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Książki na temat „Thermochemistry - Chemical Hydrogen Storage”

Autor: Grafiati
Data publikacji: 7 września 2023

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1

Energy production and storage: Inorganic chemical strategies for a warming world. Chichester, West Sussex, U.K: Wiley, 2010.

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2

D, DiFilippo Frank, i United States. National Aeronautics and Space Administration., red. Energy storage for a lunar base by the reversible chemical reaction, CaO+H₂O[reversal reaction]Ca(OH)₂. [Washington, D.C.]: NASA, 1990.

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3

Ozkar, Saim. Transition Metal Nanoparticle Catalysts in H2 Release from Hydrogen Storage Materials. Elsevier, 2021.

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4

Wellnitz, Joerg, Agata Godula-Jopek i Walter Jehle. Hydrogen Storage Technologies: New Materials, Transport, and Infrastructure. Wiley & Sons, Incorporated, John, 2012.

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5

Wellnitz, Joerg, Agata Godula-Jopek i Walter Jehle. Hydrogen Storage Technologies: New Materials, Transport, and Infrastructure. Wiley & Sons, Incorporated, John, 2012.

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6

Wellnitz, Joerg, Agata Godula-Jopek i Walter Jehle. Hydrogen Storage Technologies: New Materials, Transport, and Infrastructure. Wiley & Sons, Incorporated, John, 2012.

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7

Wellnitz, Joerg, Agata Godula-Jopek i Walter Jehle. Hydrogen Storage Technologies: New Materials, Transport, and Infrastructure. Wiley & Sons, Limited, John, 2012.

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8

Wellnitz, Joerg, Agata Godula-Jopek i Walter Jehle. Hydrogen Storage Technologies: New Materials, Transport, and Infrastructure. Wiley & Sons, Limited, John, 2012.

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9

Crabtree, Robert H. Energy Production and Storage: Inorganic Chemical Strategies for a Warming World. Wiley & Sons, Incorporated, John, 2013.

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10

Crabtree, Robert H. Energy Production and Storage: Inorganic Chemical Strategies for a Warming World. Wiley & Sons, Incorporated, John, 2013.

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11

Crabtree, Robert H. Energy Production and Storage: Inorganic Chemical Strategies for a Warming World. Wiley & Sons, Incorporated, John, 2013.

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12

Crabtree, Robert H. Energy Production and Storage: Inorganic Chemical Strategies for a Warming World. Wiley & Sons, Incorporated, John, 2013.

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13

Yartys, Volodymyr, Yuriy Solonin i Ihor Zavaliy. HYDROGEN BASED ENERGY STORAGE: STATUS AND RECENT DEVELOPMENTS. Institute for Problems in Materials Science, 2021. http://dx.doi.org/10.15407/materials2021.

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The book presents the recent achievements in the use of renewable energy sources, chemical processes, biomaterials for the efficient production of hydrogen, its storage and use as a fuel in the FC-based power systems. Novel results were obtained within two research programs, namely, the NATO Science for Peace G5233 project “Portable Energy Supply” (2017-21) and the priority program of the NAS of Ukraine "Development of scientific principles of the production, storage and use of hydrogen in autonomous energy systems" (2019-21). The priority program was implemented by the leading institutes of the National Academy of Sciences of Ukraine and contained three focus areas: efficient materials and technologies for the production, storage and use of hydrogen. This includes the development of new functional materials for the fuel cells and the application of the latter in autonomous power supply systems. 4-years NATO's project was implemented by a consortium led by the Institute for Energy Technology (Coordinator; NATO country - Norway) together with the institutes from the NATO partner country – Ukraine – belonging to the NAS of Ukraine: Physico-Mechanical Institute, Institute for Problems of Materials Science and Institute of General and Inorganic Chemistry. The work included the studies of H2 generation by the hydrolysis of MgH2, Al and NaBH4, analysis of the mechanisms of these processes and selection of the most efficient catalyzers. The project successfully developed a system integrating hydrolysis process and a PEM fuel cell.
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14

Sarkar, B. K., i Reena Singh. Hydrogen Fuel Cell Vehicles Current Status. Namya Press, 2022. http://dx.doi.org/10.56962/9789355451118.

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Abstract: The hazardous effects of pollutants from conventional fuel vehicles have caused the scientific world to move towards environmentally friendly energy sources. Though we have various renewable energy sources, the perfect one to use as an energy source for vehicles is hydrogen. Like electricity, hydrogen is an energy carrier that has the ability to deliver incredible amounts of energy. On-board hydrogen storage in vehicles is an important factor that should be considered when designing fuel cell vehicles. In this study, a recent development in hydrogen fuel cell engines is reviewed to scrutinize the feasibility of using hydrogen as a major fuel in transportation systems. A fuel cell is an electrochemical device that can produce electricity by allowing chemical gases and oxidants as reactants. With anodes and electrolytes, the fuel cell splits the cation and the anion in the reactant to produce electricity. Fuel cells use reactants, which are not harmful to the environment and produce water as a product of the chemical reaction. As hydrogen is one of the most efficient energy carriers, the fuel cell can produce direct current (DC) power to run the electric car. By integrating a hydrogen fuel cell with batteries and the control system with strategies, one can produce a sustainable hybrid car.
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15

Prakash Rai, Dibya, red. Advanced Materials and Nano Systems: Theory and Experiment (Part-1). BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/97898150507451220101.

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The discovery of new materials and the manipulation of their exotic properties for device fabrication is crucial for advancing technology. Nanoscience and the creation of nanomaterials have taken materials science and electronics to new heights for the benefit of mankind. Advanced Materials and Nanosystems: Theory and Experiment cover several topics of nanoscience research. The compiled chapters aim to update students, teachers, and scientists by highlighting modern developments in materials science theory and experiments. The significant role of new materials in future technology is also demonstrated. The book serves as a reference for curriculum development in technical institutions and research programs in the field of physics, chemistry, and applied areas of science like materials science, chemical engineering, and electronics. This part covers 12 topics in these areas: - Carbon and boron nitride nanostructures for hydrogen storage applications - Nanomaterials for retinal implants - Materials for rechargeable battery electrodes - Cost-effective catalysts for ammonia production - The role of nanocomposites in environmental remediation - Optical analysis of organic and inorganic components - Metal-oxide nanoparticles - Mechanical analysis of orthopedic implants - Advanced materials and nanosystems for catalysis, sensing, and wastewater treatment - Topological Nanostructures - Hollow nanostructures
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