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API PUBL 1645 - STAGE II VAPOR RECOVERY SYSTEM OPERATIONS & SYSTEM INSTALLATION COSTS - FIRST EDITION Organization: API
Date: 2002-08-01
Description: EPA has also implemented an on-board refueling vapor recovery (ORVR) requirement for new vehicles. It is designed to capture gasoline vapors at the nozzle/vehicle gas tank interface during refueling.
API RP 1639 - OWNER/OPERATOR’S GUIDE TO OPERATION AND MAINTENANCE OF VAPOR RECOVERY SYSTEMS AT GASOLINE DISPENSING FACILITIES - FIRST EDITION Organization: API
Date: 2003-07-01
Description: Purpose and Scope This Recommended Practice (RP) is designed to provide guidance to owners and operators of gasoline dispensing facilities (GDF) to effectively operate and maintain Stage I and Stage II vapor recovery systems. This guide does not address the maintenance required by qualified service technicians to perform periodic testing and major system repairs.
API RP 1004 - BOTTOM LOADING AND VAPOR RECOVERY FOR MC-306 & DOT-406 TANK MOTOR VEHICLES - EIGHTH EDITION Organization: API
Date: 2003-01-01
Description: Sections 4 through 7 describe means of attaining operating flexibility with vehicles equipped for bottom loading and vapor recovery. Where compatible equipment is required, certain features must be standardized; these items are listed as required features.
CGSB 3.1000 - VAPOUR CONTROL SYSTEMS IN GASOLINE DISTRIBUTION NETWORKS Organization: CGSB
Date: 2013-10-01
Description: (UL1) standards and documents are recommended in vapour recovery lines for the fire protection of VRU systems. Flame arrestors shall be sized so as not to increase system back-pressures beyond the levels specified in maximum back-pressure stated above.
ASHRAE - LO-09-054 - CONDENSATE HARVESTING FROM LARGE DEDICATED OUTSIDE AIR-HANDLING UNITS WITH HEAT RECOVERY Organization: ASHRAE
Date: 2009-01-01
Description: To satisfy ASHRAE 90.1, fan systems that have a design air flow rate of 5000 cfm (2358 L / sec) or greater and have a minimum outside ventilation air flow that is equal to 70% or more of the supply air shall have an energy recovery system with at least 50% recovery effectiveness (ASHRAE, 2004).
UL 79 - UL STANDARD FOR SAFETY POWER-OPERATED PUMPS FOR PETROLEUM DISPENSING PRODUCTS - TENTH EDITION Organization: UL
Date: 2016-04-29
Description: They are intended for operation at the marked maximum discharge pressure, or less, with the ambient and liquid temperature within the range of minus 20°F (minus 29°C) – 125°F (52°C). c) Vapor recovery applications for flammable liquid dispensing devices.
UL 79B OUTLINE - OUTLINE OF INVESTIGATION FOR POWER-OPERATED PUMPS FOR DIESEL FUEL, BIODIESEL FUEL, DIESEL/BIODIESEL BLENDS WITH NOMINAL BIODIESEL CONCENTRATIONS UP TO 20 PERCENT (B20), KEROSENE, AND FUEL OIL - ISSUE NO. 1 Organization: UL
Date: 2012-11-02
Description: c) Vapor recovery applications for dispensing devices. They are intended to operate under a vacuum at the inlet and a maximum discharge pressure of 50 psig (345 kPa), or marked discharge pressure, whichever is less.
UL 79B - UL STANDARD FOR SAFETY POWER-OPERATED PUMPS FOR DIESEL FUEL, BIODIESEL FUEL, DIESEL/BIODIESEL BLENDS WITH NOMINAL BIODIESEL CONCENTRATIONS UP TO 20 PERCENT (B20), KEROSENE, AND FUEL OIL - FIRST EDITION; REPRINT WITH REVISIONS THROUGH AND INCLUDING MAY 5, 2016 Organization: UL
Date: 2015-02-11
Description: c) Vapor recovery applications for dispensing devices. They are intended to operate under a vacuum at the inlet and a maximum discharge pressure of 50 psig (345 kPa), or marked discharge pressure, whichever is less.
UL 79A OUTLINE - OUTLINE OF INVESTIGATION FOR POWER-OPERATED PUMPS FOR GASOLINE AND GASOLINE/ETHANOL BLENDS WITH NOMINAL ETHANOL CONCENTRATIONS UP TO 85 PERCENT (E0 – E85) - ISSUE NO. 1 Organization: UL
Date: 2012-11-02
Description: c) Vapor recovery applications for dispensing devices. They are intended to operate under a vacuum at the inlet and a maximum discharge pressure of 50 psig (345 kPa), or marked discharge pressure, whichever is less.
UL 79A - UL STANDARD FOR SAFETY POWER-OPERATED PUMPS FOR GASOLINE AND GASOLINE/ETHANOL BLENDS WITH NOMINAL ETHANOL CONCENTRATIONS UP TO 85 PERCENT (E0 – E85) - FIRST EDITION; REPRINT WITH REVISIONS THROUGH AND INCLUDING MAY 5, 2016 Organization: UL
Date: 2015-02-11
Description: c) Vapor recovery applications for dispensing devices. They are intended to operate under a vacuum at the inlet and a maximum discharge pressure of 50 psig (345 kPa), or marked discharge pressure, whichever is less.
SAE ARP4028 - AIRCRAFT/ENGINE FUEL PUMP TWO PHASE (SLUGGING FLOW) INLET PERFORMANCE TEST AND EVALUATION Organization: SAE
Date: 1994-09-01
Description: The procedure revcommends a recirculation system similar to ARP492 to control the fuel properties affecting the fluid and Its ability to "release" fuel vapors and dissolved air and have these "re—entrained or dissolved" during the fluid recovery process back to the tank and the original starting conditions.
AHRI 1230 - PERFORMANCE RATING OF VARIABLE REFRIGERANT FLOW (VRF) MULTI-SPLIT AIR-CONDITIONING AND HEAT PUMP EQUIPMENT - INCORPORATING ADDENDUM 1: MARCH 2011; ADDENDUM 2: JUNE 2014 Organization: AHRI
Date: 2010-01-01
Description: This standard applies only to electrically operated, vapor compression refrigeration systems. Note: For the purpose of the remaining clauses, the terms equipment and systems will be used to mean multi-split airconditioners and/or multi-split heat pumps that are described in Sections 2.1 to 2.5.
ULC CAN-S612 - STANDARD FOR HOSE AND HOSE ASSEMBLIES FOR FLAMMABLE AND COMBUSTIBLE LIQUIDS - FIFTH EDITION Organization: ULC
Date: 2016-04-01
Description: This Standard sets forth minimum requirements for hose and hose assemblies, including coaxial vapour recovery hose and hose assemblies, for use on dispensing devices for flammable and combustible liquids.
SAE/TP - 2007-01-3266 - MICROWAVE ENHANCED FREEZE DRYING OF SOLID WASTE Organization: SAE/TP
Date: 2007-07-09
Description: Operating under vacuum, microwave power provides the energy necessary for sublimation of ice contained within the waste. This water vapor is subsequently collected as relatively pure ice on a Peltier thermoelectric condenser as it travels en route to the vacuum pump.
API 45552 - EXPOSURE ASSESSMENT FOR MARKETING AND MARINE DISTRIBUTION WORKERS IN THE PETROLEUM INDUSTRY WITH POTENTIAL EXPOSURE TO GASOLINE Organization: API
Date: 1994-01-01
Description: Remote venting is commonly used on marine vessels and storage tanks. Vapor recovery systems are used at some truck terminals for both top and bottom loading.
UL 330A OUTLINE - OUTLINE OF INVESTIGATION FOR HOSE AND HOSE ASSEMBLIES FOR USE WITH DISPENSING DEVICES DISPENSING GASOLINE AND GASOLINE/ETHANOL BLENDS WITH NOMINAL ETHANOL CONCENTRATIONS UP TO 85 PERCENT (E0 – E85) - ISSUE 1 Organization: UL
Date: 2012-11-02
Description: These requirements cover hose and hose assemblies, including vapor recovery hose and assemblies, for use on dispensing devices for motor fuels.
UL 2039 OUTLINE - OUTLINE OF INVESTIGATION FOR FLEXIBLE CONNECTOR PIPING FOR FUELS - ISSUE 2 Organization: UL
Date: 2013-04-30
Description: Connector pipes may be metallic, nonmetallic, or composite, but are limited to maximum 12 ft (3.65 m) lengths in nominal sizes up to 4 inches (102 mm) as flexible transition components within fuel dispensing and/or vapor recovery piping systems, typically intended for use in the following automotive fueling station applications: a) Underground use (below surface but accessible such as within chase piping) when connected to underground tanks or underground pipes with expected exposures to soil, water, and soil fluids; b) Sump use (enclosed tank, transition or dispenser types) when connected to pumps, valves, monitors, or dispensing devices with expected exposures to soil, water, soil fluids, and occasional sunlight; c) Aboveground use (above surface but with additional physical protection) when connected to aboveground tanks or aboveground pipes with expected exposures to soil, water, soil fluids, and sunlight.
UL - 2039 BULLETIN - UL STANDARD FOR SAFETY OUTLINE OF INVESTIGATION FOR FLEXIBLE CONNECTOR PIPING FOR FUELS - COMMENTS DUE: MARCH 14, 2016 Organization: UL
Date: 2016-01-29
Description: Connector pipes may be metallic, nonmetallic, or composite, but are limited to maximum 12 ft (3.65 m) lengths in nominal sizes up to 4 inches (102 mm) as flexible transition components within fuel dispensing and/or vapor recovery piping systems, typically intended for use in the following automotive fueling station applications: a) Underground use (below surface but accessible such as within chase piping) when connected to underground tanks or underground pipes with expected exposures to soil, water, and soil fluids; b) Sump use (enclosed tank, transition or dispenser types) when connected to pumps, valves, monitors, or dispensing devices with expected exposures to soil, water, soil fluids, and occasional sunlight; c) Aboveground use (above surface but with additional physical protection) when connected to aboveground tanks or aboveground pipes with expected exposures to soil, water, soil fluids, and sunlight.
UL 2039 - UL STANDARD FOR SAFETY FLEXIBLE CONNECTOR PIPING FOR FUELS - FIRST EDITION Organization: UL
Date: 2016-05-06
Description: Connector pipes may be metallic, nonmetallic, or composite, but are limited to maximum 12 ft (3.65 m) lengths in nominal sizes up to 4 inches (102 mm) as flexible transition components within fuel dispensing and/or vapor recovery piping systems, typically intended for use in the following automotive fueling station applications: a) Underground use (below surface but accessible such as within chase piping) when connected to underground tanks or underground pipes with expected exposures to soil, water, and soil fluids; b) Sump use (enclosed tank, transition or dispenser types) when connected to pumps, valves, monitors, or dispensing devices with expected exposures to soil, water, soil fluids, and occasional sunlight; c) Aboveground use (above surface but with additional physical protection) when connected to aboveground tanks or aboveground pipes with expected exposures to soil, water, soil fluids, and sunlight.
ASTM D6282/D6282M - STANDARD GUIDE FOR DIRECT PUSH SOIL SAMPLING FOR ENVIRONMENTAL SITE CHARACTERIZATIONS Organization: ASTM
Date: 2014-05-01
Description: This guide does not address the installation of any temporary or permanent soil, groundwater, vapor monitoring, or remediation devices. The practicing of direct push techniques may be controlled by local regulations governing subsurface penetration.

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