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The use of water, one of the most valuable and vital resources in the world, should respond to growing needs, and used water should not have negative effects on the environment. Research on the reduction of used water and wastewater quantities, post-use treatment, or reuse/recovery methods is increasing day by day. These studies focus on finding the most appropriate method from both technical and economic perspectives. In this book, emerging technologies and materials used in the treatment, reuse, or recovery of various kinds of water and wastewaters are examined. The book consists of valuable scientific research specifically including desalination and use of renewable energy, nanomaterials, biosorbents, photocatalytic treatment, as well as riverbank filtration and wetlands. The editor would like to record his sincere thanks to the authors for their contributions.
Water. --- Wastewater treatment and reuse. --- Hydrology --- Water reuse. --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water-supply --- Water use --- Reuse --- Purification --- Physical Sciences --- Engineering and Technology --- Technology --- Wastewater Engineering --- Environmental Engineering
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A U.S. Department of Energy National Energy Technology Laboratory (DOE/NETL) study estimated that in 2005, total U.S. freshwater withdrawals for thermoelectric power generation amounted to approximately 146 billion gallons per day (BGD), while freshwater consumption was 3.7 BGD. Coal-fired power plants use water for cooling water systems, flue gas desulfurization (FGD) makeup, boiler makeup, ash handling, wastewater treatment, and general plant wash down. As the population continues to increase, electric and water demands are expected to grow. Thermoelectric power generation requires a large q
Electric power-plants --- Water reuse. --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water-supply --- Water use --- Electric power systems --- Power-plants --- Water-supply. --- Reuse --- Purification
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Water reuse. --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water-supply --- Water use --- Reuse --- Purification
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This book provides a sound basis for analysing water supply schemes from the point of view of water quality. A systematic approach to decision making in water resources planning is presented with particular reference to wastewater re-use. Methods for deciding between recycling, purification or use of river water are given. The problems of poor quality water are documented and alternatives suggested, including management in a way to achieve objectives in the most economic manner.Various methods of system simulation and optimization are applied in a number of case studies.
Water quality management. --- Water reuse. --- Water resources development. --- Energy development --- Natural resources --- Water-supply --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water use --- Water quality --- Water quality control --- Management --- Sewage disposal --- Reuse --- Purification
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water --- water reuse --- desalination --- water use --- water treatment --- Water reuse --- Water --- Purification --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water-supply --- Water use --- Reuse --- Water reuse. --- Purification. --- Effluent treatment --- Purification of water --- Water treatment --- Sanitation
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Sewage --- Water reuse. --- Purification. --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Water conservation --- Water quality management --- Water-supply --- Water use --- Effluent treatment --- Purification of sewage --- Sewage treatment --- Water treatment --- Reuse --- Purification --- Disinfection
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Water Management and Circular Economy covers the role of water in the mainstream dimensions of society, economy, environment/ecology, and technology among both developed and fast emerging economies. Along with the under conceptualization of Circular Economy (CE) the book will cover the role of recycling and reusing the, otherwise (in linear economy terms), lost sources of waste, gray, or untapped water sources towards a second round of utility. Water Management and Circular Economy bridges the gap between the water inflows in Nature, with the whole wide spectrum of its potential applications in humanity. It covers the water inflows, the direct and indirect entities that are conceptualized as “outflows” including water (in a tapped and controlled manner), energy, products and services to urban, suburban, rural and insular contexts of analysis. As such, this content will be important reading for Water Scientists, Water Managers, and civil engineers.
Circular economy. --- Water reuse --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water-supply --- Water use --- Circular business model --- Circularity (Economic theory) --- Economics --- Economic aspects. --- Reuse --- Purification
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SCIENCE --- Earth Sciences / Hydrology --- Water reuse --- Drinking water --- Environmental Engineering --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Water reuse. --- Drinking water. --- Potable water --- Tap water --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Reuse --- Beverages --- Fresh water --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water-supply --- Water use --- Purification
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This book will be a portion of a series of books on sustainability. Specifically, it deals with the issue of sustainable water use. Fresh sources of potable water are being depleted across the world. Pure water is the goal of water utilities as well as several industries. Well past the experimental stage, membrane processes are now a proven and reliable method of providing high-quality, cost-effective water. Membrane technologies have immediate applications to treatment of fresh, brackish and sea waters, as well as wastewater reclamation. With innovative module design and engineering, micro-
Water reuse. --- Saline water conversion. --- Conversion of saline waters --- Demineralization of saline waters --- Desalination of water --- Desalinization of water --- Desalting of water --- Saline waters --- Fresh water --- Water --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water conservation --- Water quality management --- Water-supply --- Water use --- Demineralization --- Purification --- Reuse --- Environmental Sciences --- Sustainable Development
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The definitive Australian reference on the principles of using reclaimed wastewater for agricultural purposes.
Water reuse --- Water quality management --- Irrigation farming --- Irrigated agriculture --- Irrigated farming --- Irrigation agriculture --- Agriculture --- Arid regions agriculture --- Irrigation --- Crops and water --- Water quality --- Water quality control --- Management --- Sewage disposal --- Water conservation --- Water-supply --- Reclamation of water --- Reuse of water --- Waste water reclamation --- Wastewater reclamation --- Water --- Water reclamation --- Water renovation --- Water salvage --- Factory and trade waste --- Recycling (Waste, etc.) --- Salvage (Waste, etc.) --- Sewage --- Water use --- Reuse --- Purification
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