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Supplier: SAE International
Description: While there are various types of Fuel Cell architectures being developed, the focus of this document is on Proton Exchange Membrane (PEM) fuel cell stacks and ancillary components for automotive propulsion applications. Within the boundaries of this
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Description: ISO 14687-2:2012 specifies the quality characteristics of hydrogen fuel in order to ensure uniformity of the hydrogen product as dispensed for utilization in proton exchange membrane (PEM) fuel cell road vehicle systems.
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Supplier: Accuris
Description: PROTON EXCHANGE MEMBRANE FUEL CELLS: CONTAMINATION AND MITIGATION STRATEGIES
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Description: Hydrogen fuel -- Product specification -- Part 1: All applications except proton exchange membrane (PEM) fuel cell for road vehicles
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Supplier: Accuris
Description: RECOMMENDED PRACTICE TO DESIGN FOR RECYCLING PROTON EXCHANGE MEMBRANE (PEM) FUEL CELL SYSTEMS
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Supplier: Accuris
Description: HYDROGEN FUEL - PRODUCT SPECIFICATION - PART 2: PROTON EXCHANGE MEMBRANE (PEM) FUEL CELL APPLICATIONS FOR ROAD VEHICLES
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Supplier: Accuris
Description: HYDROGEN FUEL - PRODUCT SPECIFICATION PART 3: PROTON EXCHANGE MEMBRANE (PEM) FUEL CELL APPLICATIONS FOR STATIONARY APPLIANCES
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Description: IEC 62282-8-102:2019 deals with PEM cell/stack assembly units, testing systems, instruments and measuring methods, and test methods to test the performance of PEM cells and stacks in fuel cell mode, electrolysis and/or reversible mode.
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Supplier: CSA Group
Description: ISO 14687-3:2014 specifies the quality characteristics of hydrogen fuel in order to ensure uniformity of the hydrogen product for utilization in stationary proton exchange membrane (PEM) fuel cell power systems.
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Supplier: CSA Group
Description: ISO 14687-2:2012 specifies the quality characteristics of hydrogen fuel in order to ensure uniformity of the hydrogen product as dispensed for utilization in proton exchange membrane (PEM) fuel cell road vehicle systems.
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Description: Provides the minimum requirements for safety and performance of fuel cell modules. Applies to fuel cell modules with the following electrolyte chemistry: alkaline; proton exchange membrane (including direct methanol fuel cells);
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Supplier: SAE International
Description: This Standard provides background information and a hydrogen fuel quality standard for commercial proton exchange membrane (PEM) fuel cell vehicles. This Report also provides background information on how this standard was developed by the Hydrogen Quality
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Supplier: SAE International
Description: This standard provides background information and a hydrogen fuel quality standard for commercial proton exchange membrane (PEM) fuel cell vehicles. This report also provides background information on how this standard was developed by the Hydrogen Quality
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Description: Provides the minimum requirements for safety and performance of fuel cell modules. Applies to fuel cell modules with the following electrolyte chemistry: alkaline; proton exchange membrane (including direct methanol fuel cells);
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Supplier: SAE International
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
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Description: IEC 62282-6-106:2024 covers micro fuel cell power systems, micro fuel cell power units and fuel cartridges using hydrogen produced from UN Class 8 (corrosive) borohydride formulations as fuel. These systems and units use proton exchange
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Description: such has many aspects to consider in its design. Fuel cell electric vehicles (FCEVs) powered by proton-exchange membrane fuel cells (PEFC) and fueled by hydrogen, offer the promise of zero emissions with excellent driving range of 300-400 miles, and
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Description: applicable to hydrogen generators that use the following types of ion transport medium: Group of aqueous bases; Solid polymeric materials with acidic function group additions such as acid proton exchange membrane (PEM). ISO 22734-1:2008 is applicable to hydrogen
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Description: generators that use the following types of ion transport medium: a group of aqueous bases or solid polymeric materials with acidic function group additions, such as acid proton exchange membrane. ISO 22734-2:2011 is applicable to hydrogen generators intended for indoor and
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Supplier: CSA Group
Description: applicable to hydrogen generators that use the following types of ion transport medium: Group of aqueous bases; Solid polymeric materials with acidic function group additions such as acid proton exchange membrane (PEM). ISO 22734-1:2008 is applicable to hydrogen
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Supplier: CSA Group
Description: generators that use the following types of ion transport medium: a group of aqueous bases or solid polymeric materials with acidic function group additions, such as acid proton exchange membrane. ISO 22734-2:2011 is applicable to hydrogen generators intended for indoor and
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circuit and produce electricity, with water and heat byproducts of the process. Polymer electrolyte membrane fuel cells—also known as proton exchange membrane fuel cells—are primarily developed for transportation-related applications. (read more)
Browse Electric Heaters Datasheets for Backer Hotwatt Inc. -
Engineered Materials, a subsidiary of PPG's aerospace division
Electrolyzer & Fuel Cell Technologies
. How Dexmet Expanded Materials Improve the Efficiency of Electolyzers and Fuel Cells. Dexmet has provided materials for power applications for over 50 years. Dexmet has redefined how expanded materials can be incorporated into electrolyzers, proton exchange membrane (PEM), solid oxide (read more)
Browse Perforated Sheet Materials Datasheets for Engineered Materials, a subsidiary of PPG's aerospace division -
2030. How do proton exchange membrane fuel cells work? As the Fuel Cell & Hydrogen Energy Association explains, a fuel cell is composed of an anode, cathode and an electrolyte membrane. It works by passing hydrogen through the anode and oxygen through the cathode (read more)
Browse Datasheets for AGC Chemicals Americas, Inc. -
. As early as 2006, we worked on hydrogen applications in our Maestral laboratory, a joint venture with the CEA Research Institute in France. First, working on proton exchange membrane fuel cells to optimize the stacks, we have developed sealing systems for high-temperature electrolysis and now (read more)
Browse Dynamic Seals Datasheets for Technetics Group -
How Dexmet Expanded Materials Improve the Efficiency of Electolyzers and Fuel Cells. Dexmet has provided materials for power applications for over 50 years. Dexmet has redefined how expanded materials can be incorporated into electrolyzers, proton exchange membrane (PEM (read more)
Browse Anodes Datasheets for Engineered Materials, a subsidiary of PPG's aerospace division -
separators, similar to how the S-Series is used in PEM processes. These membranes come in different polymers and thicknesses, ensuring high selectivity with minimal proton leakage. In fuel cell manufacturing, (read more)
Browse Resins and Compounds Datasheets for AGC Chemicals Americas, Inc. -
Engineered Materials, a subsidiary of PPG's aerospace division
Technology for advanced power applications
materials can be incorporated into electrolyzers, proton exchange membrane (PEM), solid oxide (SOFC), and other fuel cell applications. When working with expensive materials like niobium, zirconium, silver, titanium and nickel, expanded products provide efficiency advantages that make it a more (read more)
Browse Expanded Sheet Materials Datasheets for Engineered Materials, a subsidiary of PPG's aerospace division -
Our rectifiers can power Green Hydrogen electrolyser production that uses Proton Exchange Membrane (PEM) technology. Typical hydrogen applications are Fuel, Energy Storage, Energy Generation, and Industrial hydrogen. Value to the Customer - Reduced (read more)
Browse Power Rectifiers Datasheets for Neeltran, Inc. -
rectifiers in its Connecticut facility to provide you a dc power system solution that exceeds your requirements. Our rectifiers can power Green Hydrogen electrolyser production that uses Proton Exchange Membrane (PEM) technology. Typical hydrogen applications are Fuel, Energy Storage, Energy Generation, and Industrial hydrogen. Learn More (read more)
Browse Power Rectifiers Datasheets for Neeltran, Inc. -
specifications. Our team builds / designs transformers and rectifiers in its Connecticut facility to provide you a dc power system solution that exceeds your requirements. Our rectifiers can power Green Hydrogen electrolyser production that uses Proton Exchange Membrane (PEM) technology. Typical (read more)
Browse DC Power Supplies Datasheets for Neeltran, Inc.
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Case Study: System Integrator Incorporates Electronic Loads Into Fuel-Cell ATE
A system-integrator based in Asia designs and manufactures systems based on fuel-cell and other alternative-energy technologies. Leveraging its expertise in SOFC (solid-oxide fuel cell), SOEC (solid-oxide electrolyzer cell), PEMFC (proton-exchange-membrane fuel cell), and MCFC (molten-carbonate
More Information Top
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High Temperature Polymer Electrolyte Membrane Fuel Cells
The cells are referred to as polymer fuel cells, polymer electrolyte fuel cells (PEFC), or polymer electro- lyte membrane fuel cells/ proton exchange mem- brane fuel cells (PEMFC).
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PEM Fuel Cell Electrocatalysts and Catalyst Layers
Low- cost electrodes for proton exchange membrane fuel cells .
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Polymer Membranes for Fuel Cells
Proton exchange membrane fuel cells dominated the industry as a key focus area.
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Fuel Cells
17 Proton Exchange Membrane Fuel Cells : High-Temperature, Low-Humidity Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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2011 Annual Progress Report: DOE Hydrogen and Fuel Cells Program (Book)
V.D.11 Northeastern University: Development of Novel Non-PGM Electrocatalysts for Proton Exchange Membrane Fuel Cell Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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2009 Annual Progress Report: DOE Hydrogen Program, November 2009 (Book)
These case studies, including a proposed hydrogen power station with carbon capture in the United Kingdom, the EPACOP project (Expérimentation de 5 Piles A Combustible sur sites OPérationnels) in France to test proton exchange membrane fuel cells under “real world” conditions for …
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Direct Alcohol Fuel Cells
Proton exchange membrane fuel cells (PEMFC) are low temperature fuel cells, operating at temperatures below 100 C, being Nafion the sulfonated perfluo- polymer commonly used as electrolyte.
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Fuel Cell Science and Engineering: Materials Processes Systems and Technology 2 Volume Set
(2011) Polymer membranes for high temperature proton exchange membrane fuel cell : recent advances and challenges. Prog.
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Electrocatalysis in Fuel Cells
fuel cell technologies, proton exchange membrane fuel cells (PEMFC) using direct liquid fuel-oxygen (anode/cathode) are currently the most viable, meeting criteria 1 and 2 above.
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Advanced Materials for PEM-Based Fuel Cell Systems
W. Harrison, H. Ghassemi, T.A. Zawodzinski, and J.E. McGrath, “Multiblock Copolymers Containing Hydrophilic-Hydrophobic Segments for Proton Exchange Membrane Fuel Cells ,” (2005), Patent Number WO2005053060.