dispersant Response Systems.

8.2.1 This section discusses methods to be used for the purposes of determining the EDAC of a dispersant response system. This methodology considers mobilization factors for dispersant platforms as well as dispersant stockpiles and platform application rates (as published in the 1999 Summary Report of Public Workshop for Response Plan Equipment CAPs. This report is available at http://www.uscg.mil/​vrp/​reg/​caps.shtml).

8.2.2 For each Captain of the Port zone where a dispersant response capability is required, the response plan should identify:

• The type, number, and location of each dispersant-application platform intended for use in meeting dispersant delivery requirements specified in § 155.1050(j)(3) of this chapter.
• The amount and location of available dispersant stockpiles to support each platform.
• A primary staging site for each platform that will serve as its base of operations for the duration of the response.

8.2.3 Using the readiness factors from Table 6 of this appendix and platform capability factors in Table 7 of this appendix, calculate mobilization times and dispersant delivery capabilities for each platform. For each aircraft platform—

MP = R + T + L

MP = Mobilization of platform

R = Recall time in hours (time it takes for dispersant operations personnel to arrive at the storage location and to prepare the dispersant-application system for transport)

T = Transit time (time it takes for dispersant-application system to be transported to the staging area mobilization)

L = 1 hour to load dispersant at staging site if platform is not preloaded. Total time for platform mobilization should be less than 7 hours for Tier 1, less than 24 hours Tier 2, and less than 48 hours Tier 3;

For each stockpile—

MS = R + T + L

MS = Mobilization of Stockpile

R = Recall of loading personnel/transportation assets and loading dispersant for transport if applicable

T = Transit time to staging site

L = 1 hour for loading on delivery platform. The transit time to the spill site is included in delivery capability calculations for aircraft but not for vessels. Total time for stockpile mobilization should be less than 7 hours for Tier 1, less than 24 hours for Tier 2, and less than 48 hours for Tier 3.

Delivery capability for Tier 1 should be calculated as follows:

R/10 × 12—T

R = EDAC Rate (from Table 7)

10 = hours in operational period

12 = assumed hours of daylight for planning purposes

T = mobilization time (either for platform or stockpile time whichever is greater). Delivery capability for all Tier 1 platforms should at least equal amount specified for Tier 1 in § 155.1050(l)(3) of this chapter.

For Tiers 2 and 3, delivery capability for each platform is the EDAC Rate in Table 7 of this appendix, which shows delivery capability for each resource assuming 10-hour operating period. Delivery capability for all Tier 2 and 3 platforms must at least equal amount specified for Tiers 2 and 3 in § 155.1050(l)(3) of this chapter.

For each vessel platform—

MP = R + T + S + L

MP = Mobilization of platform

R = Recall time in hours (time it takes for dispersant operations personnel to arrive at the storage location and to prepare the dispersant-application system for transport)

T = Transit time (time it takes for dispersant-application system to be transported to the staging area mobilization

S = Transit time from staging site or usual location of vessel to the spill site

L = 1 hour to load dispersant at staging site if platform is not preloaded. Total time for platform mobilization should be less than 7 hours for Tier 1, less than 24 hours for Tier 2, and less than 48 hours for Tier 3. Usual location of the vessel is the location where the vessel is typically employed when not engaged in dispersant-application operations. Spill site is the location in the Captain of the Port zone up to 50 miles offshore furthest from the dispersant platform staging site or the usual location of the vessel.

MS = R + T

MS = Mobilization of Stockpile

R = Recall of loading personnel/transportation assets and loading dispersant for transport if applicable

T = Transit time to staging site. Total time for stockpile mobilization should be less Start Printed Page 63344than 6 hours for Tier 1, less than 23 hours for Tier 2, and less than 47 hours Tier 3 to allow time for loading dispersant on delivery platform.

Delivery capability for Tier 1 should be calculated as follows:

R/10 × 12−T

R = EDAC Rate (from Table 7 of this appendix)

10 = 10 hours in operational period

12 = assumed hours of daylight for planning purposes

T = mobilization time (either for platform or stockpile time whichever is greater)]. Delivery capability for all Tier 1 platforms must at least equal the amount specified for tier 1 in § 155.1050(l)(3) of this chapter.

For Tiers 2 and 3, delivery capability for each platform is the EDAC Rate in Table 7 of this appendix, which shows delivery capability for each resource assuming 10-hour operating period. Delivery capability for all Tier 2 and 3 platforms must at least equal amount specified for Tiers 2 and 3 in § 155.1050(l)(3) of this chapter.

8.2.3.1 EDAC must be calculated for each platform and supporting stockpile, and added together as appropriate to meet the dispersant-application tier requirements.

8.2.3.2 The following is an example of the procedure described above: A plan lists a stockpile of 5,000 gallons of dispersant located 35 miles from a central staging site (e.g., a coastal airport) but not loaded for transport, and a DC-3 aircraft based at a facility approximately 75 miles from the staging site. The DC-3 is dedicated to dispersant spraying operations. The EDAC allowed toward tier 1 for this dispersant-application system can be calculated as follows:

Stockpile: Amount—5,000 gallons.

Stockpile Mobilization time: R = 4 hours, T = 35 miles/35 miles per hour or 1 hour, hours = 4 + 1 + 1 hour loading = 6 hours.

Platform Mobilization: R = 2 hours, T = 75 miles/150 miles per hour or 0.5 hours + 1 hour loading at staging site = 2 + 1.5 + 1 = 3.5 hours.

Operational period “OP” = 12 hours daylight—5 hours (use longer of stockpile or platform mobilization time) = 7 hours (commencing 6 hours after notification of approval and continuing until the end of the first 12 hour daylight period.)

Tier 1 delivery capability for this platform = (Table 7 of this appendix) EDAC rate = 5000 gallons/10 hours x 6 = 3000 gallons application capacity.

8.2.3.3 Other platform types do exist, and additional platform types are expected to develop with time. The Coast Guard will review requests to establish EDAC rates for other platform types at its discretion. EDAC calculations for additional platforms use the same methodology as used to establish the existing rates already in Table 7 of this appendix. Table 7 is based on average characteristics (for planning and review purposes) for most types of application platforms typically used for spraying dispersants.

8.3 Determining Effective Daily Burn Capacities “EDBC” for In-situ Burn Response Systems.

8.3.1 For the purposes of determining the effective daily burn capacity of in-situ burn resources, the information within this section applies.

8.3.2 For each Captain of the Port zone where an in-situ burn response capability is ensured available, the response plan should identify—

• The type, location, and amount of in-situ burn boom available;
• The amount and location of available ignition sources. If ignition system ensured available is a helitorch, a source of pilots trained in the use of the helitorch and suitable aircraft must be identified that can respond within the required response times; and
• The identification of supporting vessels and trained operators capable of towing, deploying, and tending the fire boom.

8.3.3 Using the readiness factors from Table 8 of this appendix, mobilization times are calculated for each in-situ burn system. The General Formula for calculating Tier 1 mobilization time is as follows:

T = (MB + MV) or (MH), whichever is greater (in hours).

T = Total Mobilization

MB = Mobilization of In-situ burn boom/hand held igniters

MB = R + L + T1

R = Recall of loading personnel/transportation assets

L = Loading to truck

T1 = Transit time to vessel staging site

MV = Mobilization of Support Vessels = L + T2

L = Boom loading to vessel

T2 = Transit time to spill site

MH = Mobilization of Helitorch = R + T1 + L + T2

R = Recall of personnel/platform

T1 = Transit time to staging site

L = Torch loading

T2 = Transit time to spill site

8.3.4 The mobilization times are used to ensure that a full 12-hour “operational period” or “OP” for in-situ burning is available for Tier 1. All operational period calculations assume approval for use is granted at zero hour, and that a maximum of 12 hours is available to support oil collection and burning within the initial 24-hour period. The available time allowed to support in-situ burning is slightly longer (12 hours) in comparison to dispersant operations (10 hours) as in-situ burning operations can continue for a limited period during darkness where dispersant spraying would be suspended due to decreased visibility. The 12-hour period is divided into four, 1-hour burning cycles, each preceded by a 2-hour oil containment and collection cycle.

8.3.4.1 The general formula for calculating the tier 1 operational period of a system is:

OP = Operational Period = 24 hours−(the mobilization time for the boom + platform or the mobilization time for the supporting helitorch igniter (if used, whichever is greater).

8.3.5 For planning purposes, an in-situ burning system is comprised of the following minimum components that must be ensured available: Minimum 500 ft. fire boom, two support vessels to tend and tow the boom, and four hand-held igniters or one helitorch system. 500 ft. sections of fire resistant boom are credited with a 5,000 bpd burning capacity and are also considered to have a service life of one operational period. For example, a second (Tier 2) and third (Tier 3) section of 500 ft. boom must be ensured available if the planholder desires to claim a 5,000 bpd credit for all three tiers.

8.3.6 Planholders may request extensions of boom service lives beyond one operational period for “fire-proof” type boom, such as stainless steel, or water-cooled boom designs, when such boom has been tested and can be adequately documented as providing extended service capabilities. Planholders may receive credit for multiple operational periods using the same 500 ft. section of boom dependant upon the documentation presented to the Coast Guard for review and approval.

Dispersant operations group supervisor means the person in charge of the dispersant operations under the operations section of the ICS organization.

Dispersant monitor means a person who is responsible for monitoring the effectiveness of the dispersant operation through measures and guidelines established by the National Response Team, Regional Response Teams, and Area Committees.

Dispersant-application platform means the vessel or aircraft outfitted with the dispersant-application equipment acting as the delivery system for the dispersant onto the oil spill.

Dispersant spotter means the person who controls, guides, or lines up the dispersant-application platform over the spill target.

Effective daily application capacity or EDAC means the estimated amount of dispersant that can be applied to a discharge by an application system given the availability of supporting dispersant stockpiles.

Effective daily burn capacity or EDBC means the estimated amount of oil that can be effectively removed from the surface of the water by burning in one day.

Fireproof boom means an oil containment boom constructed out of fireproof materials and designed to withstand prolonged periods of exposure to heat and flame during in-situ burning operations and have a demonstrated service life that extends through multiple days of burning operations. Stainless steel and water-cooled boom designs are examples of potential fireproof boom that may be credited with extended service lives if such durability can be properly demonstrated and documented.

Fire-resistant boom means an oil containment boom constructed out of fire-retardant fabrics and reinforced internal strength members and designed to withstand exposure to heat and flame during in-situ burning operations. Fire resistant booms typically undergo material degradation when subjected to intense heat and flame for extended periods as is associated with the in-situ burning of oil. Fire resistant booms have a planning service life of one operational day.

Gulf Coast means for the purposes of dispersant-application requirements, the region encompassing the following Captain of the Port Zones:

(1) Corpus Christi, TX.

(2) Houston/Galveston, TX.

(3) Port Arthur, TX.

(4) Morgan City, LA.

(5) New Orleans, LA.

(6) Mobile, AL.

(7) Tampa, FL.

In-situ burn operations group supervisor means the person in charge of the in-situ burn operations functional group under the operations section of the ICS organization.

Operational effectiveness monitoring means monitoring concerned primarily with determining whether the dispersant was properly applied and how the dispersant is affecting the oil.

Pre-authorization for dispersant use means an agreement, adopted by a Regional Response Team or an Area Committee, that authorizes the use of dispersants at the discretion of the Federal On-Scene Coordinator (in some cases in the context of the Unified Command) without the further approval of other Federal or State authorities. These pre-authorization areas are generally limited to particular geographic areas within each region.

Pre-authorization for in-situ burning means an agreement, adopted by a Regional Response Team or an Area Committee, that authorizes the in-situ burning of oil at the discretion of the Federal On-Scene Coordinator (in some cases in the context of the Unified Command) without the further approval of other Federal or State authorities. These pre-authorization areas are generally limited to particular geographic areas within each region.

Primary dispersant staging site means a site designated within a Captain of the Port zone where identified as a forward staging area for dispersant-application platforms and the loading of dispersant stockpiles. Primary staging sites would normally be the planned location where the platform would load or reload dispersants prior to departing for application at the site of the discharge and may not be the location where dispersant stockpiles are stored or application platforms are home based.

Quick or expedited approval for dispersant use means an arrangement that limits the information the Federal On-Scene Coordinator must provide in order to obtain concurrence from a limited number of agencies, generally associated with a limited time in which a decision must be reached (typically less than two hours).

Quick or expedited approval for in-situ burning means an arrangement that limits the information the Federal On-Scene Coordinator must provide in order to obtain concurrence from a limited number of agencies, generally associated with a limited time in which a decision must be reached (typically less than two hours).

10. In § 155.1035, revise paragraph (i)(9) and add paragraphs (i)(10), (i)(11), and (i)(12) to read as follows:

(i) * * *

(9) For vessels that handle, store, or transport Group II through Group IV petroleum oils, the section must also separately list the resource providers identified to provide the salvage, vessel firefighting, and lightering capabilities required in this subpart.

(10) For vessels that handle, store, or transport Group II through Group IV petroleum oils (and that operate in waters where dispersant use pre-authorization or expedited approval exists) this section must also separately list the resource providers and specific resources, including appropriately trained dispersant-application personnel, necessary to provide, if appropriate, the dispersant capabilities required in this subpart. All resource providers and resources must be available by contract or other approved means. The dispersant resources to be listed within this section must include the following:

(i) The identification of each primary dispersant staging site to be used by each dispersant-application platform to meet the requirements of § 155.1050(j).

(ii) The identification of the platform type, resource provider, location, dispersant payload, and readiness/mobilization category (as provided for in Table 7 of appendix B to this part) for each dispersant-application platform identified. Location data should identify the distance between the platform's home base and the identified primary dispersant staging site(s) for this section.Start Printed Page 63347

(iii) The identification of the dispersant product resource provider, location and amount for each unit of dispersant stockpile required to support the required Effective Daily Application Capacity (EDAC) of each dispersant-application platform necessary to sustain each intended response tier of operation. Location data should include the stockpile's distance to the primary staging sites where it would be loaded onto the corresponding platforms. If an oil spill removal organization has been evaluated by the Coast Guard and its capability has been determined to equal or exceed the response capability needed by the owner or operator, the section may identify the oil spill removal organization only, and not the information required in paragraphs (i)(10)(i) through (10)(iii) of this section.

(11) This section must also separately list the resource providers and specific resources necessary to provide, if appropriate, the in-situ burn capabilities as required in this subpart. The in-situ burn resources to be listed within this section must include the following:

(i) The identification of the amount, type, providing-resource organization, and location of in-situ burn boom identified and ensured available.

(ii) The identification of the amount, type, resource provider, and location of support vessels, identified and ensured available, to deploy, and if necessary, tow the in-situ burn boom during burning operations.

(iii) The identification of the amount, type, resource provider, and location for each ignition device required to support the required Effective Daily Burn Capacity (EDBC) of each in-situ burn package.

(iv) The identification of the amount, location, and resource provider of trained personnel necessary to support the required EDBC of each in-situ burn package.

(v) If an oil spill removal organization has been evaluated by the Coast Guard and its capability has been determined to equal or exceed the response capability needed by the owner or operator for the credit level requested, the section may identify the oil spill removal organization and the level of in-situ burn removal capability being provided, and not the information required in paragraphs (i)(11)(i) through (11)(iv) of this section.

(12) The section must also separately list the resource providers and specific resources necessary to provide oil-tracking capabilities required in this subpart. The oil tracking resources to be listed within this appendix must include the following:

(i) The identification of a resource provider.

(ii) Type and location of aerial surveillance aircraft that have been ensured available, through contract or other approved means, to meet the oil tracking requirements of § 155.1050(k).

11. In § 155.1040, revise paragraph (j)(9) and add paragraphs (j)(10), (j)(11), and (j)(12) to read as follows:

(j) * * *

(9) The section must also separately list the resource providers identified to provide the salvage, vessel firefighting, and lightering capabilities required in this subpart.

(10) The section must also separately list the resource providers and specific resources necessary to provide, if appropriate, the dispersant capabilities required in this subpart. The dispersant resources to be listed within this section must include the following:

(i) The identification of a primary dispersant staging site or sites to be used by each dispersant-application platform that is ensured available, through contract or other approved means, to meet the requirements of § 155.1050(j).

(ii) The identification of the type, resource provider, location, dispersant payload, and readiness/mobilization category (as provided for in Table 7 of appendix B to this part) for each dispersant-application platform identified and ensured available. Location data should identify the distance between the platform's home base and the identified primary dispersant staging sites for this section.

(iii) The identification of the resource provider, location and amount for each unit of stockpile required to support the required Effective Daily Application Capacity of each dispersant-application platform, as necessary to sustain each intended response tier of operation. Location data should include the stockpile's distance to the primary staging sites where it will be loaded onto the corresponding platforms. If an oil spill removal organization has been evaluated by the Coast Guard and its capability has been determined to equal or exceed the response capability needed by the owner or operator, the section may identify the oil spill removal organization only, and not the information required in paragraphs (j)(10)(i) through (10)(iii) of this section.

(11) This section must also separately list the resource providers and specific resources necessary to provide, if appropriate, the in-situ burn capabilities as required in this subpart. The in-situ burn resources to be listed within this section must include the following:

(i) The identification of the amount, type, resource provider, and location of in-situ burn boom identified and ensured available.

(ii) The identification of the amount, type, resource provider, and location of support vessels, identified and ensured available, to deploy, and if necessary, tow the in-situ burn boom during burning operations.

(iii) The identification of the amount, type, resource provider, and location for each ignition device required to support the required Effective Daily Burn Capacity (EDBC) of each in-situ burn package.

(iv) The identification of the amount, location, and resource provider of trained personnel necessary to support the required EDBC of each in-situ burn package.

(v) If an oil spill removal organization has been approved by the Coast Guard and its capability is equal to or exceeds the response capability needed by the owner or operator for the credit level requested, the section may identify the oil spill removal organization and the level of in-situ burn removal capability being provided, and not the information required in paragraphs (j)(11)(i) through (11)(iv) of this section.

(12) The section must also separately list the resource providers and specific resources necessary to provide oil-tracking capabilities required in this subpart. The oil tracking resources to be listed within this section must include the following:

(i) The identification of resource provider.

(ii) Type and location of aerial surveillance aircraft that have been ensured available, through contract or other approved means, to meet the oil tracking requirements of § 155.1050(k).

12. In § 155.1050—

a. Remove and reserve paragraph (j);

b. Redesignate paragraphs (l), (m), (n), (o), and (p), as paragraphs (o), (p), (q), (r), and (s) respectively; and

c. Add new paragraphs (l), (m), and (n) to read as follows:

(l) The owner or operator of a vessel carrying Groups II through IV petroleum oil as a primary cargo that operates in any inland, nearshore, or offshore area with pre-authorization or expedited Start Printed Page 63348approval for dispersant use must identify in their response plan, and ensure the availability of, through contract or other approved means, response resources capable of conducting dispersant operations within those areas.

(1) Dispersant response resources must be capable of commencing dispersant-application operations at the site of a discharge within 7 hours of the decision by the Federal On-Scene Coordinator to use dispersants.

(2) Dispersant response resources must include the following:

(i) Sufficient dispersant capability for application as required by paragraph (l)(3) of this section. Any dispersants identified in a response plan must be of a type listed on the National Oil and Hazardous Substances Pollution Contingency Plan Product Schedule (40 CFR part 300) as maintained by the Environmental Protection Agency.

(ii) Dispersant-application platforms capable of delivering and applying the dispersant on a discharge in the amounts as required by paragraph (l)(3) of this section. At least 50 percent of each effective daily application capacity (EDAC) tier requirement must be achieved through the use of fixed wing aircraft-based application platforms.

(iii) Dispersant-application personnel trained in and capable of applying dispersant within the performance criteria as outlined in ASTM F 1413-92. For dispersant-application systems not fully covered by ASTM F 1413-92, such as fire monitor-type applicators, adequacy of performance criteria must be documented by presentation of independent evaluation materials (e.g. laboratory tests field tests, reports of actual use, etc.) which document the design and performance specifications.

(iv) Dispersant-application systems ensured available, including trained personnel, that are capable of applying dispersants in accordance with the recommended procedures contained within ASTM F 1737-96.

(3) Dispersant stockpiles, application platforms, and other supporting resources must be ensured available in a quantity and type sufficient to treat a vessel's worst case discharge (as determined by using the criteria in Section 8 of appendix B to this part), or in quantities sufficient to meet the requirements in Table 155.1050(l), whichever is the lesser amount.

Note:

Gulf Coast Tier 1 is higher due to greater potential spill size and frequency in that area, and it is assumed that dispersant stockpiles would be centralized in the Gulf area. Alternative application ratios may be considered based on submission to the Coast Guard (G-MOR) of peer-reviewed scientific evidence of improved capability.

(m) The owner or operator of a vessel carrying Groups II, IV petroleum oil as a primary cargo that operates in any inland, nearshore, or offshore area with pre-authorization or expedited approval for in-situ burning may request credit which will count toward his or her on-water mechanical recovery capability for worst case discharge response Tiers 2 and 3 up to the amounts identified in paragraph (m)(2) of this section. No credit is available for Tier 1. To receive this credit, the vessel owner or operator must identify and ensure, through contract or other approved means the availability of the necessary resources to sustain in-situ burning operations for the level of credit being requested.

(1) In-situ burn response resources must be capable of commencing ignition of oil at the site of a discharge within 12 hours of the initial authorization of the Federal On-Scene Coordinator to conduct in-situ burning to receive credit against Tier 1 requirements.

(2) In-situ burn response resources for all response tiers must include the following:

(i) Sufficient in-situ burn boom.

(ii) Vessel platforms capable of towing and tending in-situ burn boom in the operating environments where credit is requested.

(iii) Sufficient ignition devices to support burning operations.

(iv) Personnel trained in conducting in-situ burning operations.

(v) All equipment ensured available as required in paragraphs (m)(2)(i) through (m)(2)(iii) of this section must be capable of sustained use in the operating environments for which credit is requested.

(3) In areas that have ice-bound conditions throughout prolonged periods of the year, credit levels for EDBC against on-water mechanical recovery requirements can be elevated, as deemed appropriate, by the respective Area Committee for the area where the extra credit is being considered. Extra EDBC levels are at the discretion of the Area Committee, however, it is not recommended that EDBC levels comprise more than 50 percent of the total on-water recovery capability for a planholder in any one particular Captain of the Port area.

(n) The owner or operator of a vessel carrying Groups I through IV petroleum oil as a primary cargo must identify in the response plan, and ensure the availability of, through contract or other approved means, response resources necessary to provide aerial oil tracking to support oil spill assessment and cleanup activities.

(1) Aerial oil tracking resources must be capable of arriving at the site of a discharge within three hours from the time of the initial notification of the discharge for a distance up to 50 nautical miles from shore. Aerial oil tracking resources should plan on a minimum of two hours for a recall period and one hour of flight time to arrive on-scene.

(2) Aerial oil tracking must include the following resources:

(i) Appropriately located aircraft and personnel capable of meeting the response time requirement for oil tracking in paragraph (n)(1) of this section.

(ii) Sufficient numbers of aircraft, pilots, and trained observation personnel to support oil spill operations, commencing upon initial assessment, and capable of coordinating on-scene cleanup operations, including dispersant, in-situ burn, and mechanical recovery operations.

(iii) Observation personnel must be trained in the protocols of oil spill reporting and assessment, including estimation of slick size, thickness, and quantity. Observation personnel must be trained in the use of assessment techniques as outlined in ASTM F 1779-97, and familiar with the use of other guides, such as NOAA's “Open Water Oil Identification Job Aid for Aerial Observation,” and NOAA's “Characteristic Coastal Habitats” Guide.

(iv) Aerial oil tracking resources must be capable of supporting oil spill removal operations continuously for three ten-hour operational periods during the initial seventy-two hours of the discharge.

13. In appendix B to part 155, revise section 8, and following Table 6, add Tables 7, 8, and 9 to read as follows:

Appendix B to Part 155—Determining and Evaluating Required Response Resources for Vessel Response Plans

8. Determining the Capability of High-Rate Response Methods

8.1 Calculating Cumulative Dispersant-Application Capacity Requirements.

8.1.1. A vessel owner or operator should plan either for a dispersant capacity to respond to a vessel's worst case discharge (WCD) of oil, or for the amount of the dispersant resource capability as required by § 155.1050(l)(3) of this part, whichever is the lesser amount. When planning for the cumulative application capacity that is required, the calculations should account for the loss of some oil to the environment due to natural dissipation causes (primarily evaporation). The following procedure should be used to determine the cumulative application requirements:

8.1.2. Determine the volume of oil carried in gallons, and the appropriate cargo group for the type of petroleum oil carried (Groups II, III, IV). For vessels carrying mixed cargoes, assume a total cargo volume using the cargo group that constitutes the largest portion of the oil being carried, or the cargo group with the smallest natural dissipation factor.

8.1.3. Multiply the total cargo amount in gallons by the natural dissipation factor for the appropriate cargo group as follows: Group II factor is 0.50; Group III factor is 0.30, and Group IV factor is 0.10. This represents the amount of cargo that can be expected to be lost to natural dissipation. Subtract the cargo amount lost to natural dissipation from the total cargo amount carried to determine the remaining oil cargo available for treatment by dispersant-application.

8.1.4. Multiply the cargo available for dispersant treatment by the dispersant to oil planning application ratio of 1 part dispersant to 20 parts oil (0.05). The resultant number represents the cumulative total dispersant-application capability that must be ensured available within the first 60 hours.

8.1.5. The following is an example of the procedure described above: A vessel with a 1,000,000 gallons capacity of crude oil (specific gravity 0.87) will transit through an area with pre-authorization for dispersant use in the nearshore environment on the U.S. East Coast.

Cargo carried: 1,000,000 gallons, Group III oil.

Natural Dissipation Factor for Group III: 30%

General formula to determine oil available for dispersant treatment: ((WCD)—[(WCD) × (natural dissipation factor)] = available oil.

E.g., 1,000,000 gal—(1,000,000 gal × 0.30) = 700,000 gallons available oil.

Cumulative application capacity = Available oil × planning application ratio (1 gal dispersant to 20 gals oil = 0.05), 700,000 gal oil × (0.05) = 35,000 gallons cumulative dispersant-application capacity.

The requirements for cumulative dispersant-application capacity (35,000) for this vessel's WCD is less than the overall dispersant capability cap for non-Gulf Coast waters as required by § 155.1050(l)(3) of this part. As such, this vessel would not need to meet the entire amount for Tier 3, but would be required to meet the following tier requirements (totaling 35,000 gallons application):

Tier 1 4,125 gallons

Completed in 12 hours

Tier 2 23,375 gallons

Completed in 36 hours

Tier 3 7,500 gallons

Completed in 60 hours

8.2 Determining Effective Daily Application Capacities “EDAC” for Dispersant Response Systems.

8.2.1. This section discusses methods to be used for the purposes of determining the effective daily application capacity of a dispersant response system. This methodology considers mobilization factors for dispersant platforms as well as dispersant stockpiles and platform application rates (as published in the 1999 Summary Report of Public Workshop for Response Plan Equipment CAPs).

8.2.2. For each Captain of the Port Zone where a dispersant response capability is required, the response plan must identify the following:

• The type, number, and location of each dispersant-application platform intended for use in meeting dispersant delivery requirements specified in § 155.1050(l)(3) of this part.
• The amount and location of available dispersant stockpiles to support each platform.
• A primary staging site for each platform that will serve as its base of operations for the duration of the response.

8.2.3. Using the readiness factors from Table 7 of this appendix and platform capability factors in Table 8 of this appendix, calculate mobilization times and dispersant delivery capabilities for each platform. For each aircraft platform—

MP = R + T + L

MP = Mobilization of platform

R = Recall time in hours (time it takes for dispersant operations personnel to arrive at the storage location and to prepare the dispersant application system for transport)

T = Transit time it takes for dispersant-application system to be transported to the staging area mobilization (in hours)

L = 1 hour to load dispersant at the staging site if platform is not preloaded. Total time for platform mobilization should be less than 7 hours for Tier 1, less than 24 hours Start Printed Page 63350for Tier 2, and less than 48 hours for Tier 3.

For each stockpile—

MS= R + T + L

MS = Mobilization of Stockpile

R = Recall of loading personnel/transportation assets and loading dispersant for transport if applicable

T = Transit time to staging site

L = 1 hour for loading on delivery platform. Note that transit time to the spill site is included in delivery capability calculations for aircraft but not for vessels. Total time for stockpile mobilization should be less than 7 hours for Tier 1, less than 24 hours for Tier 2, and less than 48 hours for Tier 3;

Delivery capability for Tier 1 should be calculated as follows:

R/10 × 12—T

R = EDAC Rate (from Table 8)

10 = 10 hours in operational period

12 = assumed hours of daylight for planning purposes

T = mobilization time (either for platform or stockpile time whichever is greater). Delivery capability for all Tier 1 platforms should at least equal amount specified for Tier 1 in § 155.1050(l)(3) of this part; and

For Tiers 2 and 3, delivery capability for each platform is the EDAC Rate in Table 8 of this appendix, which shows delivery capability for each resource assuming 10-hour operating period. Delivery capability for all Tier 2 and 3 platforms must at least equal amount specified for Tiers 2 and 3 in § 155.1050(l)(3) of this part.

For each vessel platform—

MP = R + T + L

MP = Mobilization of platform

R = Recall time in hours (time it takes for dispersant operations personnel to arrive at the storage location and to prepare the dispersant-application system for transport

T = Transit time (time it takes for dispersant application system to be transported to the staging area mobilization Transit time from staging site or usual location of facility to the spill site

L = 1 hour to load dispersant at staging site if platform is not preloaded. Total time for platform mobilization should be less than 7 hours for Tier 1, less than 24 hours for Tier 2, and less than 48 hours for Tier 3. Usual location of the vessel is the location where the vessel is typically employed when not engaged in dispersant-application operations. Spill site is the location in the Captain of the Port zone furthest from the dispersant platform staging site or the usual location of the vessel.

MS = R + T

MS = Mobilization of Stockpile

R = Recall of loading personnel/transportation assets and loading dispersant for transport if applicable

T = Transit time to staging site. Total time for stockpile mobilization should be less than 6 hours for Tier 1, less than 23 for hours Tier 2, and less than 47 hours for Tier 3 to allow time for loading dispersant on delivery platform.

Delivery capability for tier 1 should be calculated as follows:

R/10 × 12—T

R = EDAC Rate (from Table 8 of this appendix)

10 = 10 hours in operational period

12 = assumed hours of daylight for planning purposes

T = mobilization time either for platform or stockpile time whichever is greater. Delivery capability for all Tier 1 platforms should be at least equal the amount specified for Tier 1 in § 155.1050(l)(3) of this part.

For Tiers 2 and 3, delivery capability for each platform is the EDAC Rate in Table 8 of this appendix, which shows delivery capability for each resource assuming 10-hour operating period. Delivery capability for all Tier 2 and 3 platforms must at least equal amount specified for Tiers 2 and 3 in § 155.1050(l)(3) of this part.

8.2.3.1 EDAC must be calculated for each platform and supporting stockpile, and added together as appropriate to meet the dispersant-application tier requirements.

8.2.3.2 The following is an example of the procedure described above: A plan lists a stockpile of 5,000 gallons of dispersant located 35 miles from a central staging site (a coastal airport) but not loaded for transport, and a DC-3 aircraft based at a facility approximately 75 miles from the staging site. The DC-3 is dedicated to dispersant spraying operations. The EDAC allowed toward Tier 1 for this dispersant-application system can be calculated as follows:

Stockpile: Amount−5000 gallons.

Stockpile Mobilization time: R = 4 hours, T = 35 miles/35 miles per hour or 1 hour, hours = 4 + 1 + 1 hour loading = 6 hours.

Platform Mobilization: R = 2 hours, T = 75 miles/150 miles per hour or 0.5 hours + 1 hour loading at staging site = 2 + 1.5 + 1 = 3.5 hours.

Operational period “OP” = 12 hours daylight—5 hours (use longer of stockpile or platform mobilization time) = 7 hours (i.e., commencing 6 hours after notification of approval and continuing until the end of the first 12 hour daylight period).

Tier 1 delivery capability for this platform = (Table 8) EDAC rate = 5000 gallons/10 hours × 6 = 3000 gallons application capacity.

8.2.3.3 Table 8 of this appendix is based on average characteristics (for planning and review purposes) for most types of application platforms typically used for spraying dispersants. However, other platform types do exist, and additional platform types are expected to develop with time. The Coast Guard will review requests to establish EDAC rates for other platform types at their discretion. EDAC calculations for additional platforms will use the same methodology as used to establish the existing rates already contained within Table 8 of this appendix.

8.3 Determining Effective Daily Burn Capacities “EDBC” for In-situ Burn Response Systems.

8.3.1 For the purposes of determining the effective daily application capacity of in-situ burn resources, the information within this section applies.

8.3.2 For each Captain of the Port zone where an in-situ burn response capability is ensured available, the response plan must identify the following:

• The type, location, and amount of in-situ burn boom available.
• The amount and location of available ignition sources. If ignition system ensured available is a helitorch, a source of pilots trained in the use of the helitorch and suitable aircraft must be identified that can respond within the required response times.
• The identification of supporting vessels and trained operators capable of towing, deploying, and tending the fire boom.

8.3.3 Using the readiness factors from Table 9, mobilization times are calculated for each in-situ burn system. The General Formula for calculating Tier 1 mobilization time is as follows:

T = (MB + MV) or (MH), whichever is greater (in hours)

T = Total Mobilization

MB = Mobilization of In-situ burn boom/hand held igniters

MB = R + L + T1

R = Recall of loading personnel/transportation assets

L = Loading to truck

T1 = Transit time to vessel staging site

MV = Mobilization of Support Vessels = L + T2

L = Boom loading to vessel

T2 = Transit time to spill site

MH = Mobilization of Helitorch = R + T1 + L + T2

R = Recall of personnel/platform +

T1 = Transit time to staging site

L = Torch loading

T2 = Transit time to spill site

8.3.4 The mobilization times are used to ensure that a full 12 hour “operational period” or “OP” for in-situ burning is available for Tier 1. All operational period calculations assume approval for use is granted at zero hour, and that a maximum of 12 hours is available to support oil collection and burning within the initial 24-hour period. The available time allowed to support in-situ burning is slightly longer (12 hours) in comparison to dispersant operations (10 hours) as in-situ burning operations can continue on for a limited period during darkness where dispersant spraying would be suspended due to decreased visibility. The 12-hour period is divided into four 1-hour burning cycles, each preceded by a 2-hour oil containment and collection cycle.

8.3.4.1 The general formula for calculating the tier 1 operational period of a system is: Operational Period “OP” = 24 hours—(the mobilization time for the boom + platform or the mobilization time for the supporting helitorch igniter (if used), whichever is greater.

8.3.5 For planning purposes, an in-situ burning system is comprised of the following minimum components that must be ensured available: minimum 500 ft. fire boom, two support vessels to tend and tow the boom, and four hand-held igniters or one helitorch system. 500 ft. sections of fire resistant boom are credited with a 5,000 bpd burning capacity, and are also considered to have a service life of one operational period. For example, a second (Tier 2) and third (Tier 3) section of 500 ft. boom must be ensured Start Printed Page 63351available if the planholder desires to claim a 5,000 bpd credit for all three tiers.

8.3.6 Planholders may request extensions of boom service lives beyond one operational period for “fire-proof” type boom, such as stainless steel, or water-cooled boom designs, when such boom has been tested and can be adequately documented as providing extended service capabilities. Planholders may receive credit for multiple operational periods using the same 500 ft. section of boom dependent upon the documentation presented to the Coast Guard for review and approval.

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