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Membrane reactors are increasingly replacing conventional separation, process and conversion technologies across a wide range of applications. Exploiting advanced membrane materials, they offer enhanced efficiency, are very adaptable and have great economic potential. There has therefore been increasing interest in membrane reactors from both the scientific and industrial communities, stimulating research and development. The two volumes of the Handbook of membrane reactors draw on this research to provide an authoritative review of this important field.Volume 2 reviews reactor types a
Biosensors. --- Membrane reactors -- Handbooks, manuals, etc. --- Membrane reactors. --- Mechanical Engineering --- Engineering & Applied Sciences --- Bioengineering --- Membrane reactors --- Reactors, Membrane --- Bioreactors --- Membranes (Technology) --- Design and construction.
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Due to the decreasing world petroleum reserves, a great emphasis is today placed on the development of alternative sources for energy production. In this context, abundant natural gas is seen as an energy source for the future. Methane, the main component of natural gas, is considered the most abundant organic compound on our planet. Unlike other fossil fuels, natural gas is clean burning and emits lower levels of potentially harmful byproducts into the air. Currently, methane (via steam reforming) is considered the most common and cost-effective method for hydrogen production and it contribut
Methane --- Atmospheric methane --- Air --- Atmospheric chemistry --- Methyl hydride --- Alkanes --- Manure gases --- Biogas --- Environmental aspects. --- Methane content
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This book provides some important aspects of acetic acid, especially those concerning its recent use and applications, including the fermentation process of ethanol with acetic acid bacteria, its use in meat preservation, medicinal effects of acetic acid, as well as health and safety considerations. Other aspects include the properties of auxins, an important category of acetic acids influencing a number of physiological and developmental processes in plants, the characterization of the synthesis, structural and vibrational properties of three quinoline acetic acid derivatives with potential b
Acetic acid. --- Saturated fatty acids. --- Fatty acids --- Saturated fatty acids
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Membrane reactors are increasingly replacing conventional separation, process and conversion technologies across a wide range of applications. Exploiting advanced membrane materials, they offer enhanced efficiency, are very adaptable and have great economic potential. There has therefore been increasing interest in membrane reactors from both the scientific and industrial communities, stimulating research and development. The two volumes of the Handbook of membrane reactors draw on this research to provide an authoritative review of this important field.Volume 1 explores fundamental ma
Membrane reactors --- Design and construction. --- Reactors, Membrane --- Bioreactors --- Membranes (Technology)
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Advanced Technologies in Wastewater Treatment: Oily Wastewaters focuses on characteristics and innovative treatment technologies of oily wastewater from various resources. Primary and physical treatment methods such as absorption, adsorption, followed by common techniques like coagulation and fluctuation are discussed in detail. Applications of other advanced methods for the treatment of oily wastewaters like utilization of membranes and stripping gases are covered as well. Finally, novel technologies applied in purification of oily wastewaters such as photocatalytic degradation and biological processes are reviewed and future outlooks and prospects are also illustrated.
Sewage --- Purification. --- Effluent treatment --- Purification of sewage --- Sewage treatment --- Water treatment --- Disinfection --- Purification --- Technological innovations.
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Membrane reactors are increasingly replacing conventional separation, process and conversion technologies across a wide range of applications. Exploiting advanced membrane materials, they offer enhanced efficiency, are very adaptable and have great economic potential. There has therefore been increasing interest in membrane reactors from both the scientific and industrial communities, stimulating research and development. The two volumes of the Handbook of membrane reactors draw on this research to provide an authoritative review of this important field. Volume 1 explores fundamental materials science, design and optimisation, beginning with a review of polymeric, dense metallic and composite membranes for membrane reactors in part one. Polymeric and nanocomposite membranes for membrane reactors, inorganic membrane reactors for hydrogen production, palladium-based composite membranes and alternatives to palladium-based membranes for hydrogen separation in membrane reactors are all discussed. Part two goes on to investigate zeolite, ceramic and carbon membranes and catalysts for membrane reactors in more depth. Finally, part three explores membrane reactor modelling, simulation and optimisation, including the use of mathematical modelling, computational fluid dynamics, artificial neural networks and non-equilibrium thermodynamics to analyse varied aspects of membrane reactor design and production enhancement. With its distinguished editor and international team of expert contributors, the two volumes of the Handbook of membrane reactors provide an authoritative guide for membrane reactor researchers and materials scientists, chemical and biochemical manufacturers, industrial separations and process engineers, and academics in this field. Considers polymeric, dense metallic and composite membranes for membrane reactorsDiscusses cereamic and carbon for membrane reactors in detailReactor modelling, simulation and optimisation is also discussed.
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Membrane reactors are increasingly replacing conventional separation, process and conversion technologies across a wide range of applications. Exploiting advanced membrane materials, they offer enhanced efficiency, are very adaptable and have great economic potential. There has therefore been increasing interest in membrane reactors from both the scientific and industrial communities, stimulating research and development. The two volumes of the Handbook of membrane reactors draw on this research to provide an authoritative review of this important field. Volume 2 reviews reactor types and industrial applications, beginning in part one with a discussion of selected types of membrane reactor and integration of the technology with industrial processes. Part two goes on to explore the use of membrane reactors in chemical and large-scale hydrogen production from fossil fuels. Electrochemical devices and transport applications of membrane reactors are the focus of part three, before part four considers the use of membrane reactors in environmental engineering, biotechnology and medicine. Finally, the book concludes with a discussion of the economic aspects of membrane reactors. With its distinguished editor and international team of expert contributors, the two volumes of the Handbook of membrane reactors provide an authoritative guide for membrane reactor researchers and materials scientists, chemical and biochemical manufacturers, industrial separations and process engineers, and academics in this field. Discusses integration of membrane technology with industrial processesExplores the use of membrane reactors in chemical and large-scale hydrogen production from fossil fuelsConsiders electrochemical devices and transport applications of membrane reactors.
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Hydrogen as fuel. --- Hydrocarbons. --- Force and energy. --- Hydrogen.
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Membranes (Biology) --- Biological membranes --- Biomembranes --- Biological interfaces --- Protoplasm
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