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JSA - JIS B 8347 - HYDRAULIC FLUID POWER- IDENTIFICATION OF MANIFOLD ASSEMBLIES AND THEIR COMPONENTS Organization: JSA
Date: 2009-09-24
Description: This Standard provides identification coding for manifolds used in hydraulic systems and for component installation features (for example, mounting surfaces or cavities) of such manifolds.
BSI - BS ISO 16874 - HYDRAULIC FLUID POWER IDENTIFICATION OF MANIFOLD ASSEMBLIES AND THEIR COMPONENTS Organization: BSI
Date: 2004-12-07
ISO FDIS 16874 - HYDRAULIC FLUID POWER - IDENTIFICATION OF MANIFOLD ASSEMBLIES AND THEIR COMPONENTS Organization: ISO
ISO 16874 - HYDRAULIC FLUID POWER IDENTIFICATION OF MANIFOLD ASSEMBLIES AND THEIR COMPONENTS - FIRST EDITION Organization: ISO
Date: 2004-06-15
ISO DIS 16874 - HYDRAULIC FLUID POWER - IDENTIFICATION OF MANIFOLD ASSEMBLIES AND THEIR COMPONENTS Organization: ISO
EASA - AD 2011-0139 - HYDRAULIC POWER - HIGH PRESSURE MANIFOLD CHECK VALVES - INSPECTION (APPLICABLE TO AIRBUS A330 AND A340-200/-300 AEROPLANES) Organization: EASA
Date: 2011-07-25
EASA - AD 2010-0145 - HYDRAULIC POWER - HIGH PRESSURE MANIFOLD CHECK VALVE - INSPECTION (APPLICABLE TO AIRBUS A330 AND A340-200/-300 AEROPLANES) Organization: EASA
Date: 2010-07-14
COE HL-91-11 FINAL REPORT - MORNING GLORY INLET AND MANIFOLD OUTLET STRUCTURE, MCCOOK RESERVOIR, CHICAGO, ILLINOIS; HYDRAULIC MODEL INVESTIGATION Organization: COE
Date: 1991-06-01
DS/EN ISO 20823 - PETROLEUM AND RELATED PRODUCTS - DETERMINATION OF THE FLAMMABILITY CHARACTERISTICS OF FLUIDS IN CONTACT WITH HOT SURFACES - MANIFOLD IGNITION TEST Organization: DS
Date: 2003-12-19
Description: This International Standard specifies a test method to determine the relative flammability of fluids when contacted with a hot metal surface at a fixed temperature, but it is also possible to gauge fluid ignition temperatures by adjustment of the manifold temperature. It is primarily used to assess the resistance to ignition of fire-resistant hydraulic fluids which are, by definition, difficult to ignite.
NPFC - MIL-DTL-868 - VALVES, HYDRAULIC DIRECTIONAL CONTROL, GENERAL SPECIFICATION FOR Organization: NPFC
Date: 2014-01-14
Description: The valves covered by this specification are intended for use in shipboard hydraulic systems utilizing petroleum base hydraulic fluids.
SAE ARP4946 - AEROSPACE - VALVES, CHECK, HYDRAULIC, AIRCRAFT AND MISSILE Organization: SAE
Date: 2000-10-01
Description: Field of Application: This document applies to hydraulic system check valves which are installed into components, manifolds, or tube lines or are of a cartridge type valve design.
SAE/TP - 2011-01-2760 - LIGHTNING EFFECTS ON HYDRAULIC TRANSPORT ELEMENTS IN COMPOSITE AIRCRAFT Organization: SAE/TP
Date: 2011-10-18
Description: When an aircraft is exposed to a direct lightning strike, a metal skin on the wings and fuselage will conduct lightning currents in a way that only a small amount of induced electromagnetic energy will be present on hydraulic transport elements. So, in the past, hydraulic tubes, actuators, manifolds, and all other hydro-mechanical devices, as parts of various aircraft systems, have never been considered as lightning sensitive components.
(NFPA) - NFPA T3.5.1 - HYDRAULIC FLUID POWER – VALVES – MOUNTING SURFACES - THIRD EDITION Organization: (NFPA)
Date: 2002-02-14
Description: The maximum working pressure for subplates and manifold blocks with this mounting surface shall be supplied by the manufacturer.
ASSE 1013 - PERFORMANCE REQUIREMENTS FOR REDUCED PRESSURE PRINCIPLE BACKFLOW PREVENTERS AND REDUCED PRESSURE PRINCIPLE FIRE PROTECTION BACKFLOW PREVENTERS Organization: ASSE
Date: 2011-08-01
Description: The assemblies do not need to be of the same pipe size. The manifold size shall be identified by the single inlet and outlet of the Manifold Reduced Pressure Principal Backflow Assembly.
NASA-LLIS-0162 - LESSONS LEARNED - ORBITER/ET FEEDLINE MATING STUD TENSIONER. Organization: NASA
Date: 1992-10-15
Description: Three stud tensioner heads, connected by six hoses through a common manifold, are used to apply a tension load of 64,000 lbs maximum to three cryogenic umbilical separation bolts by means of an air-driven hydraulic pumping unit.
ASSE 1047 - PERFORMANCE REQUIREMENTS FOR REDUCED PRESSURE DETECTOR FIRE PROTECTION BACKFLOW PREVENTION ASSEMBLIES Organization: ASSE
Date: 2011-08-01
Description: The assemblies do not need to be of the same pipe size. The manifold size shall be identified by the single inlet and outlet of the manifold RPDA or RPDA-II assembly.
API RP 92U - UNDERBALANCED DRILLING OPERATIONS - FIRST EDITION; ADD: NOVEMBER 2015 Organization: API
Date: 2008-11-01
Description: These systems include: the rig circulating equipment, the drill string, drill string non return valves (NRV), surface BOP, control devices (rotating or non-rotating) independent of the BOP, choke and kill lines, UBD flowlines, choke manifolds, hydraulic control systems, UBD separators, flare lines, flare stacks and flare pits and other auxiliary equipment.
API RP 17R - RECOMMENDED PRACTICE FOR FLOWLINE CONNECTORS AND JUMPERS - FIRST EDITION Organization: API
Date: 2015-03-01
Description: — Equipment used to make the following subsea connections are included: — pipeline end terminations to manifolds, — pipeline end terminations to trees, — pipeline end terminations to riser bases, — manifolds to trees, — pipeline inline sleds to other subsea structures.
API RP 53 - RECOMMENDED PRACTICES FOR BLOWOUT PREVENTION EQUIPMENT SYSTEMS FOR DRILLING WELLS - THIRD EDITION Organization: API
Date: 1997-03-01
Description: These systems are: blowout preventers (BOPs), choke and kill lines, choke manifold, hydraulic control system, marine riser, and auxiliary equipment.
API SPEC 16D - SPECIFICATION FOR CONTROL SYSTEMS FOR DRILLING WELL CONTROL EQUIPMENT AND CONTROL SYSTEMS FOR DIVERTER EQUIPMENT - SECOND EDITION; EFFECTIVE JANUARY 2005 Organization: API
Date: 2004-07-01
Description: These systems are typically simple return-to-reservoir hydraulic control systems consisting of a reservoir for storing hydraulic fluid, pump equipment for pressurizing the hydraulic fluid, accumulator banks for storing power fluid and manifolding, piping and control valves for transmission of control fluid to the BOP stack functions.

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