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SAE J2574 - FUEL CELL VEHICLE TERMINOLOGY Organization: SAE
Date: 2011-09-01
Description: This SAE Information Report contains definitions for hydrogen fuel cell powered vehicle terminology. It is intended that this document be a resource for those writing other hydrogen fuel cell vehicle documents, specifically, Standards or Recommended Practices.
CSA/AM - ANSI Z21.83 - FUEL CELL POWER PLANTS - FIRST EDITION Organization: CSA/AM
Date: 1998-01-01
Description: This standard applies to packaged, self-contained or factory matched packages of integrated systems, fuel cell power plants, herein after referred to as power plant(s), which, through electrochemical reactions and other processes, generate alternating-current electricity.
DS/EN 62282-2 - FUEL CELL TECHNOLOGIES - PART 2: FUEL CELL MODULES Organization: DS
Date: 2012-10-23
Description: IEC 62282-2:2012 provides the minimum requirements for safety and performance of fuel cell modules; it applies to fuel cell modules with or without an enclosure which can be operated at significant pressurization levels or close to ambient pressure.
IEC 62282-2 - FUEL CELL TECHNOLOGIES - PART 2: FUEL CELL MODULES - EDITION 2.0 Organization: IEC
Date: 2012-03-01
Description: This part of IEC 62282 provides the minimum requirements for safety and performance of fuel cell modules and applies to fuel cell modules with the following electrolyte chemistry: – alkaline; – polymer electrolyte (including direct methanol fuel cells) 1; – phosphoric acid; – molten carbonate; – solid oxide; – aqueous solution of salts.
CEI EN 62282-2 - FUEL CELL TECHNOLOGIES PART 2: FUEL CELL MODULES Organization: CEI
Date: 2013-02-01
Description: This part of IEC 62282 provides the minimum requirements for safety and performance of fuel cell modules and applies to fuel cell modules with the following electrolyte chemistry: – alkaline; – polymer electrolyte (including direct methanol fuel cells) 1; – phosphoric acid; – molten carbonate; – solid oxide; – aqueous solution of salts.
CENELEC - EN 62282-2 - FUEL CELL TECHNOLOGIES - PART 2: FUEL CELL MODULES Organization: CENELEC
Date: 2012-08-01
Description: This part of IEC 62282 provides the minimum requirements for safety and performance of fuel cell modules and applies to fuel cell modules with the following electrolyte chemistry: - alkaline; - polymer electrolyte (including direct methanol fuel cells) 1; - phosphoric acid; - molten carbonate; - solid oxide; - aqueous solution of salts.
CSA C22.2 NO 62282-2 - FUEL CELL TECHNOLOGIES – PART 2: FUEL CELL MODULES - FIRST EDITION Organization: CSA
Date: 2007-12-01
Description: This part of IEC 62282 provides the minimum requirements for safety and performance of fuel cell modules. This standard applies to fuel cell modules with the following electrolyte chemistry: – alkaline; – proton exchange membrane (including direct methanol fuel cells); – phosphoric acid; – molten carbonate; – solid oxide fuel cell modules.
MODUK - DEF STAN 61-23: SUPP 1 - GENERIC FUEL CELL SUPPLEMENT 1 METHANOL FUEL CELL SYSTEM - ISSUE 1: 02/2011 Organization: MODUK
Date: 2011-02-25
Description: This supplementary standard defines the Environment and Performance tests for a Self Contained Man Worn Man Portable Methanol Fuel Cell System (MWMPMFC) here after referenced as the fuel cell. This system will operate without the need for an external hybridised battery or other energy source and will be limited to providing dc outputs that do not exceed 60V d.c. and power output that does not exceed 240 watts.
WILEY - FUEL CELL ENGIN - FUEL CELL ENGINES COMPLETE DOCUMENT Organization: WILEY
Date: 2008-01-01
Description: He then takes you deeper into the fundamental principles, discussing: Basic Electrochemical Principles The Thermodynamics of Fuel Cells Performance Characterization of Fuel Cells Multiphase Heat and Mass Transport in Low-Temperature Fuel Cells The Polymer Electrolyte Fuel Cell Other Fuel Cells including Solid Oxide, Molten Carbonate, Phosphoric Acid, and Alkaline Based Systems Methods of Hydrogen Storage, Generation, and Delivery Experimental Diagnostics and Diagnosis of Fuel Cells A rich assortment of tools assists your mastery of the elements, including: Many solved examples that integrate the subtopics covered in each chapter Chapter-end case studies that expand on the topics covered and go beyond the textbook into external resources available Chapter-ending homework problems and exercises that are supported by a solutions manual An associated Web site that provides teaching material for instructors based on the course structure developed at Penn State since 2002
ASME PTC 50 - FUEL CELL POWER SYSTEMS PERFORMANCE Organization: ASME
Date: 2002-11-29
Description: This Code applies to all fuel cell power systems regardless of the electrical power output, thermal output, fuel cell type, fuel type, or system application.
EUROCAE ED 219 - AIRCRAFT FUEL CELL SAFETY GUIDELINES Organization: EUROCAE
Date: 2013-02-01
Description: This document defines the technical guidelines for the safe integration of Proton Exchange Membrane (PEM) Fuel Cell Systems (FCS), fuel (considered to be liquid and compressed hydrogen storage types only), fuel storage, fuel distribution and appropriate electrical systems into the aircraft.
CENELEC - EN 62282-3-201 - FUEL CELL TECHNOLOGIES - PART 3-201: STATIONARY FUEL CELL POWER SYSTEMS - PERFORMANCE TEST METHODS FOR SMALL FUEL CELL POWER SYSTEMS Organization: CENELEC
Date: 2013-09-01
Description: • operating pressure: maximum allowable working pressure of less than 0,1 MPa (gauge) for the fuel and oxidant passages; • fuel: gaseous fuel (natural gas, liquefied petroleum gas, propane, butane, hydrogen, etc.) or liquid fuel (kerosene, methanol, etc.); • oxidant: air. This standard covers fuel cell power systems whose primary purpose is the production of electric power and whose secondary purpose may be the utilization of by-product heat.
DSF/FPREN 62282-3-201 - FUEL CELL TECHNOLOGIES - PART 3-201: STATIONARY FUEL CELL POWER SYSTEMS - PERFORMANCE TEST METHODS FOR SMALL FUEL CELL POWER SYSTEMS Organization: DS
Description: This part of IEC 62282 provides test methods for the electric/thermal and environmental performance of small stationary fuel cell power systems that meet the following criteria:• output: rated electric power output of less than 10 kW;• output mode: grid-connected/independent operation or stand-alone operation with single-phase AC output or 3-phase AC output not exceeding 1 000 V, or DC output not exceeding 1 500 V; NOTE - The limit to 1 000 V comes from the definition for "low voltage" given in IEV 601-01-26.
CEI EN 62282-3-201 - FUEL CELL TECHNOLOGIES PART 3-201: STATIONARY FUEL CELL POWER SYSTEMS - PERFORMANCE TEST METHODS FOR SMALL FUEL CELL POWER SYSTEMS Organization: CEI
Date: 2014-04-01
Description: This part of IEC 62282 provides test methods for the electric/thermal and environmental performance of small stationary fuel cell power systems that meet the following criteria: output: nominal electric power output of less than 10 kW; output mode: grid-connected/independent operation or stand-alone operation with single-phase AC output or 3-phase AC output not exceeding 1 000 V, or DC output not exceeding 1 500 V; NOTE The limit to 1 000 V comes from the definition for "low voltage" given in IEV 601-01-26.
DS/EN 62282-3-201 - FUEL CELL TECHNOLOGIES - PART 3-201: STATIONARY FUEL CELL POWER SYSTEMS - PERFORMANCE TEST METHODS FOR SMALL FUEL CELL POWER SYSTEMS Organization: DS
Date: 2013-09-13
Description: IEC 62282-3-201:2013 provides test methods for the electric/thermal and environmental performance of small stationary fuel cell power systems that meet the following criteria: - output: nominal electric power output of less than 10 kW; - output mode: grid-connected/independent operation or stand-alone operation with single-phase AC output or 3-phase AC output not exceeding 1 000 V, or DC output not exceeding 1 500 V; - operating pressure: maximum allowable working pressure of less than 0,1 MPa (gauge) for the fuel and oxidant passages; - fuel: gaseous fuel or liquid fuel; - oxidant: air.
SAE J2719 - HYDROGEN FUEL QUALITY FOR FUEL CELL VEHICLES Organization: SAE
Date: 2011-09-01
Description: Purpose The purpose of this hydrogen fuel quality standard is to specify hydrogen fuel quality requirements for all commercial hydrogen fueling stations for PEM fuel cell vehicles (FCVs) Hydrogen quality is defined as the quality measured at the dispenser nozzle using a suitable adapter and methodology developed by the ASTM D03 (Gaseous Fuels) Committee.
WILEY - MATERIALS FOR LOW-TEMPERA - MATERIALS FOR LOW-TEMPERATURE FUEL CELLS Organization: WILEY
Date: 2015-03-01
Description: Topics covered include: proton exchange membrane fuel cells, direct methanol and ethanol fuel cells, microfluidic fuel cells, biofuel cells, alkaline membrane fuel cells, functionalized carbon nanotubes as catalyst supports, nanostructured Pt catalysts, non-PGM catalysts, membranes, and materials modeling.
WILEY - FUEL CELLS: PROBLEMS AND - FUEL CELLS: PROBLEMS AND SOLUTIONS 2ND EDITION Organization: WILEY
Date: 2012-01-01
Description: The comprehensive, accessible introduction to fuel cells, their applications, and the challenges they pose Fuel cells—electrochemical energy devices that produce electricity and heat—present a significant opportunity for cleaner, easier, and more practical energy.
WILEY - FUEL CELL SYS EXPLN - FUEL CELL SYSTEMS EXPLAINED 2ND EDITION Organization: WILEY
Date: 2003-01-01
Description: Presents a full and clear explanation of the operation of all the major fuel cell types, and an introduction to possible future technology, such as biological fuel cells Features a new chapter on the direct methanol fuel cell. Now includes examples of the modelling, design and engineering of real fuel cell systems.
IEC/TS 62282-1 - FUEL CELL TECHNOLOGIES – PART 1: TERMINOLOGY - EDITION 3.0 Organization: IEC
Date: 2013-11-01
Description: This part of IEC 62282 provides uniform terminology in the forms of diagrams, definitions and equations related to fuel cell technologies in all applications including but not limited to stationary power, transportation, portable power and micro power applications.

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