Results 141 to 150 of about 198,565 (207)
Proton Transport on Graphamine: A Deep-Learning Potential Study. [PDF]
J Phys Chem C Nanomater InterfacesAnanthabhotla LY, Achar SK, Johnson JK.
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AI-driven multi-objective optimization of FCHEV sizing and energy management considering degradation and vehicle dynamics under realistic machine learning-based traffic conditions. [PDF]
Sci RepMontazeri-Gh M, Mostashiri A.
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Hybrid parameter estimation and sensitivity analysis of PEM fuel cells using Rüppell's fox optimizer and Sobol metrics. [PDF]
Sci RepDraz A +4 more
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2015
Considering social (e.g. energy security), economic, and environmental issues associated with reliance on finite fossil fuel resources for energy generation, hydrogen (based on renewable energy and energy efficiency) is seen by many scientists and economists as a sustainable solution that can help the end users of energy meet their future supply ...
Bahman Shabani, John Andrews
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Considering social (e.g. energy security), economic, and environmental issues associated with reliance on finite fossil fuel resources for energy generation, hydrogen (based on renewable energy and energy efficiency) is seen by many scientists and economists as a sustainable solution that can help the end users of energy meet their future supply ...
Bahman Shabani, John Andrews
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International Journal of Hydrogen Energy, 1994
Abstract Present fuel cell designs require more development before they can make a large impact on future energy conversion markets. Today, they must use common fuels such as natural gas, but they in fact operate on hydrogen. They must therefore be integrated with chemical plants which may be regarded as dispersed refineries.
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Abstract Present fuel cell designs require more development before they can make a large impact on future energy conversion markets. Today, they must use common fuels such as natural gas, but they in fact operate on hydrogen. They must therefore be integrated with chemical plants which may be regarded as dispersed refineries.
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Hydrogen Fuel Cells and Nanotechnology
2020A typical hydrogen fuel cell consists of two electrodes and an electrolyte membrane. The hydrogen and oxygen enter through the anode and cathode of a fuel cell, respectively. At anode, the catalyst oxidized the hydrogen molecules and obtains the electrons which move through the electric circuit, whereas the protons pass through the electrolytic ...
Sarah Farrukh +5 more
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2018
Hydrogen is a flexible energy carrier that can be produced from any regionally prevalent primary energy source. Moreover, it allows low-carbon energy to be stored and can be effectively transformed into any form of energy for diverse end-use applications.
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Hydrogen is a flexible energy carrier that can be produced from any regionally prevalent primary energy source. Moreover, it allows low-carbon energy to be stored and can be effectively transformed into any form of energy for diverse end-use applications.
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Fuel Cell and Hydrogen Economy
Journal of Materials Engineering and Performance, 2006This article reviews some of the recent developments in the materials, design, and concepts for bipolar/end plates in the polymer electrolyte membrane fuel cell stack. Experimental results for the use of iron- and copper-based alloys for bipolar plate as an alternative to the expensive conventionally used graphite material are presented.
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