Products/Services for Hydrogen Fuel Cell Generator Electrolyte
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Fuel Cell Stacks - (24 companies)...electrolyte membrane (PEM) or proton exchange membrane fuel cells use hydrogen as a fuel and a solid polymer as an electrolyte. They require a more expensive catalyst (typically platinum) and are limited to low-temperature applications. Advantages include...
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Electrolytes - (31 companies)Electrolytes are electrically-conductive materials that are used in batteries, fuel cells, capacitors, and biochemical systems. They typically exist as ionic solutions, or as molten salts or solids. Electrolytes are electrically-conductive materials...
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Fuel Cells - (115 companies)The electrolyte is made of a solid polymer membrane. A phosphoric acid fuel cell (PAFC) uses a phosphorous electrolyte to provide high reliability, quiet operation, and improved efficiency. Molten carbonate fuel cells (MCFC) use hydrogen or methane... -
Fuels and Fuel Products - (349 companies)...the combustion of a combination of hydrogen and carbon molecules to produce energy. Naturally-occurring hydrocarbon fuels are called fossil fuels. Examples include coal and natural gas. Processed fossil fuels include methanol, ethanol, diesel oil... -
Electrolytic Cleaning Equipment - (18 companies)...smuts, and other soils. Video credit: SURFOX 304 --MIG & TIG. Specifications. Electrolytic cleaning systems utilize an electrolytic cell. Electrolytic cells are comprised of two electrodes, the anode (positive terminal) and the cathode (negative...
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Anodes - (151 companies)Electrochlorination is one common application. The core metals are titanium (most common), zirconium, niobium, or tantalum. Other types of metal anodes are used in membrane cells, mercury cells, diaphragm cells, perchlorate cells, and sodium chlorate...
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Batteries - (1681 companies)...corresponding electrodes. The electrodes must not touch each other. They are separated by the electrolyte, which facilitates the flow of electric charge between the electrodes. Finally, a collector conducts the charge to the battery's exterior and through...
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Fuel Cell and Solar Test Equipment - (156 companies)Battery, fuel cell and solar test equipment consists of specialized test stations, stands or systems, monitors and component modules for performance or endurance testing. Battery, fuel cell and solar test equipment consists of specialized test...
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Gas Instruments - (899 companies)Gas instruments detect, monitor or analyze gases present in an environment.
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Electrodes and Electrode Materials - (351 companies)...protection (sacrificial anodes) and electroplating (plating anodes) as well as components in batteries, fuel cells, and electrochemical devices. Cathodes are negatively charged electrodes used in batteries, fuel cells, electrolysis systems, plating...
Product News
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Backer Hotwatt Inc.
What Is Hydrogen Fuel Cell Technology? In the quest to find cleaner, more sustainable sources of energy, hydrogen fuel cell technology is a promising area. Hydrogen is present in water and nearly all living things. As a renewable source of energy, it has enormous potential to generate power, electricity, and heat. The process of extracting energy is a clean, relatively simple process. Hydrogen atoms are passed through the anode of a fuel cell and stripped of their electrons. Positively-charged protons go through the membrane... (read more)Browse Electric Heaters Datasheets for Backer Hotwatt Inc. -
Busch Vacuum Solutions
Busch at Hydrogen + Fuel Cells EUROPE 2024 Maulburg, March 05, 2024 - Busch has developed the right solution for the high demands of hydrogen fuel cells: the MINK MH. MINK MH 0018 and MINK MH 0040 blowers are part of the MINK MH series, which has been designed for the reliable recirculation of hydrogen in fuel cells. These recirculation blowers are compact and powerful, making them ideal for direct integration into fuel cell systems. Their compact dimensions allow them to be used for a wide range of applications without requiring a lot... (read more)Browse Vacuum Pumps and Vacuum Generators Datasheets for Busch Vacuum Solutions -
Protomatic, Inc.
Fuel Cells Fuel cells are energy conversion devices which produce electricity from a fuel and an oxidant reacting in the presence of an electrolyte. The electrolyte remains within the cell, while the reactants flow into it and then out of it after the reaction occurs. The advantage of fuel cells is that they can operate continuously if reactants are maintained at proper levels. Widely discussed in the media, hydrogen fuel cells use hydrogen as fuel and oxygen as an oxidant while other fuels... (read more) -
Burkert Fluid Control Systems
Hydrogen fuel cell tech-help tackle climate change B urkert supports hydrogen fuel cell technology to help tackle climate change. The UN has warned that countries need to cut emissions by as much as five times their planned amount over the next 11 years to avert the worst effects of global warming. One of the most effective means of reaching those targets is to break the dependence on carbon-emitting fossil fuels. Hydrogen fuel cells offer a cleaner, greener alternative that could prove crucial in the fight against climate change. Hydrogen fuel... (read more) -
Backer Hotwatt Inc.
SOLUTIONS FOR HYDROGEN FUEL APPLICATIONS CUSTOM HEATING SOLUTIONS FOR HYDROGEN FUEL. APPLICATIONS. Backer Hotwatt is on the leading edge of the rapidly emerging hydrogen fuel cell technology market. Our broad technology, experience, and deep bench of knowledgeable engineers enable us to design custom heating solutions --based on the unique geometries, materials, and temperature requirements --of hydrogen fuel cell applications. Powering the Future. This discussion provides an overview of hydrogen fuel cell technology and our custom... (read more)Browse Industrial Heaters Datasheets for Backer Hotwatt Inc. -
Backer Hotwatt Inc.
A RESOURCE FOR HYDROGEN FUEL APPLICATIONS Backer Hotwatt creates custom solutions for hydrogen fuel cell engines that are required to operate in challenging environments, working closely with customers to design heaters specific to their engines ' specifications. The dedicated webpage offers information on what hydrogen fuel cell technology is, and explains why engine systems and components need to be heated. Hydrogen fuel cells are required to operate in challenging environments --some in temperatures as cold as -30 degrees Celsius... (read more)Browse Industrial Heaters Datasheets for Backer Hotwatt Inc. -
AGC Chemicals Americas, Inc.
Advancing Fuel Cell Vehicle Performance 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. At the anode site, a catalyst splits the hydrogen molecules into protons and electrons. The protons pass through a porous electrolyte membrane, and the electrons move through a circuit. This generates an electric current and excess heat. At the cathode, the protons, electrons and oxygen combine to produce water molecules. Why are FCVs... (read more) -
Isabellenhutte USA
Electrical Isolation in Fuel Cells Improving the safety characteristics of fuel cell technology is becoming more urgent as vehicle manufacturers accelerate their move away from conventional power. As a report to one state's department of public safety noted: "The two prime dangers from fuel cell and hydrogen-powered vehicles are the danger of electrical shock and the flammability of the fuel.". Isabellenh utte is enhancing fuel cell designers' ability to improve electrical isolation within these fuel cells with a sensor that can... (read more)Browse Current Sensors Datasheets for Isabellenhutte USA -
Engineered Materials, a subsidiary of PPG's aerospace division
Electrolyzer & Fuel Cell Technologies Electrolyzer & Fuel Cell Technologies. Our MicroGrid (R) and PolyGrid (R) expanded materials reduce the cost and improve the performance of electrolyzers, PEM, and SOFC fuel cells. 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 (SOFC), and other fuel cell... (read more) -
Backer Hotwatt Inc.
Heating Solutions for Fuel Cell Applications In creating hydrogen fuel cell engines for use in cold weather environments, it 's essential to bring the fuel cell stack and system components up to temperature to prevent hydrogen and water from freezing. In temperatures above -15 degrees Celsius, passive preheating (using the system-generated heat) can be an acceptable method to bring the stack up to temperature. In environments that are less than -15 degrees Celsius, active preheating is required. One of the best methods to actively preheat... (read more)Browse Industrial Heaters Datasheets for Backer Hotwatt Inc.
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A comparative study of Pt/CeO2 catalysts for catalytic partial oxidation of methane to syngas for application in fuel cell electric vehicles - ePrints@IISc
In the framework of a project aimed at developing a reliable hydrogen generator for mobile polymer electrolyte fuel cells (PEFCs), particular emphasis has been addressed to the analysis of catalysts able to assure high activity and stability in transient operations (frequent start …
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Hydrocarbon--air fuel cell using an acid electrolyte. [Comparison of direct and indirect fuel cells]
30 DIRECT ENERGY CONVERSION; HYDROCARBON FUEL CELLS; DESIGN; ELECTROCHEMISTRY; ACID ELECTROLYTE FUEL CELLS ; AIR; HYDROGEN GENERATORS ; OPERATION; PHOSPHORIC ACID; CHEMISTRY; DIRECT ENERGY CONVERTERS; ELECTROCHEMICAL CELLS; FLUIDS; FUEL CELLS; GASES; HYDROGEN COMPOUNDS; INORGANIC ACIDS .
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Electric battery compressing a fuel cell hydrogen generator and heat exchanger. [Si--Al mixture reacts with KOH electrolyte to produce H/sub 2/ and an insolubl...
30 DIRECT ENERGY CONVERSION; 08 HYDROGEN; HYDROGEN FUEL CELLS ; DESIGN; HYDROGEN GENERATORS ; CHEMICAL REACTORS; ELECTROLYTES ; HEAT EXCHANGERS; POTASSIUM HYDROXIDES; ALKALI METAL COMPOUNDS; DIRECT ENERGY CONVERTERS; ELECTROCHEMICAL CELLS; FUEL CELLS; HYDROGEN COMPOUNDS; HYDROXIDES; OXYGEN COMPOUNDS; POTASSIUM COMPOUNDS .
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Nuclear-Hydrogen Power
At the end of the 1980s an electrochemical generator operating on hydrogen –oxygen fuel cells with a matrix alkaline electrolyte was developed at the Ural Integrated Electrochemical Plant for the Énergiya rockets made by the Rocket and Space Corporation.
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Heat transfer simulation of a single channel air-cooled Polymer Electrolyte Membrane fuel cell stack with extended cooling surface
Abstract— A Polymer Electrolyte Membrane (PEM) fuel cell is an electrical power generator utilizing a hydrogen -based fuel reactant and oxygen in a reversed electrolysis reaction, with by- products of water and heat.
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Macrokinetics of electrolysis of dilute solutions in systems with a solid polymer electrolyte
Electrochemical devices with a solid polymer elec- trolyte (SPE) are widely used in fuel cells and oxygen- hydrogen generators , in chlorine production, electrodi- alysis, and the newest environment protection technol- ogy.
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Alumino-hydrogen energy: Principles and technologies
A generator coupled with hydrogen –air fuel cells with a Nafion solid polymer electrolyte forms compact current sources.
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Development of metal oxides anchored on a polymer matrix for Hydrogen storage applications - Innovation and Research // Luxembourg - 12
The developed material will be used for the achievement of a reservoir for the hydrogen storage to be used in a power generator based on Polymer Electrolyte Membrane fuel cell technology.
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Mounting a hydrogenase analog on calixarenes—designing a nature‐inspired solid state catalyst for fuel cells by density functional theory
Abstract The hydrogen ‐ fuel PEFC (polymer electrolyte fuel cell ) is among the most promising alternative power generators of the future.
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Improvement of the high energy ball-milling preparation procedure of CO tolerant Pt and Ru containing catalysts for polymer electrolyte fuel cells
Polymer electrolyte fuel cells are low temperature elec- trical generators using Pt-based electrocatalysts to acti- vate both hydrogen electrooxidation and oxygen electroreduction [1].
