Products/Services for Fuel Cell Mea Hot Presses
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Presses (metalworking) - (519 companies)...parameters to consider when selecting industrial presses. Some industrial presses are driven by mechanical power, such as the mechanical punch press, which can be driven by flywheels, cranks, or clutches. Standards NAS982 - HOT...Press TypeHot PressOperation
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Hot Cells - (9 companies)How to Select Hot Cells. Hot cells are shielded radiation containment chambers that allow operators to safely handle and manipulate radioactive isotopes. They are used in both the nuclear energy industry and in nuclear medicine. Construction. Hot...
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Fuel Cells - (115 companies)Fuel cells produce electricity and heat electrochemically by combining oxygen from the air with a fuel, preferably hydrogen, from methanol, natural gas, or petroleum. Reformers are often used in conjunction with fuel cells. Fuel cells and fuel cell...
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Fuel Cell Stacks - (24 companies)How to Select Fuel Cell Stacks and Assemblies. Fuel cell stacks and assemblies consist of individual fuel cells that are combined either in series to provide a higher usable voltage, or in parallel to provide a higher usable current. Each cell...
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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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Isostatic Presses - (33 companies)Isostatic presses are used for compressing powdered materials into shaped pre-forms or general products. There are two main types of isostatic presses; cold isostatic presses (CIP) that function at room temperature and hot isostatic presses (HIP...
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Tableting Presses - (104 companies)...infiltration, hot pressing or forging to reach the required density and strength. Configurations. Tableting presses are designed in two configurations: multi-station tableting press and single station presses. Multi-station tableting presses, also...
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Fuels and Fuel Products - (349 companies)Fuels and fuel products include gasoline, diesel oil, natural gas, propane, coal, fossil fuels, biofuels and other combustible fluids or materials. Fuels and fuel products include gasoline, diesel oil, coal, fossil fuels, biofuels, natural gases...
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Load Cells - (403 companies)Load cells are force sensors that often incorporate mechanical packaging to fit into testing and monitoring systems. They can be used for tension, compression, and/or shear measurement, and can be configured to measure force or load along one...
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Press Brakes - (265 companies)...single-cycle operations to automated cell components. Driven by two synchronized hydraulic cylinders, hydraulic press brakes are safer and less expensive than mechanical press brakes and offer advantages such as variable speed control, quick retraction...
Product News
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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) -
AGC Chemicals Americas, Inc.
Advancing Fuel Cell Vehicle Performance ionomer dispersions can be used to boost the power and durability of hydrogen fuel cells in FCVs. They are ion-exchange polymers in acid form. Ionomers are used in the membranes and electrodes that are fabricated into membrane electrode assemblies (MEAs), which are stacked into a fuel cell system by connecting the cells in series and attaching humidifiers and other devices. This fuel cell system is called a proton exchange membrane fuel cell (PEMFC). AGC Can Help with Your Product Development... (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
Electrolyzers & Fuel Cells Electrolyzers & Fuel Cells. Dexmet materials are utilized in PEM and SOFC fuel cells as current collector electrodes, catalyst substrates, and gas diffusion layers. Fuel Cells typically use expensive materials like niobium, zirconium, titanium and nickel to counteract the corrosive environment inside the cell to maximize the cells lifespan. The expansion process is the most cost effective way to produce an open area product from the expensive materials. Dexmet helped create one of the first... (read more)Browse Nickel and Nickel Alloys Datasheets for Engineered Materials, a subsidiary of PPG's aerospace division -
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) -
Innovative Sensor Technology IST USA Division
Sensor Solutions for Fuel Cells Increasingly, vehicles are being built on electric motors instead of internal combustion engines and smart components are increasingly being added into vehicles. The switch to e-mobility presents the automotive industry with major challenges, as an electric vehicle requires additional sensors that measure and control in the harsh vehicle environment. Automakers and their suppliers are developing new knowledge and know-how. New components such as electric batteries, electric motors, and the... (read more)Browse Temperature Sensors Datasheets for Innovative Sensor Technology IST USA Division -
Fluid Components Intl. (FCI)
Thermal Mass Flow Meters for Fuel Cell Technology installed in a new green energy project using fuel cells to produce electricity, hydrogen and hot water. The design and implementation of this project will help the plant owner benefit from the California Bioenergy Market Adjusting Tariff Program (BioMAT) for reselling excess electricity while also allowing them to move closer to zero emissions at the site. The ST80 flow meter and VIP flow conditioner were installed for monitoring of multiple process applications: (1) fuel gas primary feed (2) fuel gas... (read more)Browse Mass Flow Meters and Controllers Datasheets for Fluid Components Intl. (FCI) -
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. -
Engineered Materials, a subsidiary of PPG's aerospace division
Metal Mesh in Fuel Cell Design Expanded Metal Mesh: An Ideal Component in Fuel Cell Design. Fuel cell manufacturers are always focused on improving their product 's versatility, durability and cost. From new designs to new materials, there are many ways in which you may go about improving your product in these regards. And many fuel cell manufacturers are choosing to implement expanded metal mesh into their fuel cell designs to those ends. From foils measuring just 50 microns thick in precious foils made of nickel, titanium... (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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http://qspace.library.queensu.ca/jspui/bitstream/1974/8410/1/Devproshad%20K.%20Paul%20201309%20PhD.pdf
temperature as it is within the temperature range for hot pressing in fuel cell MEA fabrication .
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High Polymer Content 2,5‐Pyridine‐Polybenzimidazole Copolymer Membranes with Improved Compressive Properties
hot - pressed MEAs and fuel cell performance indicated that all of the high polymer content 2,5-pyridine membranes were thermally stable at least up to 150 °C.
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Anodic oxidation of butan-1-ol on Pd and Pt electrodes in alkaline medium
2007) Perfor- mance of direct methanol fuel cells prepared by hot - pressed MEA and catalyst-coated membrane (CCM).
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An overview of unsolved deficiencies of direct methanol fuel cell technology: factors and parameters affecting its widespread use
Performance of direct methanol fuel cells prepared by hot - pressed MEA and catalyst-coated membrane (CCM).
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Electrocatalytic activity of tungsten trioxide microspheres, tungsten carbide microspheres and multi-walled carbon nanotube-tungsten carbide composites
Performance of Direct Methanol Fuel Cells Prepared by Hot - pressed MEA and Catalyst-coated Membrane (CCM)[J].
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机械工程学报
A comparative study of CCM and hot - pressed MEAs for PEM fuel cells [J].
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Development of nano-catalyzed membrane for PEM fuel cell applications
Haolin T, Shenlong W, San Ping J, Mu P (2007) A comparative study of CCM and hot - pressed MEAs for PEM fuel cells .
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Influence of PTFE on electrode structure for performance of PEMFC and 10-cells stack
A comparative study of CCM and hot - pressed MEAs for PEM fuel cells [J].
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Durable, Low-cost, Improved Fuel Cell Membranes
As shown in Figure 8, after cell testing, the non- hot - pressed MEA (mechanical compression in fuel cell hardware) showed a very good adhesion of the catalyst layer to the membrane.
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Preparation and characterization of membrane electrode assembly (MEA) for PEMFC
A comparative study of CCM and hot - pressed MEA ’s for PEM fuel cells .