United States Environmental Protection ^1 M % Agency EPA-530-R-23-027 COMPENDIUM OF ALTERNATIVE TECHNOLOGIES TO OPEN BURNING AND OPEN DETONATION OF ENERGETIC HAZARDOUS WASTES This compendium is intended for use by open burning/open detonation (OB/OD) facility owners and operators and state and federal permit agencies. The identified alternative treatment technologies are facility- and waste-specific. A technology that has been identified or implemented for a particular waste stream at one facility may not be suitable for another facility with a similar waste stream. This may be encountered across all OB/OD facilities, and more likely at Research, Development, Test, and Evaluation facilities where standard formulations may have been modified resulting in increased sensitivity and explosive risk and perform stress testing that reduces explosives and munitions stability. This compendium documents when and, in most cases, where alternative technologies have been identified and implemented by facilities. It serves as a supplemental guide both for facilities initiating an alternative technology evaluation and for permit agencies reviewing an alternative technology evaluation. The primary purpose is to allow for comparison of waste streams being evaluated to the waste streams that may be or have been treated in the listed technologies and thereby, inform decisions and promote dialogue between facilities and permit agencies. The compendium is a living document and is expected be updated in the future as more information or new technologies are identified. Alternative Technology Compendium — September 12, 2023 Page 1 of 136 ------- The tables below are organized according to the munition or explosive item that either has a documented identified technology or an implemented technology. For the tables, the column header notes are as follows: NEWA Per Treatment Event where A = Net explosive weight Throughput of UnitB where B = Throughput is included for example purposes only, as neither the size of the unit nor the source of the rate (design versus permit versus actual) is included. Treatment Technologyc whereC = Technology vendor and manufacturer names are included when available in the source documents. Waste Type may include reference numbers where 1 z 3 = 1 — Pyrotechnic substance or article containing both an explosive substance and an illuminating, incendiary, tear-producing, or smoke-producing substance. Flares or signals. 2—Propellant explosive substance or other deflagrating explosive substance or article containing such explosive substance. 3 —Secondary detonating explosive substance or black powder article without a means of initiation and without a propelling charge. Typically contains nitroglycerine, dichloromethane, or nitrodiphenylamine. Source Documents denoted by [ ] and corresponding number: [1] US Army. 2021. "Aberdeen Proving Ground—J-Field OD Unit and OBF OB/OD Units—Evaluation of Alternatives to OB/OD, Revision 2." March 26. [2] US Air Force Material Command. 2020. "Alternative Technologies to Open Burn/Open Detonation Explosive Ordnance Disposal Range Open Burn/Open Detonation Units Edwards Air Force Base, California." November. [3] US Environmental Protection Agency. 2019. "Alternative Treatment Technologies to Open Burning and Open Detonation of Energetic Hazardous Wastes, Final Report." Office of Resource Conservation and Recovery, EPA 530-R-19-007. December, https://www.epa.gov/hwpermitting/report-about-alternative-technologies-open-burning-and- open-detonation-energetic [4] Southwest Research Group. 2017. "Final Review Report: Alternatives for the Disposal of Energetic Waste at the Clean Harbors Colfax LLC Open Burn Open Detonation Facility, Colfax, Louisiana." April. Alternative Technology Compendium—September 12, 2023 Page 2 of 136 ------- [5] Southwest Research Group. 2017. "Final Review Report: Alternatives for the Disposal of Energetic Waste at the Clean Harbor's Colfax LLC Open Burn Open Detonation Facility, Colfax, Louisiana." June. [6] Northrop Grumman. 2022. "Energetic Waste Stream and Alternative Technology Evaluation ATK Launch Systems LLC Bacchus Facility NIROP." March. [7] National Aeronautics and Space Administration (NASA). 2017 and 2023. "Goddard Space Flight Center Wallops Flight Facility Wallops Island, Virginia." [8] TLI Solutions. 2020. "Open Burning and Open Detonation Re-evaluation of Alternative Technologies, Blue Grass Army Depot." December. [9] US Department of Army. Undated. "Alternative Technologies to Open Burning of Propellants, Radford Army Ammunition Plant." [10] National Academies of Sciences, Engineering, and Medicine. 2019. "Alternatives for the Demilitarization of Conventional Munitions." January. [11] US Army Defense Ammunition Center. 2012. "Hazard Classification of United States Military Explosives and Munitions, Revision 15." June. [12] BAE Systems, Ordnance Systems Inc. 2018. "Evaluation of Open Burning at HSAAP Phase One." December. [13] US Department of the Army. 2019. "Final Report Thermal/Non-Thermal Solutions to Open Burning Holston Army Ammunition Plant (HSAAP)." March 28. [14] US Navy. 2020. "Revised Evaluation of Alternative Technologies to Open Detonation for Treatment of Energetic Wastes at the Burro Canyon Naval Air Weapons Station, China Lake, CA." April 28. [15] US Navy. 2022. "Updated Evaluation of Alternative Technologies to Open Detonation for Treatment of Energetic Wastes at the Burro Canyon Naval Air Weapons Station, China Lake, CA, Revised Report." April 26. [16] Missouri Division of Environmental Quality. 2021. "Missouri Hazardous Waste Management Facility Permit for EBV Explosives Environmental Company dba General Dynamics Ordnance and Tactical Systems Munitions Services, Permit Number MOD985798164, May 26." [17] Louisiana Department of Environmental Quality. 2023. "Revised Draft Hazardous Waste Operating Renewal Permit for Clean Harbors Colfax, LLC, Permit Number LAD981055791-OP-RN-2." March. [18] Kentucky Department for Environmental Protection. 2020. "Class 3 Hazardous Waste Storage & Treatment Permit Modification Request, Change in Rocket Management and Miscellaneous Permit Updates for the Blue Grass Chemical Agent-Destruction Pilot Plant Blue Grass Army Depot, Richmond, Kentucky." November. [19] Maryland Department of the Environment. 2022. "Solid Waste Program Controlled Hazardous Substance Permit, U.S. Army Garrison Aberdeen Proving Ground, Maryland." May. [20] General Dynamics-EBV Explosives Treatability Response. 2022. "EBV Explosives Environmental Company, Joplin Missouri." October. Alternative Technology Compendium—September 12, 2023 Page 3 of 136 ------- [21] Clean Harbors Colfax, LLC. 2022. "Revisions to Responses to NOD #1, RCRA Hazardous Waste Permit Renewal Application." January. [22] US EPA. 2015. "Request for Approval of an Amended Time-Critical Removal for M6 and CBI Propellant at the Explo Systems, Inc. Site, Minden, Webster Parish, Louisiana Memorandum." March. [23] Pennsylvania Department of Environmental Protection. 2022. "US Army Letterkenny Depot Air Quality Program." October. [24] Dynasafe Demil Systems. 2023. "Dynasafe Capabilities PowerPoint Presentation." May. [25] PIKA International, Inc. "Fort Wingate Depot Disposition of Energetics and MEC." http://www.pikainc.com/case-histories/fort-wingate-depot-activity-mec/ [26] PIKA International, Inc. "Thermal Convection." http://www.pikainc.com/innovative-technologies/thermal-convection-system/ [27] PIKA International, Inc. "Pine Bluff Time-Critical White Phosphorus Clean-up." http://www.pikainc.com/case-histories/pine-bluff-tc-wp-clean-up/ [28] PIKA International, Inc. "Equipment D&D at Lake City AAP." http://www.pikainc.com/case-histories/lake-city-aap-atk-scrap-decontamination/ [29] PIKA International, Inc. "Indiana AAP Building and Equipment D&D." http://www.pikainc.com/case-histories/indiana-aap-dd-of-explosives-contaminated- buildingsequipment/ [30] PIKA International, Inc. "In Situ Thermal Decontamination Operations." http://www.pikainc.com/case-histories/in-situ-thermal-decontamination-of-energetics- contaminated-structures/ [31] PIKA International, Inc. "Small Arms Ammunition Demilitarizing and Recycling." http://www.pikainc.com/services/small-arms-ammo-demilitarization-and-recycling/ [32] Missouri Department of Natural Resources. "EBV Explosives Environmental Co. Class 2 Hazardous Waste Permit Modification Request Public Comment Period, July 18, 2022, to Sept. 16, 2022." https://dnr.mo.gov/content/ebv-explosives-environmental-co-class-2-hazardous-waste-permit-modification-request-public-comment-period-july-18-2022- sept-16-2022 [33] Indiana Department of Environmental Management. 2014. "Hazardous Waste Management Permit, Crane Naval Surface Warfare Center, Class 1 Modification." January. [34] Indiana Department of Environmental Management. 2018. "Hazardous Waste Management Permit, Draft Class 3 Permit Modification." August. [35] First Lieutenant Marshall Z Howell, U.S. Army. 2014. "Crane Army's Conversion Plant Recycles Munitions Into New Products." July. https://www.army.mil/article/130652/crane_armys_conversion_plant_recy cles_munitions_into_new_products#:~:text=Crane%20Army%27s%20white%20phosphorus-to- phosphoric%20acid%20conversion%20plant%20is,can%20then%20be%20sold%20on%20the%20open%20market Alternative Technology Compendium—September 12, 2023 Page 4 of 136 ------- [36] Raenna Morgan, U.S. Army. 2017. "Pioneering New Ways to Destroy Old Ammunition." September. https://www.army.mil/article/193222/pioneering_new_ways_to_destroy_old_ammunition [37] U.S. Department of Transportation. (49 CFR 173.52([b]). August 14, 2023. Alternative Technology Compendium—September 12, 2023 Page 5 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Large-cased munitions contain more than 45 kg (100 lb) of energetic material per item. Casings for these items may be thick or thin. This category includes bombs, rocket motors, warheads, large projectiles, sectioned munitions, and all-up missiles. 60 mm Projectile 1.2 None Controlled Detonation Chamber (transportable model T-60) Implemented [3] No [3] <40 lb [3] Reactive bed, porous ceramic filter, and a catalytic oxidizer operating at 1095 °C [2] [3] [5] [7] [8] [18] [24] None Dynasafe Static Detonation Chamber (SDC-1200: semi-portable, SDC-2000: fixed) Implemented [18] Yes [18] 805 lb [2] SDC-1200C: 3703 lb/hr[24] SDC-2000C: 6172 lb/hr[24] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters Alternative Technology Compendium—September 12, 2023 Page 6 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents [] Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Medium-cased munitions cor warheads, rocket motors, met itain between 227g to 45 kg (0.5 and 100 lb) of energetic materials per item. The casings for these items may be thick or thin. This category includes bomblets, ium projectiles, propellant charges for projectiles, grenades, mines, flares, sectioned munitions, all-up missiles, and numerous other types of munitions. 20 mm High- Explosive- Incendiary (HEI) Cartridge None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [17] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and the air pollution control system (APCS) stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 7 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents [] Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 40 mm HEI None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [10] Cartridge Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack 66 mm Rocket or 1.1E Disassembly Controlled Implemented No T-60: <40 lb Reactive bed, porous [1] [2] [3] [5] Missile by robotic implements Detonation Chamber [3] [3] ceramic filter, and [8] [18] [19] [24] Alternative Technology Compendium—September 12, 2023 Page 8 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents [] Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Components (1.5 - Cryofracturing (transportable catalytic oxidizer 12 lb NEW) to remove explosive material models T-10, T-25, T-30, T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Identified [1] No [19] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material 81 mm Large Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Caliber Cartridge by robotic implements Detonation Chamber [3] ceramic filter, and [7] [8] [18] [24] Alternative Technology Compendium—September 12, 2023 Page 9 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents [] Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] or Projectile (1.5 lb Cryofracturing (transportable catalytic oxidizer NEW) to remove explosive material model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 10 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 84 mm Large HC 1.2 Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Caliber Cartridge by robotic Detonation [3] ceramic filter, and [7] [8] [18] or Projectile (1 lb implements Chamber catalytic oxidizer [24] NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 11 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 90 mm Large HC 1.2 Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Caliber Cartridge by robotic Detonation [3] ceramic filter, and [7] [8] [18] or Projectile (17 lb implements Chamber catalytic oxidizer [24] NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 12 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 105 mm Large HC 1.1E Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Caliber Cartridge by robotic Detonation [3] ceramic filter, and [7] [8] [18] or Projectile (4.5 lb implements Chamber catalytic oxidizer [24] NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 13 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 107 mm Rocket or HM, Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Missile HR by robotic Detonation [3] ceramic filter, and [7] [8] [18] Component (1.5 to implements Chamber catalytic oxidizer [24] 12 lb NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 14 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 120 mm Large HC 1.1E Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Caliber Cartridges by robotic Detonation [3] ceramic filter, and [7] [8] [18] or Projectiles (6 to implements Chamber catalytic oxidizer [24] 21 lb NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 15 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 122 mm Large HC Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Caliber Cartridges by robotic Detonation [3] ceramic filter, and [8] [18] [24] or Projectiles (3 lb implements Chamber catalytic oxidizer NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 16 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 155 mm Large 1.2.D Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] Caliber Cartridges by robotic Detonation [3] ceramic filter, and [8] [18] [24] or Projectiles (2 to implements Chamber catalytic oxidizer 25 lb NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 17 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] 165 mm Large HC, HP 1.1F Disassembly Controlled Implemented No <40 lb [3] Reactive bed, porous [2] [3] [5] [8] Caliber Cartridges by robotic Detonation [3] ceramic filter, and [18] [24] or Projectiles (2 to implements Chamber catalytic oxidizer 25 lb NEW) Cryofracturing to remove explosive material (transportable model T-60) operating at 1095 °C Water jet slurry to remove explosive material Mechanical Dynasafe Implemented Yes [18] 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, cutting to Static [18] 3703 lb/hr[24] quench, aqueous remove Detonation scrubbers, and carbon explosive Chamber SDC-2000C: filters material (SDC-1200: 6172 lb/hr[24] Water washout semi-portable, to remove SDC-2000: explosive fixed) material Alternative Technology Compendium—September 12, 2023 Page 18 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Airdropped HB 1.1D Reverse Controlled Implemented Yes [18] <20 lb [3] Reactive bed, porous [2] [3] [18] Cluster Bomb assembly Detonation ceramic filter, and Units (manually or by robotic implements) Chamber D-100 (fixed) catalytic oxidizer operating at 1095 °C Cryofracturing to remove explosive material Airdropped HB 1.1D Reverse Controlled Implemented Yes [18] <20 lb [3] Reactive bed, porous [2] [3] [18] Projectiles or assembly Detonation ceramic filter, and Warheads (manually or by robotic implements) Chamber D-100 (fixed) catalytic oxidizer operating at 1095 °C Cryofracturing to remove explosive material Alternative Technology Compendium—September 12, 2023 Page 19 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Fixed Ammunition None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [20] None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Anti-Tank Mines HI 1.1D Reverse assembly (manually or by robotic implements) Controlled Detonation Chamber (fixed models: D-100, D-200) Identified [3] No <100 lb [3] Reactive bed, porous ceramic filter, and catalytic oxidizer operating at 1095 °C [2] [3] Cryofracturing to remove explosive material Alternative Technology Compendium—September 12, 2023 Page 20 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Anti-Personnel/ HI 1.1E Reverse Controlled Identified [3] No <100 lb [3] Reactive bed, porous [2] [3] Material Grenades assembly Detonation ceramic filter, and (Hand Incendiary (manually or Chamber catalytic oxidizer Grenade AN by robotic (fixed models: operating at 1095 °C M14—11.91 lb) implements) D-100, D-200) Cryofracturing to remove explosive material Anti-Personnel/ HI 1.1D Reverse Controlled Identified [3] No <20 lb [3] Reactive bed, porous [2] [3] [8] Material Bomb assembly Detonation ceramic filter, and Loaded Units (manually or by robotic implements) Chamber D-100 (fixed) catalytic oxidizer operating at 1095 °C Cryofracturing to remove explosive material Alternative Technology Compendium—September 12, 2023 Page 21 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Anti-Tank Guided HR 1.3C Disassembly Controlled Identified [3] No <20 lb [3] Reactive bed, porous [1] [2] [3] [7] Missile (ATGM) by robotic Detonation ceramic filter, and [8] [10] Flight Motors (1.5 implements Chamber catalytic oxidizer to 12 lb NEW) Cryofracturing to remove explosive material D-lOO(fixed) operating at 1095 °C Water jet slurry cutting to remove explosive material Mechanical Contained Identified [3] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi cutting (band Burn Chamber scrubber, packed bed saws) to in static scrubber tower, HEPA remove burn/static filter, and induced-draft explosive firing fan material configuration Water washout (fixed) to remove explosive material Alternative Technology Compendium—September 12, 2023 Page 22 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] AN-M43A2, None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [10] Signal, Engineering [21] per burn gas chamber, gas cooler, [16] [17] [21] Illumination Flare Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack None Rotary Kilri Incinerator (fixed) Implemented [21] Yes [17] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 23 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] ATGM Initiators 1.4S Disassembly Controlled Identified [3] No <40 lb [3] Reactive bed, porous [1] [2] [3] [7] (1.5 to 12 lb NEW) by robotic implements Detonation Chamber ceramic filter, and catalytic oxidizer [8] [10] Cryofracturing (transportable operating at 1095 °C to remove model T-60) explosive material Water jet slurry cutting to remove explosive material Mechanical Contained Identified [3] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi cutting (band Burn Chamber scrubber, a packed bed saws) to in static scrubber tower, HEPA remove burn/static filter, and induced-draft explosive firing fan material configuration Water washout (fixed) to remove explosive material Alternative Technology Compendium—September 12, 2023 Page 24 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] ATGM Warheads 1.1D Disassembly Controlled Identified No <40 lb [3] Reactive bed, porous [1] [2] [3] [7] (1.5 to 12 lb NEW) by robotic implements Detonation Chamber ceramic filter, and catalytic oxidizer [8] [10] Cryofracturing operating at 1095 °C to remove explosive material Water jet slurry cutting to remove explosive material Mechanical Contained Identified No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi cutting (band Burn Chamber scrubber, packed bed saws) to in static scrubber tower, HEPA remove burn/static filter, and induced-draft explosive firing fan material configuration Water washout (fixed) to remove explosive material Alternative Technology Compendium—September 12, 2023 Page 25 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Fireworks 1.1G [20] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 26 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Fireworks 1.3G [20] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [17] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] [17] None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 27 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Fireworks 1.4G [20] None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 28 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Fireworks 1.4G [20] None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, (continued) [16] combined D003 and D008 [16] primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Hellfire Eject and 1.3C None Contained Identified [1] No [3] 805 lb [10] 2415 lb/hr[10] Spray tower, venturi [1] [2] [3] [10] Flight Motors (1.5 Burn Chamber scrubber, packed bed to 12 lb NEW) in static burn/static firing configuration (fixed) scrubber tower, HEPA filter, and induced-draft fan Hellfire Initiators Disassembly Controlled Identified [1] No [3] <40 lb [3] Reactive bed, porous [1] [2] [3] [10] (1.5 to 12 lb NEW) by robotic implements Detonation Chamber (transportable models T-10, T-25, T-30, T- 60) ceramic filter, and catalytic oxidizer operating at 1095 °C Hellfire Warheads None Controlled Identified [1] No [3] <40 lb [3] Reactive bed, porous [1] [2] [3] [5] (1.5 to 12 lb NEW) Detonation Chamber (transportable model T-60) ceramic filter, and catalytic oxidizer operating at 1095 °C [8] [10] [24] Alternative Technology Compendium—September 12, 2023 Page 29 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Dynasafe Static Detonation Chamber (SDC-1200: semi-portable, SDC-2000: fixed) Identified [3] No 805 lb [2] SDC-1200C: 3703 lb/hr[24] SDC-2000C: 6172 lb/hr[24] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters Alternative Technology Compendium—September 12, 2023 Page 30 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Incendiary None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] Ammunition Incinerator [16] cyclone particle separator, [5] [7] [10] (Liquid or Gel) (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [16] None Static Kiln Implemented [16] Yes [16] 805 lb [2] 22-88 lb/hr [2] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters L8A3 Red Drilling into Red/White Implemented Permitted 100 lb [34] 750 lb/hr[34] Wet dust collector, dry [2] [3] [33] Phosphorus round to Phosphorous [36] [34] cartridge filtering system, [34] [35] [36] Grenade remove red phosphorus to Phosphoric Acid Conversion Plant at Crane Army Ammunition Activity venturi wet scrubber, cartridge baghouse, and a jet pulse Alternative Technology Compendium—September 12, 2023 Page 31 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] L8A3 White Phosphorus Grenade Drilling into round to remove red white phosphorus Red/White Phosphorous to Phosphoric Acid Conversion Plant at Crane Army Ammunition Activity Implemented [35] Permitted [34] 100 lb [34] 750 lb/hr[34] Wet dust collector, dry cartridge filtering system, venturi wet scrubber, cartridge baghouse, and a jet pulse [2] [3] [33] [34] [35] [36] Alternative Technology Compendium—September 12, 2023 Page 32 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M18A1, Claymore None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [10] Mine Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 805 lb [2] 22-88 lb/hr [2] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters Alternative Technology Compendium—September 12, 2023 Page 33 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M-37 Spin 1.3C Ultra-high ARCTECH Identified [3] No 100 lb/20-day NOx gas controlled with [2] [3] [4] [7] Double-based pressure water Actodemil work month wet scrubber and Motors jet technology Hydrolysis [3] proprietary ActoHAX (Composed to disassemble (semi-portable) reagent Primarily of motor Nitroglycerine High pressure MuniRem Identified [3] No Process is Vendor claims no (NG) and washout to neutralization slow with emissions Nitrocellulose remove (portable) results (NC)) explosive material achieved in hours to days Cryogenic [3] washout to remove explosive material M825 White None PIKA Implemented No [27] Phosphorus International [27] Canisters Thermal Convection System Alternative Technology Compendium—September 12, 2023 Page 34 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Nike Double- 1.3,1.4 Slurry General Identified [10] No 130-240 lb/hr Vendor claims no [2] [3] [7] [10] Based Motors preparation Dynamics emissions (Composed Cryogenic Industrial Primarily of washout to Supercritical Nitroglycerine, remove Water Nitrocellulose, explosive Oxidation and Lead) material (iSCWO) High pressure (fixed) washout to remove explosive material Ultra-high Contained Identified [10] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi pressure water Burn Chamber scrubber, packed bed jet technology in static scrubber tower, HEPA to disassemble burn/static filter, and induced-draft motor firing configuration (fixed) fan Alternative Technology Compendium—September 12, 2023 Page 35 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Orion Composite HM, 1.3C Ultra-high ATK Launch Identified No Venturi scrubber with [2] [6] [7] [10] Motors LR pressure water Systems packed bed scrubber, (Composed jet technology Ammonium paired with magnesium Primarily of to disassemble Perchlorate hydroxide to neutralize Ammonium motor Washout HC1 off-gas Perchlorate, High pressure Removal Aluminum, and a washout to System Rubberized remove Binder) explosive material Cryogenic washout to remove explosive material Removal of Contained Identified No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi explosive Burn Chamber scrubber, packed bed material with in static scrubber tower, HEPA washout burn/static firing configuration (fixed) filter, and induced-draft fan Alternative Technology Compendium—September 12, 2023 Page 36 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Rocket Motors If >6 lbs NEW, demil by cutting required Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] [17] If >6 lbs NEW, demil by cutting required Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Rocket Motor, Chaparral 1.3C None Contained Burn Chamber in static burn/static firing configuration (fixed) Identified [10] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi scrubber, packed bed scrubber tower, HEPA filter, and induced-draft fan [2] [6] [7] [10] Alternative Technology Compendium—September 12, 2023 Page 37 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Rocket Motor 5 in. 1.3C None Contained Identified [10] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi [2] [7] [8] [10] MK22-2/3/4F, Burn Chamber scrubber, packed bed Liner Demo in static scrubber tower, HEPA Charge burn/static firing configuration (fixed) filter, and induced-draft fan Rocket Motor, 2.75 1.3C None Contained Implemented Yes [8] 805 lb [10] 2415 lb/hr[10] Spray tower, venturi [2] [7] [8] [10] in. MK40 Mod 5 Burn Chamber in static burn/static firing configuration D-100 (fixed) [8] scrubber, packed bed scrubber tower, HEPA filter, and induced-draft fan Rocket Motor, 2.75 1.3C None Contained Implemented Yes [8] 805 lb [10] 2415 lb/hr[10] Spray tower, venturi [2] [7] [8] [10] in. MK66-2 Burn Chamber in static burn/static firing configuration (fixed) [8] scrubber, packed bed scrubber tower, HEPA filter, and induced-draft fan Alternative Technology Compendium—September 12, 2023 Page 38 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Safety Device, 9 None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Electrically Engineering [21] per burn gas chamber, gas cooler, [5] [10] [16] Initiated (Airbags, Contained event [17] dry sorbent injection, [17] [21] Seatbelt Burn Chamber baghouse, HEPA filter, Pretensioners) (fixed) induced-draft fan, and stack None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 805 lb [2] 22-88 lb/hr [2] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters Alternative Technology Compendium—September 12, 2023 Page 39 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Safety Device, None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Chemically Engineering [21] per burn gas chamber, gas cooler, [5] [10] [16] Initiated Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Contained Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, Thermal [16] primary cartridge filter, None Treatment Chamber 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 40 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Safety Device, Chemically Initiated (continued) None Static Kilri Implemented Yes [16] 805 lb [2] 22-88 lb/hr [2] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters Shaped Charges None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 41 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Shaped Charges None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] without Incinerator [16] cyclone particle separator, [5] [10] [16] Detonators (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 42 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Smoke Grenades None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 43 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Smoke Signals None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack T45E7 Adapter None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [10] Booster Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [16] [17] [20] [21] Alternative Technology Compendium—September 12, 2023 Page 44 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Taurus Double based Motors (Composed Primarily of NC, NG, Lead, and Carbon Black) 1.3C Ultra-high pressure water jet technology to disassemble motor Contained Burn Chamber in static burn/static firing configuration (fixed) Identified [7] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi scrubber, packed bed scrubber tower, HEPA filter, and induced-draft fan [2] [3] [7] [8] [10] High pressure washout to remove explosive material Alternative Technology Compendium—September 12, 2023 Page 45 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Cryogenic washout to remove explosive material TOW Eject and 1.3C None Contained Identified [10] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi [1] [2] [10] Flight Motors (1.5 Burn Chamber scrubber, a packed bed to 12 lb NEW) in static burn/static firing configuration (fixed) scrubber tower, HEPA filter, and induced-draft fan TOW Initiators Disassembly Controlled Identified [3] No [3] <40 lb [3] Reactive bed, porous [1] [2] [3] [10] (1.5 to 12 lb NEW) by robotic implements Detonation Chamber (transportable models T-10, T-25, T-30, T- 60) ceramic filter, and catalytic oxidizer operating at 1095 °C TOW Warheads None Controlled Identified [3] No [3] >20 lb [3] Reactive bed, porous [1] [2] [3] [5] (1.5 to 12 lb NEW) Detonation Chamber D-100 ceramic filter, and catalytic oxidizer operating at 1095 °C [8] [10] [24] Alternative Technology Compendium—September 12, 2023 Page 46 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Dynasafe Identified [3] No 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, Static 3703 lb/hr[24] quench, aqueous Detonation scrubbers, and carbon Chamber SDC-2000C: filters (SDC-1200: 6172 lb/hr[24] semi-portable, SDC-2000: fixed) Viper Eject and 1.3C None Contained Identified [3] No 805 lb [10] 2415 lb/hr[10] Spray tower, venturi [1] [2] [3] [10] Flight Motors (1.5 Burn Chamber scrubber, packed bed to 12 lb NEW) in static burn/static firing configuration (fixed) scrubber tower, HEPA filter, and induced-draft fan Viper Initiators Disassembly Controlled Identified [3] No <40 lb [3] Reactive bed, porous [1] [2] [3] [10] (1.5 to 12 lb NEW) by robotic implements Detonation Chamber (transportable models T-10, T-25, T-30, T- 60) ceramic filter, and catalytic oxidizer operating at 1095 °C Alternative Technology Compendium—September 12, 2023 Page 47 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Viper Warheads None Controlled Identified [3] No <40 lb [3] Reactive bed, porous [1] [2] [3] [5] (1.5 to 12 lb NEW) Detonation Chamber (transportable models T-10, T-25, T-30, T- 60) ceramic filter, and catalytic oxidizer operating at 1095 °C [8] [10] [24] Dynasafe Identified [3] No 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, Static 3703 lb/hr[24] quench, aqueous Detonation scrubbers, and carbon Chamber SDC-2000C: filters (SDC-1200: 6172 lb/hr[24] semi-portable, SDC-2000: fixed) Alternative Technology Compendium—September 12, 2023 Page 48 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Small thin-cased munitions contain 227 g (0.5 lb) or less of energetic material per item. This category includes cartridge-actuated devices, propellant-actuated devices, exploding bolts, fuzes, small projectiles, bullets, bomblets, booster pellets, detonators, igniters, leads, thermal batteries, and numerous other small munitions. Bag Charges Cut open to remove NC Propellant Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] Cut open to remove NC propellant Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 49 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Black Powder PC 1.1D None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] Charges Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [5] [10] [16] Contained Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, Thermal [16] primary cartridge filter, Treatment 99.99 percent efficient Chamber HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 50 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Blasting Caps ML45 HX 1.4B None Rotary Kilri Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] (Less than 1 lb Incinerator cyclone particle separator, [10] [16] [17] NEW) (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [21] [24] El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone Engineering [21] per burn gas chamber, gas cooler, Contained event [17] dry sorbent injection, Burn Chamber baghouse, HEPA filter, (fixed) induced-draft fan, and stack Dynasafe Identified [3] No 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, Static 3703 lb/hr[24] quench, aqueous Detonation scrubbers, and carbon Chamber SDC-2000C: filters (SDC-1200: 6172 lb/hr[24] semi-portable, SDC-2000: fixed) Alternative Technology Compendium—September 12, 2023 Page 51 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Detonators/ Blasting Caps (Less than 1 lb NEW) HX 1.4B None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [8] [10] [16] [17] [21] [24] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Dynasafe Static Detonation Chamber (SDC-1200: semi-portable, SDC-2000: fixed) Implemented [16] Yes [16] 805 lb [2] SDC-1200C: 3703 lb/hr[24] SDC-2000C: 6172 lb/hr[24] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters Alternative Technology Compendium—September 12, 2023 Page 52 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Detonating Train None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 53 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Flares and Flare None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] Waste Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [8] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 54 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0478, Substances explosive, not otherwise specified (N.O.S.)1 1.3G None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack induced-draft fan, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [9] [10] [16] [37] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 55 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0485, Substances Explosive, N.O.S.1 1.4G None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [9] [10] [16] [37] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Flexible Detonating Cord None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] Alternative Technology Compendium—September 12, 2023 Page 56 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 57 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Flight and Launch Motors None Rotary Kilri Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [2] [3] [4] [5] [8] [10] [16] [17] [21] None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Slurry preparation Decineration Identified [3] No 45 lb [5] 550 lb/hr [5] Wet scrubber, electrically preheated catalytic thermal oxidizer, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 58 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] FMU-54A/B Fuze, None Rotary Kilri Implemented Yes [17] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] Bomb, Inertia Tail Incinerator (fixed) [3] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [10] [16] [17] None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 59 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] FMU-139A/B Fuze, Bomb, Inertia Tail None Rotary Kilri Incinerator (fixed) Implemented [3] Yes [17] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] [17] None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Fuzes HX None Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [17] Contained Burn Chamber Identified [3] No 410 lb/hr per burn event [17] 410 lb/hr [17] Alternative Technology Compendium—September 12, 2023 Page 60 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] GGU-2/A Gas Prss None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Prop. Act. Gen. Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [8] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 61 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] GGU-2/A Gas Prss None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, Prop. Act. Gen. [16] combined primary cartridge filter, (continued) D003 and D008 [16] 99.99 percent efficient HEPA filter, and APCS stack Hexachloroethane None Rotary Kiln Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] smokes Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [8] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 62 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Hexachloroethane None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, smokes [16] combined primary cartridge filter, (continued) D003 and D008 [16] 99.99 percent efficient HEPA filter, and APCS stack Igniters Less than None Rotary Kiln Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] 1 lb NEW) Incinerator (fixed) cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 63 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Ignition None Dynasafe Identified [3] No 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, [1] [2] [3] [4] Cartridges (Less Static 3703 lb/hr[24] quench, aqueous [5] [10] [17] than 1 lb NEW) Detonation Chamber (SDC-1200: semi-portable, SDC-2000: fixed) SDC-2000C: 6172 lb/hr[24] scrubbers, and carbon filters [21] [24] El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone Engineering [21] per burn gas chamber, gas cooler, Contained event [17] dry sorbent injection, Burn Chamber baghouse, HEPA filter, (fixed) induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 64 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Impulse Cartridge None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] BBU-368 Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [5] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 65 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Impulse Cartridge None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] ARD 446-1 Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [5] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 66 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Impulse Cartridge, None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] MK107 MODOl Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [5] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 67 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Infrared Aircraft Flares None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] [32] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Ml 58, Ground Illuminating Red Star Flares L306 1.3G None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] Alternative Technology Compendium—September 12, 2023 Page 68 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack M206 Aircraft Countermeasure Flare L410 None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] Alternative Technology Compendium—September 12, 2023 Page 69 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack None Contained Thermal Treatment Chamber Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Mechanical Time Fuzes (Less than 1 lb NEW) HX 1.1D Disassembly by robotic implements Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [17] Alternative Technology Compendium—September 12, 2023 Page 70 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Contained Burn Chamber Identified [3] No 410 lb/hr [17] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 71 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Mortar Charges 1.1C None Dynasafe Static Detonation Chamber (SDC-1200: semi-portable, SDC-2000: fixed) Identified [3] No 805 lb [2] SDC-1200C: 3703 lb/hr[24] SDC-2000C: 6172 lb/hr[24] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters [1] [2] [3] [4] [5] [9] [10] [17] [21] [24] El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone Engineering [21] per burn gas chamber, gas cooler, Contained event [17] dry sorbent injection, Burn Chamber baghouse, HEPA filter, (fixed) induced-draft fan, and stack Point-Detonating Disassembly Rotary Kilri Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] Fuzes (Less than 1 by robotic Incinerator cyclone particle separator, lb NEW) implements (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 72 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Power Device, 1.4S None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] Explosive Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Primers (Less than PB None Rotary Kiln Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] 1 lb NEW) Incinerator (fixed) cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 73 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Propelling Charges 1.2C Cut open to remove nitrocellulose (NC) propellant Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [8] [10] [16] Alternative Technology Compendium—September 12, 2023 Page 74 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Propelling Cut open to Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] Charges for remove NC Incinerator [16] cyclone particle separator, [10] [16] [17] Cannon propellant (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Cut open to Contained Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, remove NC Thermal [16] primary cartridge filter, propellant Treatment Chamber 99.99 percent efficient HEPA filter, and APCS stack Residues and Slurry Decineration Identified [3] No 45 lb [5] 550 lb/hr [5] Wet scrubber, electrically [1] [2] [3] [5] Floor Sweepings preparation preheated catalytic [10] from Reactive thermal oxidizer, Armor Tile induced-draft fan, and Testing stack Black Powder None Thermal Implemented No Secondary combustion, [25] [28] [29] Contaminated Convection [25] HEPA particulate filter Equipment System Alternative Technology Compendium—September 12, 2023 Page 75 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Sporting 1.4S None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [2] [16] Ammunition Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Tracers None Rotary Kiln Incinerator (fixed) Identified [5] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [4] [5] [10] [17] [21] [24] Alternative Technology Compendium—September 12, 2023 Page 76 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone Engineering [21] per burn gas chamber, gas cooler, Contained event [17] dry sorbent injection, Burn Chamber baghouse, HEPA filter, (fixed) induced-draft fan, and stack Dynasafe Identified [3] No 805 lb [2] SDC-1200C: Cyclone, thermal oxidizer, Static 3703 lb/hr[24] quench, aqueous Detonation scrubbers, and carbon Chamber SDC-2000C: filters (SDC-1200: 6172 lb/hr[24] semi-portable, SDC-2000: fixed) Alternative Technology Compendium—September 12, 2023 Page 77 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Tracers (continued) Slurry preparation Decineration Identified [3] No 45 lb [5] 550 lb/hr [5] Wet scrubber, electrically preheated catalytic thermal oxidizer, induced-draft fan, and stack Bulk explosives and propellants include "unconfined" energetic materials (e. gv grains of pro pellant). AN/AI None Rotary Kilri Incinerator (fixed) Identified [1] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [9] [10] [18] [24] None Dynasafe Static Detonation Chamber (SDC-1200: semi-portable, SDC-2000: fixed) Identified [1] No [18] 805 lb [2] SDC-1200C: 3703 lb/hr[24] SDC-2000C: 6172 lb/hr[24] Cyclone, thermal oxidizer, quench, aqueous scrubbers, and carbon filters Alternative Technology Compendium—September 12, 2023 Page 78 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Amatol (50% TNT, None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] 50% Ammonium Engineering [21] per burn gas chamber, gas cooler, [10] [16] [17] Nitrate) Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [21] None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 79 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Amatol (50% TNT, 50% Ammonium Nitrate) (continued) None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Ammonium Nitrate Emulsion 5.1 None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 80 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Ammonium HE 5.1 None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Perchlorate (AP) Engineering [21] per burn gas chamber, gas cooler, [5] [10] [16] (N on-Aluminum) Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 81 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Ammonium Perchlorate (AP) (N on-Aluminum) (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack AP (Aluminum) None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [5] [10] [16] [17] [21] None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 82 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] AP (Aluminum) None Contained Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, (continued) Thermal Treatment Chamber [16] primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 83 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] AP Composite None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Propellant (MK-6) Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [5] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 84 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] AP Composite None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, Propellant (MK-6) [16] combined primary cartridge filter, (continued) D003 and D008 [16] 99.99 percent efficient HEPA filter, and APCS stack AP Contaminated None Thermal Implemented No Secondary combustion, [25] [28] [30] Equipment Convection System [25] HEPA particulate filter Alternative Technology Compendium—September 12, 2023 Page 85 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Black Powder HE 1.1D None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [5] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack,, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 86 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Black Powder None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, (continued) [16] combined D003 and D008 [16] primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Boosters without None Rotary Kiln Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [4] Detonators Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack primary cartridge filter, HEPA filter, and APCS stack [5] [10] [16] None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 87 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] C-4 HE 1.1D None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [9] [10] [16] Composition A-3 HE 1.1D None Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [2] [3] [9] [10] Alternative Technology Compendium—September 12, 2023 Page 88 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Composition B HE 1.1D None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 89 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Composition B None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, (continued) [16] combined D003 and D008 [16] primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Composition C-3 None Thermal Convection System Implemented [25] No Secondary combustion, HEPA particulate filter [25] [28] Nitrate salt-based 1.5 None Rotary Kiln Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] Eutectic (DEMN) Incinerator (fixed) cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [10] Alternative Technology Compendium—September 12, 2023 Page 90 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Double Base (50% None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Nitrocellulose) Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 91 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Double Base (50% Nitrocellulose) (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Dynamite HE 1.1D None Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [9] [10] Emgel 1.1D None Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [9] [10] Alternative Technology Compendium—September 12, 2023 Page 92 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Explosive D None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] (Ammonium Engineering [21] per burn gas chamber, gas cooler, [10] [16] [17] Picrate) Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 93 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] HBX (48/31/17/4 HE 1.1D None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [2] [3] [9] [10] RDX-TNT-A1- Engineering [21] per burn gas chamber, gas cooler, [16] [17] [21] WAX) Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 94 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] HBX (48/31/17/4 RDX-TNT-A1- WAX) (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Hexolite (Dry or Wet <15%) None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 95 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] High Explosives None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [2] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack HMX 1.1D None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [2] [3] [9] [10] [12] [16] [17] [21] [25] [28] Alternative Technology Compendium—September 12, 2023 Page 96 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 97 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] HMX (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Thermal Convection System Implemented [25] No Secondary combustion, HEPA particulate filter HMX, Desensitized None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [2] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 98 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] HMX, None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, Desensitized [16] combined primary cartridge filter, (continued) D003 and D008 [16] 99.99 percent efficient HEPA filter, and APCS stack LF-2 Sheet 1.1D None Rotary Kiln Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] Explosive Incinerator (fixed) cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [10] LX-14 Plastic 1.1D None Rotary Kiln Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] Bonded Explosive Incinerator cyclone particle separator, [10] (PBX) (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 99 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Ml (85% M035 HE 1.1D None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [2] [3] [9] [10] Nitrocellulose) Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [16] [17] [25] Contained Implemented Yes [16] 410 lb/hr [17] Induced-draft fan, Burn Chamber [16] primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Thermal Convection System Implemented [25] No Secondary combustion, HEPA particulate filter Alternative Technology Compendium—September 12, 2023 Page 100 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M-3 Propellant None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack M6 (87.7% M130 HE 1.4B None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [2] [3] [5] [9] Nitrocellulose) Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [16] [17] [20] [21] [22] Alternative Technology Compendium—September 12, 2023 Page 101 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 102 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M6 (87.7% Nitrocellulose) (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None ARCTECH Actodemil Hydrolysis (semi-portable) Implemented [5] No [22] 100 lb/20-day work month NOx gas controlled with wet scrubber and proprietary ActoHAX reagent Alternative Technology Compendium—September 12, 2023 Page 103 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M-9 Propellant M256 HE 1.3C None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [2] [3] [9] [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 104 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M-9 Propellant None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, (continued) [16] combined D003 and D008 [16] primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack M32A1E1 None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Propellant Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [16] [17] [21] None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 105 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M32A1E1 None Contained Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, Propellant Thermal [16] primary cartridge filter, (continued) Treatment Chamber 99.99 percent efficient HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack M-43 Propellant None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] Alternative Technology Compendium—September 12, 2023 Page 106 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] M-43 Propellant None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, (continued) Incinerator (fixed) [16] cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack MK-23 Propellant None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] Alternative Technology Compendium—September 12, 2023 Page 107 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 108 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] MK-23 Propellant (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Nitroguanidine or Picrite <20% by Weight Water None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 109 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Nitroglycerine Mixture, Desensitized <30% None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Octol (75% HMX, 25% TNT) 1.1D None Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [9] [10] [16] Alternative Technology Compendium—September 12, 2023 Page 110 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] PBXN-110 None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Propellant Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [16] [17] [21] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 111 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] PBXN-110 Propellant (continued) None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Pentolite 1.1D None Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [9] [10] Alternative Technology Compendium—September 12, 2023 Page 112 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] PETN MM26- MM29 HE 1.1D None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [9] [10] [16] [17] [21] [25] [28] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 113 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] PETN (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Thermal Convection System Implemented [25] No Secondary combustion, HEPA particulate filter PETN with >15% Phlegmatizer None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 114 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] PETN with >15% None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, Phlegmatizer [16] combined primary cartridge filter, (continued) D003 and D008 [16] 99.99 percent efficient HEPA filter, and APCS stack Picric Acid Thermal Convection System Implemented [25] No Secondary combustion, HEPA particulate filter [25] [28] Primasheet 1000 HX 1.1D None Rotary Kiln Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] (PETN-Based Incinerator [16] cyclone particle separator, [10] [16] Flexible Sheet (fixed) gas cooling system, high- Explosive efficiency filter baghouse, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 115 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] RDX (Cyclonite/ MM31- HE 1.1D None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Hexogen) MM40 Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [16] [17] [21] [25] [28] None Rotary Kilri Incinerator Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 116 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] RDX (Cyclonite/ Hexogen) (continued) None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Thermal Convection System Implemented [25] No Secondary combustion, HEPA particulate filter Smokeless Powder None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 117 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Smokeless Powder None Contained Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, (continued) Thermal Treatment Chamber [16] primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Smokey Sam, None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Propellant Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [5] [10] [16] [17] [21] Alternative Technology Compendium—September 12, 2023 Page 118 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Solid Propellant None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 119 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0473, HMX or 1.1A None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] RDX, Dry or Incinerator [16] cyclone particle separator, [10] [16] [37] Unphlegmatized (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 120 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0475, 1.1D None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] Diethylene Glycol Incinerator [16] cyclone particle separator, [10] [16] [37] Dinitrate3 (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 121 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0477, 1.3C None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] Substances Incinerator [16] cyclone particle separator, [10] [16] [37] Explosive, N.O.S.2 (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 122 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0479, 1.4C None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] Substances Incinerator [16] cyclone particle separator, [10] [16] [37] Explosive, N.O.S.2 (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 123 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0480, 1.4D None Rotary Kilri Implemented Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, [1] [2] [3] [9] Substances Incinerator [16] cyclone particle separator, [10] [16] [37] Explosive, N.O.S.3 (fixed) gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack induced-draft fan, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 124 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] UN0482, Substances, Explosive, Very Insensitive, N.O.S.3 1.5D None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [9] [10] [16] [37] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 125 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] T etr anitr omethane None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [9] Waste (PI 12) Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [17] [21] TNT (2,4,6- M030 HE 1.1D None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr Thermal oxidizer, cyclone [1] [2] [3] [9] T rinitrotoluene) Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [16] [17] [21] [25] [28] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 126 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] TNT (2,4,6- T rinitrotoluene) (continued) None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Thermal Convection System Implemented [25] No Secondary combustion, HEPA particulate filter TNT Mixed with Aluminum None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack Induced-draft fan, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [10] [16] Alternative Technology Compendium—September 12, 2023 Page 127 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] TNT Mixed with Aluminum (continued) None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack TOVEX MY77 HE 1.1D None Rotary Kiln Incinerator (fixed) Identified [3] No 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack [1] [2] [3] [9] [10] Triple Base (M30- 28% Nitrocellulose) None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [16] [17] [21] Alternative Technology Compendium—September 12, 2023 Page 128 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technology12 Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 129 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Triple Base (M30- None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, 28% [16] combined primary cartridge filter, Nitrocellulose) D003 and 99.99 percent efficient (continued) D008 [16] HEPA filter, and APCS stack Tritonal (79% None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] TNT, 21% Engineering [21] per burn gas chamber, gas cooler, [10] [16] [17] Aluminum) Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [21] None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 130 of 136 ------- Waste Description Pretreatment Technology Treatment Technologyc Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Tritonal (79% TNT, 21% Aluminum) (continued) None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Tritonal (with 2.5% Calcium Stearate) None El Dorado Engineering Contained Burn Chamber (fixed) Implemented [21] Yes [17] 410 lb/hr per burn event [17] 410 lb/hr [17] Thermal oxidizer, cyclone gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [1] [2] [3] [4] [10] [17] [21] Alternative Technology Compendium—September 12, 2023 Page 131 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Potentially explosive-contaminated materials are other wastes associated with explosives and munitions manufacturing, testing, and use (such as cotton rags, gloves, and post-test debris) and energetic-contaminated containers (such as wood crates, cardboard boxes, velostat bags, and cellulose drums). Cartridge Case, Empty Primer None Rotary Kilri Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack [1] [2] [3] [4] [5] [10] [16] None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack None Static Kiln Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 132 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Diesel and None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Dunnage Engineering Contained Burn Chamber (fixed) [21] per burn event [17] gas chamber, gas cooler, dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [10] [16] [17] [21] None Car Bottom Furnace Implemented [16] Yes [16] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack None Contained Thermal Treatment Chamber Implemented [16] Yes [16] 79.4 lb/hr [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 133 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Diesel and None Static Kilri Implemented Yes [16] 0.24 lb/hr Induced-draft fan, Dunnage [16] combined primary cartridge filter, (continued) D003 and D008 [16] 99.99 percent efficient HEPA filter, and APCS stack Manufacturer's None El Dorado Implemented Yes [17] 410 lb/hr 410 lb/hr [17] Thermal oxidizer, cyclone [1] [2] [3] [4] Waste (65% Engineering [21] per burn gas chamber, gas cooler, [10] [16] [17] Propellant) Contained Burn Chamber (fixed) event [17] dry sorbent injection, baghouse, HEPA filter, induced-draft fan, and stack [20] [21] None Rotary Kiln Incinerator (fixed) Implemented [16] Yes [16] 600 lb/hr [2] Dry scrubber, afterburner, cyclone particle separator, gas cooling system, high- efficiency filter baghouse, induced-draft fan, and stack, primary cartridge filter, HEPA filter, and APCS stack Alternative Technology Compendium—September 12, 2023 Page 134 of 136 ------- Waste Description Pretreatment Treatment Identified or Permitted NEWA Per Throughput Air Pollution Control Source Technology Technologyc Implemented Technology Technology (Yes/No) Treatment Event of UnitB Device(s) Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Manufacturer's None Contained Implemented Yes [16] 79.4 lb/hr [16] Induced-draft fan, Waste (65% Thermal [16] primary cartridge filter, Propellant) Treatment 99.99 percent efficient (continued) Chamber HEPA filter, and APCS stack None Static Kilri Implemented [16] Yes [16] 0.24 lb/hr combined D003 and D008 [16] Induced-draft fan, primary cartridge filter, 99.99 percent efficient HEPA filter, and APCS stack Reactive Armor HA Water jet MuniRem Identified [1] No Vendor claims no [1] [2] [3] [10] Tile and Residue slurry cutting neutralization emissions [17] (Excess Armor to reduce size (Portable) Tiles, Used or Mechanical Impacted Tiles, cutting to Residues, or Floor reduce size Sweepings from Slurry Tile Testing) preparation Alternative Technology Compendium—September 12, 2023 Page 135 of 136 ------- Waste Description Pretreatment Technology Treatment Technology12 Identified or Implemented Technology Permitted Technology (Yes/No) NEWA Per Treatment Event Throughput of UnitB Air Pollution Control Device(s) Source Documents Type DODIC [11] MIDAS Family Code [3] UN Hazard Class/ Division Number [11] Reactive Armor Tile and Residue (Excess Armor Tiles, Used or Impacted Tiles, Residues, or Floor Sweepings from Tile Testing) (continued) None El Dorado Engineering Contained Burn Chamber (fixed) Identified [1] No 410 lb/hr per burn event [17] 410 lb/hr [17] High temperature afterburner, selective non-catalytic reduction system for NOx, wet scrubber, induced-draft fan, and stack Alternative Technology Compendium—September 12, 2023 Page 136 of 136 ------- |