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Book
Energy-Water Nexus
Authors: --- ---
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Water is necessary to produce energy, and energy is required to pump, treat, and transport water. The energy–water nexus examines the interactions between these two inextricably linked elements. This Special Issue aims to explore a single "system of systems" for the integration of energy systems. This approach considers the relationships between electricity, thermal, and fuel systems; and data and information networks in order to ensure optimal integration and interoperability across the entire spectrum of the energy system. This framework for the integration of energy systems can be adapted to evaluate the interactions between energy and water. This Special Issue focuses on the analysis of water interactions with and dependencies on the dynamics of the electricity sector and the transport sector


Book
Energy-Water Nexus
Authors: --- ---
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Bookmark

Abstract

Water is necessary to produce energy, and energy is required to pump, treat, and transport water. The energy–water nexus examines the interactions between these two inextricably linked elements. This Special Issue aims to explore a single "system of systems" for the integration of energy systems. This approach considers the relationships between electricity, thermal, and fuel systems; and data and information networks in order to ensure optimal integration and interoperability across the entire spectrum of the energy system. This framework for the integration of energy systems can be adapted to evaluate the interactions between energy and water. This Special Issue focuses on the analysis of water interactions with and dependencies on the dynamics of the electricity sector and the transport sector


Book
Energy-Water Nexus
Authors: --- ---
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Water is necessary to produce energy, and energy is required to pump, treat, and transport water. The energy–water nexus examines the interactions between these two inextricably linked elements. This Special Issue aims to explore a single "system of systems" for the integration of energy systems. This approach considers the relationships between electricity, thermal, and fuel systems; and data and information networks in order to ensure optimal integration and interoperability across the entire spectrum of the energy system. This framework for the integration of energy systems can be adapted to evaluate the interactions between energy and water. This Special Issue focuses on the analysis of water interactions with and dependencies on the dynamics of the electricity sector and the transport sector

Keywords

History of engineering & technology --- waste heat recovery --- absorption cooling --- water–energy nexus --- steelworks --- TRNSYS --- non-equilibrium molecular dynamics --- deformed carbon nanotubes --- deformed boron nitride nanotubes --- water transport --- diffusion --- Z-distortion --- XY-distortion --- screw distortion --- oil/water separation --- superhydrophilic/underwater-superoleophobic membranes --- opposite properties --- superhydrophobicity/superoleophilicity --- selective wettability --- micro/nanoscale composite structure --- virtual water network --- inter-provincial electricity transmission --- structural decomposition analysis --- electricity-water nexus --- cooling tower --- response surface model --- water --- power plant --- decarbonization --- energy concepts --- long-term energy storage --- power-to-gas --- power-to-X --- wastewater treatment --- anaerobic digestion --- water-energy nexus --- demand response --- energy consumption optimization --- multi-objective model --- urban water system --- local water supply --- electricity demand --- index decomposition analysis --- waste heat recovery --- absorption cooling --- water–energy nexus --- steelworks --- TRNSYS --- non-equilibrium molecular dynamics --- deformed carbon nanotubes --- deformed boron nitride nanotubes --- water transport --- diffusion --- Z-distortion --- XY-distortion --- screw distortion --- oil/water separation --- superhydrophilic/underwater-superoleophobic membranes --- opposite properties --- superhydrophobicity/superoleophilicity --- selective wettability --- micro/nanoscale composite structure --- virtual water network --- inter-provincial electricity transmission --- structural decomposition analysis --- electricity-water nexus --- cooling tower --- response surface model --- water --- power plant --- decarbonization --- energy concepts --- long-term energy storage --- power-to-gas --- power-to-X --- wastewater treatment --- anaerobic digestion --- water-energy nexus --- demand response --- energy consumption optimization --- multi-objective model --- urban water system --- local water supply --- electricity demand --- index decomposition analysis


Book
Forecasting CO2 Sequestration with Enhanced Oil Recovery
Authors: --- --- --- ---
ISBN: 3036559167 3036559159 Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

The aim of carbon capture, utilization, and storage (CCUS) is to reduce the amount of CO2 released into the atmosphere and to mitigate its effects on climate change. Over the years, naturally occurring CO2 sources have been utilized in enhanced oil recovery (EOR) projects in the United States. This has presented an opportunity to supplement and gradually replace the high demand for natural CO2 sources with anthropogenic sources. There also exist incentives for operators to become involved in the storage of anthropogenic CO2 within partially depleted reservoirs, in addition to the incremental production oil revenues. These incentives include a wider availability of anthropogenic sources, the reduction of emissions to meet regulatory requirements, tax incentives in some jurisdictions, and favorable public relations. The United States Department of Energy has sponsored several Regional Carbon Sequestration Partnerships (RCSPs) through its Carbon Storage program which have conducted field demonstrations for both EOR and saline aquifer storage. Various research efforts have been made in the area of reservoir characterization, monitoring, verification and accounting, simulation, and risk assessment to ascertain long-term storage potential within the subject storage complex. This book is a collection of lessons learned through the RCSP program within the Southwest Region of the United States. The scope of the book includes site characterization, storage modeling, monitoring verification reporting (MRV), risk assessment and international case studies.

Keywords

Research & information: general --- Physics --- geologic CO2 sequestration --- CO2 and brine leakage --- underground source of drinking water --- risk assessment --- response surface methodology --- early detection criteria --- multi-objective optimization --- CO2-WAG --- machine learning --- numerical modeling --- hybrid workflows --- morrow --- Farnsworth --- Anadarko --- incised valley --- geological carbon sequestration --- reactive surface area --- mineral trapping --- enhanced oil recovery with CO2 (CO2-EOR) --- geochemical reactions --- workflow --- workshop --- process influence diagram --- response surface model --- polynomial chaos expansion --- NRAP --- relative permeability --- geologic carbon storage --- multi-phase flow simulation --- life cycle analysis --- CO2-enhanced oil recovery --- anthropogenic CO2 --- global warming potential --- greenhouse gas (GHG) --- carbon storage --- CO2-EOR --- CO2 sequestration --- geomechanics --- reservoir fluid flow modelling --- tightness of caprock --- CO2 leakage --- threshold pressure --- reactive solute transport --- multi-phase fluid flow --- Farnsworth Unit --- STOMP --- GEM --- TOUGHREACT --- 4D --- time lapse --- CO2 --- EOR --- WAG --- sequestration --- monitoring --- carbon sequestration --- caprock integrity --- noble gas migration --- seal by-pass --- carbon dioxide storage --- storage efficiency factor --- probabilistic --- expectation curve --- Monte Carlo --- Farnsworth Field --- petroleum system modeling --- CO2 migration --- n/a

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