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New challenges in water systems toward safety, efficiency, reliability, and system flexibility will be fundamental in the near future. In this book, readers can find different approaches that include safety analysis, system efficiency improvements, and new innovative designs. The risk function is a measure of its vulnerability level and security loss. Analyses of transient flows associated with the most dangerous operating conditions, are compulsory to grant system liability in terms of water quantity, quality, and system management. Specific equipment, such as air valves, is used in pressurized water pipes to manage the air inside, associated with the emptying and filling process. Advanced tools are developed toward near-future smart water grids. The water system efficiency and water–energy nexus, through the implementation of suitable pressure control and energy recovery devices, as well as pumped-storage hydropower, provide guidelines toward the most technical and environmental cost-effective solutions. Integrated analysis of water and energy allows more reliable, flexible, and sustainable eco-design projects, reaching better resilience systems. Hydraulic simulators and computational fluid dynamics (CFD), conjugating with field or experimental tests, supported by advanced smart equipment, allow a better design, control, and complex event anticipation occurrence to attain high levels of water system security and efficiency.
History of engineering & technology --- trunk network --- water distribution network --- resilience --- optimization --- energy recovery --- pumps as turbines --- water distribution networks --- EPANET --- safe water --- air valve --- CFD --- hydraulic characterization --- entrapped air --- safety of water supply consumers --- risk --- water supply system --- failure risk analysis --- decision making model --- risk assessment methodology --- experiments --- ultrasonic Doppler velocimetry (UDV) --- flowmeters --- computational fluid dynamics (CFD) --- pipe system efficiency --- pressure reducing valves --- leakage reduction --- water-energy nexus --- air–water interface --- filling --- flow --- pipelines --- transient --- water management --- reservoirs --- hydropower plants --- pumped storage power plants --- hydropeaking --- environmental flows --- smart water management --- smart water grids --- water drinking network --- water losses --- energy production --- pumped-storage --- micro-hydropower --- water networks --- dimensional analysis --- pumping system --- safety and control --- hydraulic transients and CFD analyses --- water systems efficiency --- new design solutions and eco-design --- trunk network --- water distribution network --- resilience --- optimization --- energy recovery --- pumps as turbines --- water distribution networks --- EPANET --- safe water --- air valve --- CFD --- hydraulic characterization --- entrapped air --- safety of water supply consumers --- risk --- water supply system --- failure risk analysis --- decision making model --- risk assessment methodology --- experiments --- ultrasonic Doppler velocimetry (UDV) --- flowmeters --- computational fluid dynamics (CFD) --- pipe system efficiency --- pressure reducing valves --- leakage reduction --- water-energy nexus --- air–water interface --- filling --- flow --- pipelines --- transient --- water management --- reservoirs --- hydropower plants --- pumped storage power plants --- hydropeaking --- environmental flows --- smart water management --- smart water grids --- water drinking network --- water losses --- energy production --- pumped-storage --- micro-hydropower --- water networks --- dimensional analysis --- pumping system --- safety and control --- hydraulic transients and CFD analyses --- water systems efficiency --- new design solutions and eco-design
Choose an application
New challenges in water systems toward safety, efficiency, reliability, and system flexibility will be fundamental in the near future. In this book, readers can find different approaches that include safety analysis, system efficiency improvements, and new innovative designs. The risk function is a measure of its vulnerability level and security loss. Analyses of transient flows associated with the most dangerous operating conditions, are compulsory to grant system liability in terms of water quantity, quality, and system management. Specific equipment, such as air valves, is used in pressurized water pipes to manage the air inside, associated with the emptying and filling process. Advanced tools are developed toward near-future smart water grids. The water system efficiency and water–energy nexus, through the implementation of suitable pressure control and energy recovery devices, as well as pumped-storage hydropower, provide guidelines toward the most technical and environmental cost-effective solutions. Integrated analysis of water and energy allows more reliable, flexible, and sustainable eco-design projects, reaching better resilience systems. Hydraulic simulators and computational fluid dynamics (CFD), conjugating with field or experimental tests, supported by advanced smart equipment, allow a better design, control, and complex event anticipation occurrence to attain high levels of water system security and efficiency.
History of engineering & technology --- trunk network --- water distribution network --- resilience --- optimization --- energy recovery --- pumps as turbines --- water distribution networks --- EPANET --- safe water --- air valve --- CFD --- hydraulic characterization --- entrapped air --- safety of water supply consumers --- risk --- water supply system --- failure risk analysis --- decision making model --- risk assessment methodology --- experiments --- ultrasonic Doppler velocimetry (UDV) --- flowmeters --- computational fluid dynamics (CFD) --- pipe system efficiency --- pressure reducing valves --- leakage reduction --- water-energy nexus --- air–water interface --- filling --- flow --- pipelines --- transient --- water management --- reservoirs --- hydropower plants --- pumped storage power plants --- hydropeaking --- environmental flows --- smart water management --- smart water grids --- water drinking network --- water losses --- energy production --- pumped-storage --- micro-hydropower --- water networks --- dimensional analysis --- pumping system --- safety and control --- hydraulic transients and CFD analyses --- water systems efficiency --- new design solutions and eco-design
Choose an application
New challenges in water systems toward safety, efficiency, reliability, and system flexibility will be fundamental in the near future. In this book, readers can find different approaches that include safety analysis, system efficiency improvements, and new innovative designs. The risk function is a measure of its vulnerability level and security loss. Analyses of transient flows associated with the most dangerous operating conditions, are compulsory to grant system liability in terms of water quantity, quality, and system management. Specific equipment, such as air valves, is used in pressurized water pipes to manage the air inside, associated with the emptying and filling process. Advanced tools are developed toward near-future smart water grids. The water system efficiency and water–energy nexus, through the implementation of suitable pressure control and energy recovery devices, as well as pumped-storage hydropower, provide guidelines toward the most technical and environmental cost-effective solutions. Integrated analysis of water and energy allows more reliable, flexible, and sustainable eco-design projects, reaching better resilience systems. Hydraulic simulators and computational fluid dynamics (CFD), conjugating with field or experimental tests, supported by advanced smart equipment, allow a better design, control, and complex event anticipation occurrence to attain high levels of water system security and efficiency.
trunk network --- water distribution network --- resilience --- optimization --- energy recovery --- pumps as turbines --- water distribution networks --- EPANET --- safe water --- air valve --- CFD --- hydraulic characterization --- entrapped air --- safety of water supply consumers --- risk --- water supply system --- failure risk analysis --- decision making model --- risk assessment methodology --- experiments --- ultrasonic Doppler velocimetry (UDV) --- flowmeters --- computational fluid dynamics (CFD) --- pipe system efficiency --- pressure reducing valves --- leakage reduction --- water-energy nexus --- air–water interface --- filling --- flow --- pipelines --- transient --- water management --- reservoirs --- hydropower plants --- pumped storage power plants --- hydropeaking --- environmental flows --- smart water management --- smart water grids --- water drinking network --- water losses --- energy production --- pumped-storage --- micro-hydropower --- water networks --- dimensional analysis --- pumping system --- safety and control --- hydraulic transients and CFD analyses --- water systems efficiency --- new design solutions and eco-design
Choose an application
This book is a compilation of original research articles that apply a variety of techniques to identify and evaluate water resource management policies. These papers cover a wide range of topics and methodologies applied across the world, from a local to a continental scope. They illustrate open challenges in water resource management, such as the quantitative assessment of policy impacts, trade-off analyses, understanding the water–energy–food–environment nexus, collaborative model development, stakeholder engagement, formalizing social interactions, or improving the theoretical understanding of complex adaptive systems. Therefore, this book is a representation of research areas that have emerged from the origins of water resource systems analysis, seeking to improve the way in which water policy is formulated and implemented.
Technology: general issues --- History of engineering & technology --- climate change --- water resources --- water availability --- uncertainty --- WAAPA model --- Western Europe --- water quality --- background pollutants --- export coefficient model --- chemical oxygen demand --- ammonia nitrogen --- water resource accessibility --- spatial pattern --- coupling coordination degree --- water resource management --- Southwest China --- pump efficiency --- water distribution systems --- water supply systems --- optimization --- design policies --- design --- BMPs --- Revised GWLF --- NSGAII --- hydrological dam safety --- initial reservoir level --- maximum conservation level --- water conservation volume --- flood control volume --- yield reliability --- regular operation --- stochastic methodology --- water management --- resources --- system dynamics --- drought management --- drought impacts --- urban public services --- inter-administrative cooperation --- border studies --- internal borders --- river municipalities --- freshwater health --- river chief system --- ecological integrity --- social services --- water governance --- national standard --- risk assessment --- water-saving --- set pair analysis --- China --- fluvial ecosystems --- hydropeaking --- InSTHAn tool --- short-term flow regimes --- subdaily flows --- sustainable river management --- droughts --- hydrological risk --- agri-food sector --- event study --- financial markets --- BOVESPA --- stormwater --- industrial facilities --- run off --- self-reported data --- multifunctional water source area --- ecotourism, people with different stakeholders --- balanced decision-making --- sponge city --- fuzzy comprehensive evaluation method --- water resource carrying capacity --- gray correlation analysis --- multiple linear regression models --- water environment capacity --- reservoir performance --- water resources systems --- participatory modeling --- river basin planning --- watershed management --- water scarcity --- water conflicts --- Robust Decision Support --- WEAP --- Integrated Water Resources Management --- Bolivia --- climate change --- water resources --- water availability --- uncertainty --- WAAPA model --- Western Europe --- water quality --- background pollutants --- export coefficient model --- chemical oxygen demand --- ammonia nitrogen --- water resource accessibility --- spatial pattern --- coupling coordination degree --- water resource management --- Southwest China --- pump efficiency --- water distribution systems --- water supply systems --- optimization --- design policies --- design --- BMPs --- Revised GWLF --- NSGAII --- hydrological dam safety --- initial reservoir level --- maximum conservation level --- water conservation volume --- flood control volume --- yield reliability --- regular operation --- stochastic methodology --- water management --- resources --- system dynamics --- drought management --- drought impacts --- urban public services --- inter-administrative cooperation --- border studies --- internal borders --- river municipalities --- freshwater health --- river chief system --- ecological integrity --- social services --- water governance --- national standard --- risk assessment --- water-saving --- set pair analysis --- China --- fluvial ecosystems --- hydropeaking --- InSTHAn tool --- short-term flow regimes --- subdaily flows --- sustainable river management --- droughts --- hydrological risk --- agri-food sector --- event study --- financial markets --- BOVESPA --- stormwater --- industrial facilities --- run off --- self-reported data --- multifunctional water source area --- ecotourism, people with different stakeholders --- balanced decision-making --- sponge city --- fuzzy comprehensive evaluation method --- water resource carrying capacity --- gray correlation analysis --- multiple linear regression models --- water environment capacity --- reservoir performance --- water resources systems --- participatory modeling --- river basin planning --- watershed management --- water scarcity --- water conflicts --- Robust Decision Support --- WEAP --- Integrated Water Resources Management --- Bolivia
Choose an application
This book is a compilation of original research articles that apply a variety of techniques to identify and evaluate water resource management policies. These papers cover a wide range of topics and methodologies applied across the world, from a local to a continental scope. They illustrate open challenges in water resource management, such as the quantitative assessment of policy impacts, trade-off analyses, understanding the water–energy–food–environment nexus, collaborative model development, stakeholder engagement, formalizing social interactions, or improving the theoretical understanding of complex adaptive systems. Therefore, this book is a representation of research areas that have emerged from the origins of water resource systems analysis, seeking to improve the way in which water policy is formulated and implemented.
climate change --- water resources --- water availability --- uncertainty --- WAAPA model --- Western Europe --- water quality --- background pollutants --- export coefficient model --- chemical oxygen demand --- ammonia nitrogen --- water resource accessibility --- spatial pattern --- coupling coordination degree --- water resource management --- Southwest China --- pump efficiency --- water distribution systems --- water supply systems --- optimization --- design policies --- design --- BMPs --- Revised GWLF --- NSGAII --- hydrological dam safety --- initial reservoir level --- maximum conservation level --- water conservation volume --- flood control volume --- yield reliability --- regular operation --- stochastic methodology --- water management --- resources --- system dynamics --- drought management --- drought impacts --- urban public services --- inter-administrative cooperation --- border studies --- internal borders --- river municipalities --- freshwater health --- river chief system --- ecological integrity --- social services --- water governance --- national standard --- risk assessment --- water-saving --- set pair analysis --- China --- fluvial ecosystems --- hydropeaking --- InSTHAn tool --- short-term flow regimes --- subdaily flows --- sustainable river management --- droughts --- hydrological risk --- agri-food sector --- event study --- financial markets --- BOVESPA --- stormwater --- industrial facilities --- run off --- self-reported data --- multifunctional water source area --- ecotourism, people with different stakeholders --- balanced decision-making --- sponge city --- fuzzy comprehensive evaluation method --- water resource carrying capacity --- gray correlation analysis --- multiple linear regression models --- water environment capacity --- reservoir performance --- water resources systems --- participatory modeling --- river basin planning --- watershed management --- water scarcity --- water conflicts --- Robust Decision Support --- WEAP --- Integrated Water Resources Management --- Bolivia --- n/a
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