Standard
Uniform Measurement Units for Leakage Rates
2016-10-27
CURRENT
MAP4053A
Applications include specifications, reports, ratings, texts etc., where fluid leakage rates are treated.
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Standard
UNIFORM MEASUREMENT UNITS FOR LEAKAGE RATES
2007-12-04
HISTORICAL
MAP4053
Applications include specifications, reports, ratings, texts etc., where fluid leakage rates are treated.
Standard
Self-Sealing Breakaway Valves for Crash-Resistant Aircraft Fuel Systems
2012-01-03
HISTORICAL
AIR1616A
This document defines design, performance, and test criteria for self-sealing breakaway valves.
Standard
SELF-SEALING BREAKAWAY VALVES FOR CRASH-RESISTANT AIRCRAFT FUEL SYSTEMS
1983-04-04
HISTORICAL
AIR1616
This document defines design, performance, and test criteria for self-sealing breakaway valves.
Standard
SELF-SEALING BREAKAWAY VALVES FOR CRASH-RESISTANT AIRCRAFT FUEL AND OIL SYSTEMS
2007-12-04
HISTORICAL
ARP1616A
This document defines design, performance, and test criteria for self-sealing breakaway valves for use in crash-resistant aircraft fuel systems.
Standard
Recommended Materials and Practices for Use with Cryogenic Propellants
2000-08-01
CURRENT
AIR839C
No scope available.
Standard
RECOMMENDED MATERIALS AND PRACTICES FOR USE WITH CRYOGENIC PROPELLANTS
1967-04-15
HISTORICAL
AIR839A
Standard
RECOMMENDED MATERIALS AND PRACTICES FOR USE WITH CRYOGENIC PROPELLANTS
1965-01-10
HISTORICAL
AIR839
Standard
Pressure Fueling Simulator for Evaluating Aircraft Fuel Systems Under Design Pressure Fueling Conditions
2002-12-16
CURRENT
ARP816
Standard
PERFORMANCE TESTING OF GAS TURBINE LUBE OIL FILTER ELEMENTS
1994-07-01
HISTORICAL
AIR1666
This SAE Aerospace Information Report (AIR) reviews performance testing parameters for noncleanable, often referred to as disposable, aircraft gas turbine engine lubricant filter elements.
Standard
Minimization of Electrostatic Hazards in Aircraft Fuel Systems
2013-08-09
HISTORICAL
AIR1662A
This SAE Aerospace Information Report (AIR) provides background information, technical data and related technical references for minimization of electrostatic hazards in aircraft fuel systems. Techniques used to minimize the electrostatic hazard include: a Reducing fueling rate into tank bays including use of multiple refueling inlet nozzles. b Reducing refuel plumbing flow velocities. c Introducing fuel into the tank at a low velocity near the bottom and directing it to impinge upon a grounded conducting surface. d Avoiding electrically isolated conductors in the fuel tank. e Using conductivity additives in the fuel.
Standard
Method-Pressure Drop Tests for Fuel System Components
2020-05-18
CURRENT
ARP868D
This document describes recommended methods, associated equipment, and test setups to assist in understanding and conducting pressure drop tests on fuel system components. Background information and suggestions are provided to improve accuracy and repeatability of test results. Although written specifically for fuel system components, the methods, equipment, and suggestions presented herein apply equally to pressure drop tests conducted on any equipment utilizing incompressible fluids.
Standard
Method-Pressure Drop Tests for Fuel System Components
2013-08-09
HISTORICAL
ARP868C
This document provides recommended methods and describes associated equipment and test setups to assist in understanding and conducting pressure drop tests on fuel system components. Background information and suggestions are provided as means of improving accuracy and repeatability of test results. Although written specifically for fuel system components, the methods, equipment and suggestions presented herein apply equally to pressure drop tests of other liquid-handling devices.
Standard
MINIMIZATION OF ELECTROSTATIC HAZARDS IN AIRCRAFT FUEL SYSTEMS
1991-05-28
HISTORICAL
AIR1662
Standard
METHOD - PRESSURE DROP TESTS FOR FUEL SYSTEM COMPONENTS
1994-09-01
HISTORICAL
ARP868B
To describe useful methods for conducting pressure drop tests of fuel system components for MIL-F-8615 or similar requirements and to present general suggestions for improving accuracy of test results.
Standard
METHOD - PRESSURE DROP TESTS FOR FUEL SYSTEM COMPONENTS
1983-06-01
HISTORICAL
ARP868A
To describe useful methods for conducting pressure drop tests of fuel system components for MIL-F-8615 or similar requirements; and to present general suggestions for improving accuracy of test results.
Standard
Glossary of Terms - Aircraft Ground Refueling and Defueling
2022-05-24
CURRENT
AIR4783A
This SAE Aerospace Information Report presents a glossary of terms commonly used in the ground delivery of fuel to an aircraft and pertinent terms relating to the aircraft being refueled.
Standard
GLOSSARY OF TERMS - AIRCRAFT GROUND REFUELING
2007-12-04
HISTORICAL
AIR4783
This SAE Aerospace Information Report (AIR) presents a glossary of terns commonly utilized in the ground delivery of fuel to an aircraft and some terms relating to the aircraft being refueled.
Standard
ELECTRICAL BONDING OF AIRCRAFT FUEL SYSTEM PLUMBING SYSTEMS
2007-12-04
HISTORICAL
AIR5128
This SAE Aerospace Information Report (AIR) is limited to the subject of aircraft fuel system plumbing systems and the questions concerning the requirements for electrical bonding of the various components of the system as related to Static Electric Charges, Electromagnectic Interference (EMI) and Lightning Strikes (Direct and Indirect Effects)
Standard
Definition of Pressure Surge Test and Measurement Methods for Receiver Aircraft
2007-12-04
CURRENT
ARP1665A
The test procedure applies to the refueling manifold system connecting the receiver aircraft fuel tanks to the refueling source fuel pump(s) for both ground and aerial refueling. The test procedure is intended to verify that the limit value for surge pressure specified for the receiver fuel system is not exceeded when refueling from a refueling source which meets the requirements of AS1284 (reference 2). This recommended practice is not directly applicable to surge pressure developed during operation of an aircraft fuel system, such as initiating or stopping engine fuel feed or fuel transfer within an aircraft, or the pressure surge produced when the fuel pumps are first started to fill an empty fuel manifold.
