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This book presents readers with an integrated modeling approach for analyzing and understanding the interconnection of water, energy, and food resources and discusses the relationship between resilience and sustainability of the food- energy –water (FEW) system. Authors provide novel frameworks, models, and algorithms designed to balance the theoretical and applicative aspects of each chapter. The book covers an integrated modeling approach for FEW systems along with developed methods, codes, and planning tools for designing interdependent energy, water and food systems. In-depth chapters discuss the impact of renewable energy resources in FEW systems, sustainable design and operation, net zero energy buildings, and challenges and opportunities of the FEW nexus in the sustainable development of different countries. This book is useful for graduate students, researchers, and engineers seeking to understand how sustainable FEW systems contribute to the resilience of these systems and help policy and design makers allocate and prioritize resources in an integrated manner across the food, energy, and water sectors. An integrated modeling approach for analyzing and understanding the interconnection of water, energy, and food resources. Contains novel frameworks, models, and algorithms. Includes case studies to enhance practical applications.

Renewable energy resources. --- Environmental management. --- Agriculture. --- Sustainable development. --- Sustainable architecture. --- Energy security. --- Renewable and Green Energy. --- Water Policy/Water Governance/Water Management. --- Sustainable Development. --- Sustainable Architecture/Green Buildings. --- Energy Security. --- Energy dependence --- Energy independence --- Energy insecurity --- Security, Energy --- Energy policy --- Eco-architecture --- Environmentally conscious architecture --- Environmentally friendly architecture --- Green architecture --- Green building design --- Green design (Buildings) --- Sustainable design (Buildings) --- Architecture --- Sustainable design --- Development, Sustainable --- Ecologically sustainable development --- Economic development, Sustainable --- Economic sustainability --- ESD (Ecologically sustainable development) --- Smart growth --- Sustainable development --- Sustainable economic development --- Economic development --- Farming --- Husbandry --- Industrial arts --- Life sciences --- Food supply --- Land use, Rural --- Environmental stewardship --- Stewardship, Environmental --- Environmental sciences --- Management --- Environmental aspects

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Architecture and energy conservation. --- Buildings --- Renewable energy. --- Energy conservation. --- Energy conservation and architecture --- Energy efficient buildings --- Energy conservation --- Zero energy buildings --- Renewable energy sources. --- Alternate energy sources --- Alternative energy sources --- Energy sources, Renewable --- Sustainable energy sources --- Power resources --- Renewable natural resources --- Agriculture and energy

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Energy Systems Transition: Digitalization, Decarbonization, Decentralization, and Democratization provides a thorough multidisciplinary overview of the operation of modern green energy systems and examines the role of 4D energy transition in global decarbonization mitigation efforts for meeting long-term climate goals. Contributions present practical aspects and approaches with evidence from applications to real-world energy systems, offering in-depth technical discussions, case studies, and examples to help readers understand the methods, current challenges, and future directions. A hands-on reference to energy distribution systems, it is suitable for researchers and industry practitioners from different branches of engineering, energy, data science, economics, and operation research. Presents practical aspects and approaches to real-world energy systems Looks at state-of-the-art technology developments Offers case studies emphasizing worldwide application.

Renewable energy sources. --- Energy policy. --- Electric power distribution. --- Electric power production. --- Renewable Energy. --- Energy System Transformation. --- Energy Grids and Networks. --- Electrical Power Engineering. --- Electric power generation --- Electricity generation --- Power production, Electric --- Electric power systems --- Electrification --- Electricity --- Power distribution, Electric --- Power transmission --- Electric power transmission --- Energy and state --- Power resources --- State and energy --- Industrial policy --- Energy conservation --- Alternate energy sources --- Alternative energy sources --- Energy sources, Renewable --- Sustainable energy sources --- Renewable natural resources --- Agriculture and energy --- Distribution --- Government policy --- Energy transition. --- Global energy transition --- Transition, Energy --- Transition, Global energy --- Energy development

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This book discusses the design and scheduling of residential, industrial, and commercial energy hubs, and their integration into energy storage technologies and renewable energy sources. Each chapter provides theoretical background and application examples for specific power systems including, solar, wind, geothermal, air and hydro. Case-studies are included to provide engineers, researchers, and students with the most modern technical and intelligent approaches to solving power and energy integration problems with special attention given to the environmental and economic aspects of energy storage systems. Provides optimization techniques and their applications for energy systems; Discusses the operation and planning of energy storage systems; Presents the most-up-to-date technological approaches to energy integration.

Relation between energy and economics --- Electrical engineering --- Applied physical engineering --- energie-economie --- elektrische netwerken --- hernieuwbare energie --- energie (technologie) --- energietechniek --- elektriciteitsdistributie

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Demand-Side Peer-to-Peer Energy Trading provides a comprehensive study of the latest developments in technology, protocols, implementation, and application of peer-to-peer and transactive energy concepts in energy systems and their role in worldwide energy evolution and decarbonization efforts. It presents practical aspects and approaches with evidence from applications to real-world energy systems through in-depth technical discussions, use cases, and examples. This multidisciplinary reference is suitable for researchers and industry stakeholders who focus on the field of energy systems and energy economics, as well as researchers and developers from different branches of engineering, energy, computer sciences, data, economic, and operation research fields. Offers a multidisciplinary look at peer-to-peer and transactive energy concepts; Presents state-of-the-art technical developments; Includes use cases with an emphasis on worldwide application.

Relation between energy and economics --- energiebeheer (technologie) --- energiemanagement (economie) --- energiebeleid --- energie-economie --- hernieuwbare energie