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This book analyses the sustainability of membrane operations applied on an industrial scale, as well as that of those under investigation on lab/pilot scales, covering also the preparation of both polymeric and inorganic membranes. It presents reverse osmosis in desalination, membrane bioreactors for municipal wastewater treatment and pressure-driven industrial wastewater treatment in agrofood and textile fields as examples of industrial membrane operations. Regarding the membrane processes still on a lab/pilot scale, the analysis includes membrane operations for the recovery of valuable products from wastewater streams, for the removal of toxic compounds from water/wastewater, and for zero liquid discharge approaches in desalination. The book offers a useful guide for scientists and engineers working in various fields, including membrane technology, separation, desalination, and wastewater treatment. Alberto Figoli and Alessandra Criscuoli are both Senior Researchers at the Institute on Membrane Technology (ITM-CNR), Italy.
Chemistry. --- Water-supply. --- Chemical engineering. --- Water pollution. --- Industrial Chemistry/Chemical Engineering. --- Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution. --- Biological and Medical Physics, Biophysics. --- Water Industry/Water Technologies. --- Water --- Purification --- Membrane filtration. --- Arsenic removal. --- Arsenic removal (Water purification) --- Membrane separation --- Membrane filtration --- Filtration --- Environmental pollution. --- Chemical pollution --- Chemicals --- Contamination of environment --- Environmental pollution --- Pollution --- Contamination (Technology) --- Asbestos abatement --- Bioremediation --- Environmental engineering --- Environmental quality --- Factory and trade waste --- Hazardous waste site remediation --- Hazardous wastes --- In situ remediation --- Lead abatement --- Pollutants --- Refuse and refuse disposal --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering --- Chemistry, Technical --- Metallurgy --- Environmental aspects --- Biophysics. --- Biological physics. --- Availability, Water --- Water availability --- Water resources --- Natural resources --- Public utilities --- Water resources development --- Water utilities --- Biological physics --- Biology --- Medical sciences --- Physics --- Aquatic pollution --- Fresh water --- Fresh water pollution --- Freshwater pollution --- Inland water pollution --- Lake pollution --- Lakes --- Reservoirs --- River pollution --- Rivers --- Stream pollution --- Water contamination --- Water pollutants --- Water pollution --- Waste disposal in rivers, lakes, etc.
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This book analyses the sustainability of membrane operations applied on an industrial scale, as well as that of those under investigation on lab/pilot scales, covering also the preparation of both polymeric and inorganic membranes. It presents reverse osmosis in desalination, membrane bioreactors for municipal wastewater treatment and pressure-driven industrial wastewater treatment in agrofood and textile fields as examples of industrial membrane operations. Regarding the membrane processes still on a lab/pilot scale, the analysis includes membrane operations for the recovery of valuable products from wastewater streams, for the removal of toxic compounds from water/wastewater, and for zero liquid discharge approaches in desalination. The book offers a useful guide for scientists and engineers working in various fields, including membrane technology, separation, desalination, and wastewater treatment. Alberto Figoli and Alessandra Criscuoli are both Senior Researchers at the Institute on Membrane Technology (ITM-CNR), Italy.
Nature protection --- General biophysics --- Water supply. Water treatment. Water pollution --- Environmental protection. Environmental technology --- Engineering sciences. Technology --- Chemical technology --- bioreactoren --- biofysica --- BIT (biochemische ingenieurstechnieken) --- waterbehandeling --- duurzaamheid --- waterverontreiniging --- afvalwater --- milieuverontreiniging --- ingenieurswetenschappen --- chemische technologie --- polymeren
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Membranes (Technology) --- Bioreactors. --- Biochemical reactors --- Reactors, Biochemical --- Biochemical engineering --- Chemical reactors --- Artificial membranes --- Separation (Technology) --- Technology --- Equipment and supplies
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Membranes (Technology) --- Artificial membranes --- Separation (Technology) --- Technology
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Current Trends and Future Developments in (Bio-) Membranes: Membranes in Environmental Applications offers an overview of environmental pollution, covering the air, water, waste from agriculture and climate change, and including emerging offenders such as microplastics and electronic waste which can be solved by conventional and advanced membrane techniques. Chapters cover environmental pollution issues followed by specific membrane processes, problems related to environmental pollution, and the different techniques used for solving these problems. For each pollutant, such as CO2 and fuel, water and wastewater, waste from agriculture, etc., specific membrane processes are described. Users will find a comprehensive overview on the environmental problems that influence climate change and aquatic/water preservation, CO2 emission and air pollution, metals, toxic pollutants in water, wastewater problems and treatments, and more.
Membranes (Technology) --- Ceramic materials. --- Ceramic industries --- Ceramics --- Mines and mineral resources --- Artificial membranes --- Separation (Technology) --- Technology --- Materials --- Environmental management --- Pollution prevention
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Vapour permeation and membrane distillation are two emerging membrane technologies for the production of vapour as permeate, which, in addition to well-established pervaporation technology, are of increasing interest to academia and industry. As efficient separation and concentration processes, they have high potential for use in the energy, water, chemical, food and pharmaceutical sectors. Part One begins by covering the fundamentals, preparation and characterization of pervaporation, before going on to outline the associated systems and applications. State of the art uses, future trends
Pervaporation. --- Membrane distillation. --- Membrane evaporation --- Thermopervaporation --- Transmembrane evaporation --- Distillation --- Evaporation --- Membrane separation
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Vapour permeation and membrane distillation are two emerging membrane technologies for the production of vapour as permeate, which, in addition to well-established pervaporation technology, are of increasing interest to academia and industry. As efficient separation and concentration processes, they have high potential for use in the energy, water, chemical, food and pharmaceutical sectors. Part One begins by covering the fundamentals, preparation and characterization of pervaporation, before going on to outline the associated systems and applications. State of the art uses, future trends.
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Current Trends and Future Developments in (Bio- ) Membranes: Renewable Energy Integrated with Membrane Operations offers an overview of advanced technologies in the field of water desalination, wastewater treatment and hydrogen production that is coupled with renewable energy sources. Membrane processes are well-recognized technologies in the field of water and wastewater treatment. This book reviews their potential and lists new technologies which allow for the use of solar, hydroelectric, wind, hydrothermal and other forms of renewable energy with the same effect. In addition, it highlights what has already been achieved in the integration of membrane reactors and energy produced by biomass.
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