1、 U.S. Department of Transportation Federal Aviation Administration Advisory Circular Subject: AIRCRAFT FIRE EXTINGUISHING AGENTS Date: 7/08/04 Initiated by: AAS-100 AC No: 150/5210-6D Change: 1. PURPOSE. This Advisory Circular (AC) provides guidance for reference material covering Aircraft Fire Exti
2、nguishing Agents. 2. CANCELLATION. Advisory Circular 150/5210-6C, dated January 28, 1985, is cancelled. 3. APPLICATION. The Federal Aviation Administration (FAA) recommends the guidelines contained in this AC for Aircraft Fire Extinguishing Agents. This AC is not mandatory and does not constitute a
3、regulation. However, the information it contains provides an acceptable methodology for complying with Title 14 of the Code of Federal Regulations (CFR), part 139, Certification of Airports (Part 139). In the event of a conflict, part 139 takes precedence over the other documents identified in this
4、AC. 4. APPLICABLE DOCUMENTS. The following documents are applicable to the extent specified in this AC: 4.1 Code of Federal Regulations (CFR). 14 CFR part 139, Certification of Airports (part 139). 4.2 National Fire Protection Association (NFPA). NFPA 18, Standard on Wetting Agents, 1995 edition. NF
5、PA 403, Standard for Aircraft Rescue and Fire-Fighting Services at Airports, August 7, 2003, edition. NFPA 412, Standard for Evaluating Aircraft Rescue and Fire-Fighting Foam Fire Equipment, 2003 edition. 4.3 Military Specifications. MIL-F-24385F, Fire Extinguishing Agent, Aqueous Film Forming Foam
6、(AFFF) Liquid Concentrate, for Fresh and Seawater, dated January 7, 1992. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-7/08/04 AC 150/5210-6D 4.4 Underwriters Laboratory (UL) Standards. UL 162, Standard for Safety for Foam Equipment and Liquid Conce
7、ntrate, dated March 30, 1994. 5. HOW TO ORDER. a. Copies of part 139 may be purchased from: Superintendent of Documents U.S. Government Printing Office Washington, DC 20402 b. Copies of National Fire Protection Association (NFPA) Standard No. 403, Standard for Aircraft Rescue and Fire-fighting Servi
8、ces at Airports, and Standard No. 412, Standard for Evaluating Aircraft Rescue and Fire-Fighting Foam Fire Equipment, may be ordered from: National Fire Protection Association 1 Batterymarch Park Quincy, MA 02269 c. Copies of UL 162, Standard for Safety for Foam Equipment and Liquid Concentrates, ca
9、n be purchased from: Underwriters Laboratory, Inc. Customer Service 1285 Walt Whitman Road Melville, NY 11747-3081 d. A printed copy of this and other ACs can be ordered from: U.S. Department of Transportation Annmore East Business Center 3341 Q 75thAvenue Landover, MD 20785 e. Electronic copies of
10、FAA ACs and part 139 may be obtained from: Internet: http:/www.faa.gov/arp David Bennett Director, Office of Airport Safety and Standards ii Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-AC 150/5210-6D 7/08/04 TABLE OF CONTENTS CHAPTER 1. BACKGROUND.
11、 1 1.1 GENERAL 1 1.2 DEFINITIONS 1 1.2.1 Primary Agents. .1 1.2.2 Supplementary Agents.2 1.2.3 Other Agents. .2 1.2.4 Theoretical Critical Fire Area (TCA). .3 1.2.5 Practical Critical Fire Area (PCA).3 1.2.6 Control Time3 1.2.7 Extinguishment Time.3 CHAPTER 2. QUANTITIES FOR AIRPORTS SERVING DOT-CER
12、TIFICATED AIR CARRIERS/COMMERCIAL SERVICE. .3 CHAPTER 3. QUANTITIES FOR GENERAL AVIATION AIRPORTS. .4 CHAPTER 4. COMPATIBILITY OF AGENTS. 4 CHAPTER 5. EXTINGUISHING AGENT SUBSTITUTES. .4 CHAPTER 6. PERFORMANCE REQUIREMENTS4 CHAPTER 7. TESTING AND QUALITY ASSURANCE. 4 7.1 QUALITY CONTROL. 4 7.2 RESPO
13、NSIBILITY FOR INSPECTION. 4 CHAPTER 8. ENVIRONMENTAL.5 8.1 ENVIRONMENTAL ISSUES 5 APPENDIX A. Related FAA Advisory Circulars. .7 iiiProvided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-7/08/04 AC 150/5210-6D Intentionally left blank. iv Provided by IHSNot f
14、or ResaleNo reproduction or networking permitted without license from IHS-,-AC 150/5210-6D 7/08/04 CHAPTER 1. BACKGROUND. 1.1 GENERAL. This AC provides reference information on the following agents: Primary aircraft fire extinguishing agents Supplementary aircraft fire extinguishing agents Other air
15、craft fire extinguishing agents 1.2 DEFINITIONS. The following definitions do not include numerical quantities. These can be found in NFPA 403, Table 5.3.1 (b), as well as additional agent quantities to be carried. 1.2.1 Primary Agents. Foam used for extinguishing aircraft fires should consist of an
16、 aggregation of bubbles of a lower specific gravity than that of hydrocarbon fuels or water. The foam should have strong cohesive qualities and be capable of covering and clinging to vertical and horizontal surfaces. Aqueous foam cools hot surfaces by its high water retention ability and must flow f
17、reely over a burning liquid surface to form a tough, air-excluding blanket that seals off volatile flammable vapors from access to air or oxygen. Good-quality foam should be dense and long lasting, capable of resisting disruption by wind or draft, stable to intense thermal radiation, and capable of
18、re-sealing in event of mechanical rupture of an established blanket. 1.2.1.1 Aqueous Film Forming Foam (AFFF). These liquid concentrates consist of perfluorinated surfactants(s) with a foam stabilizer and viscosity control agents. The AFFF acts both as a barrier to exclude air or oxygen and, in addi
19、tion, produces an aqueous film on the fuel surface capable of suppressing the evolution of fuel vapors. Ideally, the foam blanket produced by the AFFF should be of sufficient thickness so as to be visible before fire fighters rely on its effectiveness as a vapor suppressant. 1.2.1.2 Fluoroprotein Fo
20、am (FP). Fluoroprotein Foam is simulated foam that is manufactured from protein foam concentrates to which fluorochemical surfactants have been added. This increases the fluidity of the foam and offers a good burn back resistance. The manufacturer of the foam-making equipment should be consulted as
21、to the correct concentrate to be used in any particular system (the proportioners installed must be properly designed and/or set for the concentrate being used). 1.2.1.3 Film Forming Fluoroprotein (FFFP) Foam. These agents are also based on protein foam formulations. They are produced by increasing
22、the quantity and quality of the fluorocarbon surfactants added to the protein hydrolyzate. By doing this, the surface tension of the resulting solution that drains from the expanded foam is reduced to the point that it can spread across the surface of a liquid hydrocarbon fuel. 1.2.1.4 Protein Foam.
23、 These liquid concentrates consist primarily of hydrolysis products of various proteinaceous materials. They also contain stabilizing additives and inhibitors to protect against freezing, to prevent corrosion of equipment and containers, to resist bacterial decomposition, to control viscosity, and t
24、o assure readiness 1Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-7/08/04 AC 150/5210-6D for use in emergencies. Foam liquids of different types or different manufacturers should not be mixed unless it is determined that they are compatible and/or co
25、mpletely interchangeable. 1.2.2 Supplementary Agents. Supplementary agents are also referred to as secondary agents. Agents that fit into this category are carried on rescue vehicles to handle unique fire fighting requirements most common to airport fire fighting use. Supplementary agents are employ
26、ed either singly or in combination with foam to accomplish particular aircraft fire fighting operations such as a three dimensional running fuel fires (reference NFPA 403, Annex A, A.5.2 (1). This class of agents include: Dry Chemical Halotron I Carbon Dioxide 1.2.2.1 Dry Chemical. The earliest use
27、of dry chemical in aircraft fire fighting included the use of sodium bicarbonate-based products. Today, the U.S. airport fire fighting industry relies almost exclusively on the use of potassium-based chemicals as auxiliary extinguishing agents due to their compatibility with AFFF agents and their re
28、liable fire performance. 1.2.2.2 Halotron I. Subsequent to the U.S. decision to halt production of halon as part of the Montreal Protocol (reference NFPA 403, Appendix A, A.5.2 (2) and the use of halon-based agents (e.g., Halon 1211) in live fire training because of its environmental effects, the FA
29、A teamed with other agencies and industry and identified an acceptable alternative to using halon-based agents in airport rescue firefighting vehicles. Several potential agents were evaluated. Only the Halotron I product has completed the full-scale fire test performance evaluation and was approved
30、as an alternative fire fighting agent to Halon 1211 for airport fire fighting use. Halotron I has additionally been deemed to be an environmentally acceptable replacement for Halon 1211 by the Environmental Protection Agency. Due to the slight differences in specific gravity of these two chemicals i
31、n a 1:1 by-volume basis, approximately 468 pounds of Halotron I can be placed in the existing vessel (tank) that holds approximately 500 pounds of Halon 1211. Fire performance tests have shown that Halotron I will generally suppress or extinguish fires in the same manner as Halon 1211. In considerin
32、g the substitution of Halotron I for Halon 1211, the ratio for equivalency in performance might be as great as 1.5 to 1 pound by weight. 1.2.2.3 Carbon Dioxide. Tests show that low-pressure carbon dioxide (CO2) is more effective in aircraft rescue and fire fighting operations than high pressure CO2.
33、 The tests further indicate that CO2can be given parity with dry chemical powder on the basis of 4.4 pounds of CO2gas per 2.2 pounds of dry chemical. 1.2.3 Other Agents. In general there are other special-use fire extinguishing agents available to airport firefighting services. In particular, those
34、agents used to combat Class D fires, such as magnesium fires, are referred to as combustible metal agents. These agents can be either in the form of liquid or powder. For information on powder agents, refer to NFPA 403 Annex A, A.5.5. 2 Provided by IHSNot for ResaleNo reproduction or networking perm
35、itted without license from IHS-,-AC 150/5210-6D 7/08/04 Under certain fire situations “wetting agents” may be appropriate. A wetting agent is defined as a chemical compound that, when added to water in proper quantities, materially reduces its surface tension, increases its penetrating and spreading
36、 abilities, and might also provide emulsification and foaming characteristics. These agents should be discharged through an in-line proportioning system to a handline so as not to contaminate the vehicles primary foam distribution system. These agents should not be mixed in any primary agent tanks.
37、For further information on wetting agents, refer to NFPA 18, Standard on Wetting Agents. 1.2.4 Theoretical Critical Fire Area (TCA). The TCA serves as a means of categorizing aircraft in terms of the magnitude of the potential fire hazard in which they may become involved. It is not intended to repr
38、esent the average, maximum, or minimum spill fire size associated with a particular aircraft. For information on TCA, refer to NFPA 403, Annex B, B.1.1. 1.2.5 Practical Critical Fire Area (PCA). The PCA and the related quantities of extinguishing agents are based on criteria formulated during the Se
39、cond Meeting of the International Civil Aviation Organization (ICAO) Rescue and Fire Fighting Panel (RFFP II) in June 1972. RFFP II developed material indicating the practical area is two-thirds of the theoretical area based on the Panels work, which included a study of extinguishing agents used on
40、actual aircraft fires. In 99 out of 106 studied fires, the quantities of agents used were less than those previously recommended by ICAO. For information on PCA, refer to NFPA 403, Annex B, B.1.1. 1.2.6 Control Time. The control time is the time required from the arrival of the first fire fighting v
41、ehicle and the beginning of agent discharge to reduce the initial intensity of the fire by 90 percent. The equipment and techniques to be used should be capable of controlling the fire in the PCA in 1 minute. For information on control time, refer to NFPA 403, Annex B, B.2. 1.2.7 Extinguishment Time
42、. Extinguishment time is the time required from the application of the agent of the first fire fighting vehicle to the time the fire is extinguished. For information on extinguishment time, refer to NFPA 403, Annex B, B.2. CHAPTER 2. QUANTITIES FOR AIRPORTS SERVING DOT-CERTIFICATED AIR CARRIERS/COMM
43、ERCIAL SERVICE. part 139, 139.315 is to be used to determine the aircraft rescue and firefighting Index (A through E) for airports serving Department of Transportation (DOT) certificated air carriers/commercial service. These numbers can then be converted to NFPA categories using NFPA 403, Chapter 4
44、, Table 4.3.1. The extinguishing agents, quantities, and discharge and response capability for each Index is referenced in NFPA 403, Chapter 5, Table 5.3.1 (b), in U.S. customary units and could be used to comply with 139.315. NFPA 403, Annex B, additionally describes the methodology used to arrive
45、at the designated control times (B.2), discharge rates (B.3), and quantities of agents to be provided (B.4 and B.5). It should be noted that part 139 takes precedence and that NFPA 403 may, in some cases, exceed part 139 requirements. Each truck, when purchased, should be equipped with its design ca
46、pacity of extinguishing agents. For operating and training purposes, airports should also provide: (1) Twice the quantity of agents carried on each truck available in the fire station and (2) A supply of agents to be used for training. Note also that 3Provided by IHSNot for ResaleNo reproduction or
47、networking permitted without license from IHS-,-7/08/04 AC 150/5210-6D 139.317(i) requires each vehicle that is required to carry AFFF to carry AFFF in an appropriate amount to mix with twice the water required to be carried by the vehicle. CHAPTER 3. QUANTITIES FOR GENERAL AVIATION AIRPORTS. The In
48、dexes for general aviation airports are identified in NFPA 403, Chapter 4, Table 4.3.1 and cover the areas not governed by the FAA. The extinguishing agents, quantities, and discharge and response capability for each Index are referenced in NFPA 403, Chapter 5, Table 5.3.1 (b), in U.S. customary uni
49、ts. NFPA 403, Annex B, additionally describes the methodology used to arrive at the designated control times (B.2), discharge rates (B.3), and quantities of agents to be provided (B.4 and B.5). CHAPTER 4. COMPATIBILITY OF AGENTS. The compatibility of agents is discussed in NFPA 403, Chapter 5, 5.4. CHAPTER 5. EXTINGUISHING AGENT SUBSTITUTES. Extinguishing agent substitutes are discusse