Search Results

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.

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

Synthetic Jet Fuels from Non-Petroleum Feed Stocks

2023-02-20

CURRENT

AIR6148

This SAE Aerospace Information Report (AIR) provides general information on the developing subject of synthetic jet fuels derived from non-petroleum feed stocks. It addresses synthetic jet fuel properties and other topics associated with their use and is intended as a guide to assist aviation fuel system designers in considering important information on fuel properties when designing aircraft fuel systems and components. The AIR is limited to “drop-in” fuels that meet the requirements of the respective fuel specifications and are compatible with typical aircraft and ground refueling systems. While some key properties are included in this AIR for discussion, the reader should utilize documents such as MIL-HDBK-510 or the ASTM International research reports for a more-detailed review of fuel properties. AIR7484 also gives more details on fuel properties, specifically as they relate to airframe fuel system design.

Standard

Self-Sealing Breakaway Valves for Crash-Resistant Aircraft Fuel Systems

2020-03-19

CURRENT

AIR1616B

MIL-STD-1290, 14 CFR 27.952, and 14 CFR 29.952 provide crash resistant fuel system design and test criteria that significantly minimize fuel leaks and occurrence of post-crash fire in survivable impacts. This document does not change and does not authorize changes in or deviations from MIL-Standard or regulatory requirements. This document provides guidance for the design, performance, and test criteria for self-sealing breakaway valves.

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

Recommendations for Fuel and Oil System Schematics

2019-05-07

CURRENT

ARP1482B

This document recommends and sets forth a set of symbols representing the components making up aircraft fuel and oil systems. The intended result is uniformity in system schematics so that they may be easily understood throughout the aerospace industry.

Standard

RECOMMENDED MATERIALS AND PRACTICES FOR USE WITH CRYOGENIC PROPELLANTS

1965-01-10

HISTORICAL

AIR839

Standard

RECOMMENDATIONS FOR FUEL AND OIL SYSTEM SCHEMATICS

1994-09-01

HISTORICAL

ARP1482A

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

Nozzles and Ports – Gravity Fueling Interface Standards for Civil Aircraft

2012-01-03

CURRENT

AS1852D

This SAE Aerospace Standard (AS) defines the maximum allowable free opening dimensions for airframe fueling ports on civil aircraft that require the exclusive use of gasoline as an engine fuel, and the minimum free opening dimensions for airframe fueling ports on civil aircraft that operate with turbine fuels as the primary fuel type and with gasoline as the emergency fuel type. This SAE Aerospace Standard (AS) also defines the features and dimensions for airframe refueling ports on civil aircraft that require the exclusive use of turbine fuel as an engine fuel. In addition, this document defines the minimum fuel nozzle spout dimensions for turbine fuel ground service equipment, and the maximum fuel nozzle spout diameter for gasoline ground service equipment.

Standard

Nozzles and Ports - Gravity Fueling Interface Standard for Civil Aircraft

1997-08-01

HISTORICAL

AS1852B

This SAE Aerospace Standard (AS) defines the maximum allowable free opening dimensions for airframe fueling ports on civil aircraft that require the exclusive use of gasoline as an engine fuel and the minimum free opening dimensions for airframe fueling ports on civil aircraft that operate with turbine fuels as the primary fuel type. In addition, this document defines the minimum fuel nozzle tip dimensions for turbine fuel ground service equipment and the maximum fuel nozzle tip diameter for gasoline ground service equipment.

Standard

Nozzles and Ports - Gravity Fueling Interface Standard for Civil Aircraft

2006-03-24

HISTORICAL

AS1852C

This SAE Aerospace Standard (AS) defines the maximum allowable free opening dimensions for airframe fueling ports on civil aircraft that require the exclusive use of gasoline as an engine fuel, and the minimum free opening dimensions for airframe fueling ports on civil aircraft that operate with turbine fuels as the primary fuel type and with gasoline as the emergency fuel type. This SAE Aerospace Standard (AS) also defines the features and dimensions for airframe refueling ports on civil aircraft that require the exclusive use of turbine fuel as an engine fuel. In addition, this document defines the minimum fuel nozzle spout dimensions for turbine fuel ground service equipment, and the maximum fuel nozzle spout diameter for gasoline ground service equipment.

Standard

Minimization of Electrostatic Hazards in Aircraft Fuel Systems

2021-12-21

CURRENT

AIR1662B

This SAE Aerospace Information Report (AIR) provides background information, technical data, and related technical references for minimization of electrostatic hazards in aircraft fuel systems.

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

MINIMIZATION OF ELECTROSTATIC HAZARDS IN AIRCRAFT FUEL SYSTEMS

1991-05-28

HISTORICAL

AIR1662

Standard

Impact of Changes in Test Dust Contaminants and Particle Counter Calibration on Laboratory Filter Element Performance and Fluid Cleanliness Classes

2003-07-03

HISTORICAL

AIR5455

This SAE Aerospace Information Report (AIR) discusses the impact of the ISO Test Dusts, chosen as replacement contaminants for the Arizona Test Dusts (AC Test Dusts), and the ISO calibration procedure ISO 11171 for automatic particle counters, which replaces the calibration procedure ISO 4402 (1991), on laboratory performance of filter elements utilized in aerospace lubrication, hydraulic and fuel systems, and fluid cleanliness levels determined with automatic particle counters.

Standard

Impact of Changes in Test Dust Contaminants and Particle Counter Calibration on Laboratory Filter Element Performance and Fluid Cleanliness Classes

2012-01-03

CURRENT

AIR5455A

This SAE Aerospace Information Report (AIR) discusses the impact of the ISO Test Dusts, chosen as replacement contaminants for the Arizona Test Dusts (AC Test Dusts), and the ISO calibration procedure ISO 11171 for automatic particle counters, which replaces the calibration procedure ISO 4402 (1991), on laboratory performance of filter elements utilized in aerospace lubrication, hydraulic and fuel systems, and fluid cleanliness levels determined with automatic particle counters.

Standard

Guidance for the Design and Installation of Fuel Quantity Indicating Systems (FQIS)

2022-10-07

CURRENT

AIR5691B

This document is applicable to commercial and military aircraft fuel quantity indication systems. It is intended to give guidance for system design and installation. It describes key areas to be considered in the design of a modern fuel system and builds upon experiences gained in the industry in the last 10 years.