Integrated Energy Systems for Multigeneration
Integrated Energy Systems for Multigeneration

Author: Ibrahim Dincer

Publisher: Elsevier

Published: 2019-09-13

Total Pages: 464

ISBN-13: 0128131756

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Integrated Energy Systems for Multigeneration looks at how measures implemented to limit greenhouse gas emissions must consider smart utilization of available limited resources and employ renewable resources through integrated energy systems and the utilization of waste energy streams. This reference considers the main concepts of thermal and conventional energy systems through detailed systems description, analyses of methodologies, performance assessment and optimization, and illustrative examples and case studies. The book examines producing power and heat with cooling, freshwater, green fuels and other useful commodities designed to tackle rising greenhouse gas emissions in the atmosphere. With worldwide energy demand increasing, and the consequences of meeting supply with current dependency on fossil fuels, investigating and developing sustainable alternatives to the conventional energy systems is a growing concern for global stakeholders. Analyzes the links between clean energy technologies and achieving sustainable development Illustrates several examples of design and analysis of integrated energy systems Discusses performance assessment and optimization Uses illustrative examples and global case studies to explain methodologies and concepts

Distributed Energy Resources in Local Integrated Energy Systems
Distributed Energy Resources in Local Integrated Energy Systems

Author: Giorgio Graditi

Publisher: Elsevier

Published: 2021-02-27

Total Pages: 452

ISBN-13: 0128242140

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Distributed Energy Resources in Local Integrated Energy Systems: Optimal Operation and Planning reviews research and policy developments surrounding the optimal operation and planning of DER in the context of local integrated energy systems in the presence of multiple energy carriers, vectors and multi-objective requirements. This assessment is carried out by analyzing impacts and benefits at local levels, and in distribution networks and larger systems. These frameworks represent valid tools to provide support in the decision-making process for DER operation and planning. Uncertainties of RES generation and loads in optimal DER scheduling are addressed, along with energy trading and blockchain technologies. Interactions among various energy carriers in local energy systems are investigated in scalable and flexible optimization models for adaptation to a number of real contexts thanks to the wide variety of generation, conversion and storage technologies considered, the exploitation of demand side flexibility, emerging technologies, and through the general mathematical formulations established. Integrates multi-energy DER, including electrical and thermal distributed generation, demand response, electric vehicles, storage and RES in the context of local integrated energy systems Fosters the integration of DER in the electricity markets through the concepts of DER aggregation Addresses the challenges of emerging paradigms as energy communities and energy blockchain applications in the current and future energy landscape Proposes operation optimization models and methods through multi-objective approaches for fostering short- and long-run sustainability of local energy systems Assesses and models the uncertainties of renewable resources and intermittent loads in the short-term decision-making process for smart decentralized energy systems

Large-Scale Integrated Energy Systems
Large-Scale Integrated Energy Systems

Author: Qing-Hua Wu

Publisher: Springer

Published: 2019-06-29

Total Pages: 193

ISBN-13: 9811369437

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This book discusses key issues in the planning and operation of large-scale integrated energy systems (LSIES). It establishes individual-based models for LSIES and develops multi-objective optimization algorithms and multi-attribute decision making support systems, which are applied to the planning and optimal operation of LSIES. It is a valuable reference work for researchers, students and engineers who are interested in energy systems, operation research and decision theory.

Energy Systems Integration for Multi-Energy Systems
Energy Systems Integration for Multi-Energy Systems

Author: Carlos Ocampo-Martinez

Publisher: Springer

Published: 2024-10-27

Total Pages: 0

ISBN-13: 9783031690143

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This book offers a comprehensive approach to energy systems integration (ESI) that optimizes the design and operation of energy systems, maximizing the benefits of all components while minimizing potential negative impacts. By coordinating the production, distribution, and utilization of energy from diverse sources, ESI ensures the most efficient and cost-effective fulfillment of end-users' needs. The true value of ESI lies in its ability to harmonize interconnected systems, enabling the production and supply of energy in its various forms to achieve reliability, environmental sustainability, and economic viability at appropriate scales. Through the analysis and design of integrated energy systems, often referred to as multi-energy systems (MES), decision-makers and industry professionals gain valuable insights into the optimal strategies required to fulfill these objectives while considering contextual conditions and operational constraints. The book explores the design, modeling, supervising, and controlling of energy systems but also examines how these approaches can be seamlessly integrated into future MES through innovative and ESI processes. Through its comprehensive analysis and forward-thinking approach, this book serves as a vital resource for researchers, practitioners, and policymakers seeking to navigate the complexities of energy systems integration and leverage the potential of renewable energy for a sustainable future.

Multi-Energy Systems
Multi-Energy Systems

Author: Zbigniew Leonowicz

Publisher: Mdpi AG

Published: 2023-11-23

Total Pages: 0

ISBN-13: 9783036594262

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Industrial/commercial centers and residential consumers require different types of energy such as electrical, heat, and natural gas. Nowadays, many types of energy resources are available. Traditionally, energy is operated and planned separately, but their combination may be synergistic. Hence, penetration of multi-energy systems has been raised in the real world, e.g., co-generation combined heat and power systems. The process of combining various types of energy is also called a multi-carrier energy system, which increases energy efficiency. In addition, the rapid development of technologies has resulted in amplifying the joint operation of the multi-generation systems. This highlights the importance of focusing on multiple alternatives such as integration of renewable energy sources, effective energy conservation, energy storage, etc. The main purpose of the proposed topic was to cover research in electrical, mechanical engineering, and thermal sciences, with a strong concentration on multi-energy analysis, integrated energy systems, multi-energy systems modeling, operation and planning of integrated energy systems, energy conversion, efficiency, renewable energy and electricity supply, including small and large demand scales. It also welcomed research on the technologies of energy storage and electric vehicles.

Integration of Clean and Sustainable Energy Resources and Storage in Multi-Generation Systems
Integration of Clean and Sustainable Energy Resources and Storage in Multi-Generation Systems

Author: Farkhondeh Jabari

Publisher: Springer

Published: 2021-07-10

Total Pages: 0

ISBN-13: 9783030424220

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This book presents design principles, performance assessment and robust optimization of different poly-generation systems using renewable energy sources and storage technologies. Uncertainties associated with demands or the intermittent nature of renewables are considered in decision making processes. Economic and environmental benefits of these systems in comparison with traditional fossil fuels based ones are also provided. Case studies, numerical results, discussions, and concluding remarks have been presented for each proposed system/strategy. This book is a useful tool for students, researchers, and engineers trying to design and evaluate different zero-energy and zero-emission stand-alone grids.

Geothermal Energy Systems
Geothermal Energy Systems

Author: Ibrahim Dincer

Publisher: Elsevier

Published: 2021-03-25

Total Pages: 527

ISBN-13: 0128208961

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Geothermal Energy Systems provides design and analysis methodologies by using exergy and enhanced exergy tools (covering exergoenvironmental, exergoeconomic, exergetic life cycle assessment, etc.), environmental impact assessment models, and sustainability models and approaches. In addition to presenting newly developed advanced and integrated systems for multigenerational purposes, the book discusses newly developed environmental impact assessment and sustainability evaluation methods and methodologies. With case studies for integrated geothermal energy sources for multigenerational aims, engineers can design and develop new geothermal integrated systems for various applications and discover the main advantages of design choices, system analysis, assessment and development of advanced geothermal power systems. Explains the ability of geothermal energy power systems to decrease global warming Discusses sustainable development strategies for using geothermal energy sources Provides new design conditions for geothermal energy sources-based district energy systems

Integration of Renewables in Power Systems by Multi-Energy System Interaction
Integration of Renewables in Power Systems by Multi-Energy System Interaction

Author: Birgitte Bak-Jensen

Publisher: MDPI

Published: 2021-04-12

Total Pages: 358

ISBN-13: 3036503420

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This book focuses on the interaction between different energy vectors, that is, between electrical, thermal, gas, and transportation systems, with the purpose of optimizing the planning and operation of future energy systems. More and more renewable energy is integrated into the electrical system, and to optimize its usage and ensure that its full production can be hosted and utilized, the power system has to be controlled in a more flexible manner. In order not to overload the electrical distribution grids, the new large loads have to be controlled using demand response, perchance through a hierarchical control set-up where some controls are dependent on price signals from the spot and balancing markets. In addition, by performing local real-time control and coordination based on local voltage or system frequency measurements, the grid hosting limits are not violated.