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The study of inorganic membrane materials and processes is a rapidly expanding research interest area. This is due to the recognition that research results in recent years have created membrane-based technology modules with the potential to improve the cost, efficiency, and environmental performances of energy production systems beyond current benchmarks. This book documents progress in inorganic membranes, especially in advanced materials and novel separation concepts, with applications for cost-effective and environmentally-progressive energy production solutions. The book chapters address inorganic membranes on three transport mechanisms, i.e., mixed ion-electron conduction, solution-atomic diffusion, and size exclusion filtration of the permeate phase. Inorganic Membranes for Energy and Environmental Applications provides a single source reference for researchers contemplating continued advancement of inorganic membrane technology to novel capabilities for applications to future energy and fuel production systems and potentially, technology-based responses to address greenhouse gas emission concerns. This book is meant for scientists, engineers, industry R&D personnel, and graduate students engaged in the development, engineering scale-up, and applications of inorganic membrane materials and processes, and non-technical management staff delegated with programmatic and resource allocation decision authorities who need to know about state-of-the-art current inorganic membrane technology.

Membranes (Technology). --- Membranes (Technology) --- Inorganic ion exchange materials --- Ion-permeable membranes --- Gas separation membranes --- Hydrogen --- Oxygen --- Power resources --- Electric power production --- Chemical & Materials Engineering --- Engineering & Applied Sciences --- Chemical Engineering --- Ion-permeable membranes. --- Gas separation membranes. --- Electric power production. --- Power resources. --- Inorganic ion exchange materials. --- Inorganic ion exchangers --- Ion exchange materials, Inorganic --- Energy --- Energy resources --- Power supply --- Electric power generation --- Electricity generation --- Power production, Electric --- Ion exchange membranes --- Permeable membranes (Electrodialysis) --- Permselective membranes --- Artificial membranes --- Chemistry. --- Analytical chemistry. --- Inorganic chemistry. --- Electrochemistry. --- Chemical engineering. --- Energy industries. --- Materials science. --- Industrial Chemistry/Chemical Engineering. --- Analytical Chemistry. --- Energy Economics. --- Materials Science, general. --- Inorganic Chemistry. --- Chemistry, Inorganic --- Materials --- Natural resources --- Energy harvesting --- Energy industries --- Electric power systems --- Electrification --- Electrodes, Ion selective --- Electrodialysis --- Ion exchange --- Separation (Technology) --- Technology --- Analytical biochemistry. --- Materials. --- Chemistry, inorganic. --- Energy Policy, Economics and Management. --- Inorganic chemistry --- Chemistry --- Inorganic compounds --- Physical sciences --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Analytic biochemistry --- Biochemistry --- Chemistry, Analytic --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Chemistry, Technical --- Metallurgy --- Bioanalytic chemistry --- Bioanalytical chemistry --- Analytical chemistry --- Energy policy. --- Energy and state. --- Chemistry, Physical and theoretical --- Material science --- Energy and state --- State and energy --- Industrial policy --- Energy conservation --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Government policy