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Languages : en
Pages : 0
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Book Description
Increased attention has focused on scenarios of rapid and deep decarbonization of the U.S. electricity supply, with least-cost solutions typically involving significant expansion of renewable energy, energy storage, and transmission assets. Strategies that enable the integration of renewable energy projects while minimizing transmission expansion could be especially valuable in the future. It is within this context that the concept of hybrid power plants (or hybrid energy systems) has gained prominence. One specific example is the FlexPower concept, which seeks to demonstrate how coupling variable renewable energy (VRE) and energy storage technologies can result in renewable-based hybrid power plants that provide full dispatchability and a full range of reliability and resiliency services, similar to or better than fuel-based power plants. To help inform and evaluate the FlexPower concept, this report quantifies the temporal complementarity of pairs of colocated VRE (wind, solar, and hydropower) resources, based on their native generation profiles. The combined output from complementary resources - i.e., resources whose generation profiles are anticorrelated or out of phase with one another - will be spread more evenly across time, resulting in reduced variability. In turn, hybrid power plants comprising complementary resources can have increased capacity factors, reduced curtailment, and cost synergies due to smaller interconnection and energy storage requirements for smooth and dispatchable generation. Through the evaluation of two complementarity metrics over annual and seasonal timescales, we find evidence that combining multiple VRE resources can reduce the variability in daily plant output across many regions of the United States. In general, complementarity signals are strongest for resource pairs that involve solar photovoltaics (PV), including wind-PV and hydropower-PV combinations. Complementarity varies on a seasonal and regional basis, both in terms of the strength of potential synergies and the resource pairs for which synergies are observed. In the western United States, colocated wind and PV resources are complementary in the Central Valley of California, and output from hydropower dams complements that of colocated PV along the Colorado River, near Tahoe, California, and in northern Utah. In the wind belt and surrounding regions, colocated wind and PV are highly complementary, and generation from hydropower dams in the northern latitudes complements colocated PV (although these dams tend to have small capacities, = 20 megawatts). In the Northeast, both wind and hydropower resources are moderately-to-strongly complementary with colocated PV, while the synergies between wind and hydropower are more muted. In the Southeast, complementarity among all evaluated resource pairs is moderate. This report focuses on the temporal complementarity of pairs of wind, solar, and hydropower resources , but complementarity on its own cannot predict the competitiveness of hybrid energy systems. The economics of a power plant ultimately depend on its ability to deliver power during periods of greatest need and value, and high complementarity may not be optimal from a net economic perspective, accounting for all cost and value categories. In addition, complementarity provides initial insights into where the FlexPower concept could generate transmission and/or interconnection benefits, but the goals of FlexPower are much broader. Insights derived from this complementarity analysis can help with scenario design in operational models to provide a more complete picture of the value proposition of the FlexPower concept, including the addition of energy storage.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Increased attention has focused on scenarios of rapid and deep decarbonization of the U.S. electricity supply, with least-cost solutions typically involving significant expansion of renewable energy, energy storage, and transmission assets. Strategies that enable the integration of renewable energy projects while minimizing transmission expansion could be especially valuable in the future. It is within this context that the concept of hybrid power plants (or hybrid energy systems) has gained prominence. One specific example is the FlexPower concept, which seeks to demonstrate how coupling variable renewable energy (VRE) and energy storage technologies can result in renewable-based hybrid power plants that provide full dispatchability and a full range of reliability and resiliency services, similar to or better than fuel-based power plants. To help inform and evaluate the FlexPower concept, this report quantifies the temporal complementarity of pairs of colocated VRE (wind, solar, and hydropower) resources, based on their native generation profiles. The combined output from complementary resources - i.e., resources whose generation profiles are anticorrelated or out of phase with one another - will be spread more evenly across time, resulting in reduced variability. In turn, hybrid power plants comprising complementary resources can have increased capacity factors, reduced curtailment, and cost synergies due to smaller interconnection and energy storage requirements for smooth and dispatchable generation. Through the evaluation of two complementarity metrics over annual and seasonal timescales, we find evidence that combining multiple VRE resources can reduce the variability in daily plant output across many regions of the United States. In general, complementarity signals are strongest for resource pairs that involve solar photovoltaics (PV), including wind-PV and hydropower-PV combinations. Complementarity varies on a seasonal and regional basis, both in terms of the strength of potential synergies and the resource pairs for which synergies are observed. In the western United States, colocated wind and PV resources are complementary in the Central Valley of California, and output from hydropower dams complements that of colocated PV along the Colorado River, near Tahoe, California, and in northern Utah. In the wind belt and surrounding regions, colocated wind and PV are highly complementary, and generation from hydropower dams in the northern latitudes complements colocated PV (although these dams tend to have small capacities, = 20 megawatts). In the Northeast, both wind and hydropower resources are moderately-to-strongly complementary with colocated PV, while the synergies between wind and hydropower are more muted. In the Southeast, complementarity among all evaluated resource pairs is moderate. This report focuses on the temporal complementarity of pairs of wind, solar, and hydropower resources , but complementarity on its own cannot predict the competitiveness of hybrid energy systems. The economics of a power plant ultimately depend on its ability to deliver power during periods of greatest need and value, and high complementarity may not be optimal from a net economic perspective, accounting for all cost and value categories. In addition, complementarity provides initial insights into where the FlexPower concept could generate transmission and/or interconnection benefits, but the goals of FlexPower are much broader. Insights derived from this complementarity analysis can help with scenario design in operational models to provide a more complete picture of the value proposition of the FlexPower concept, including the addition of energy storage.
Author: Jakub Jurasz
Publisher: Academic Press
ISBN: 0323855288
Category : Technology & Engineering
Languages : en
Pages : 746
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Book Description
Complementarity of Variable Renewable Energy Sources consolidates current developments on the subject, addressing all technical advances, presenting new mapping results, and bringing new insights for the continuation of research and implementation on this fascinating topic. By answering questions such as How can complementarity be used in the operation of large interconnected systems?, What is the real applicability potential of energetic complementarity?, and How will it impact energy generation systems?, this title is useful for all researchers, academic and students investigating the topic of renewable energy complementarity in systems. In just over a decade, the subject of 'energy complementarity' has experienced a growing presence and understanding by researchers and managers of energy resources looking to enhance energy systems. Early research proposed methods to quantify complementarity, the effects of complementarity on performance of hybrid systems, and how to identify and map complementarity between solar energy, wind energy and hydroelectric energy systems. Includes chapter maps to visualize system performance under different complementarity indexes Addresses complementarity in the operation of large and small to medium-sized hybrid systems Provides methods for determining complementarity between various energy sources
Author: Carl E. Bingham
Publisher:
ISBN:
Category : Solar energy
Languages : en
Pages : 25
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Book Description
Author: Umakanta Sahoo
Publisher: John Wiley & Sons
ISBN: 1119555574
Category : Science
Languages : en
Pages : 306
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Book Description
The energy scene in the world is a complex picture of a variety of energy sources being used to meet the world's growing energy needs. There is, however, a gap in the demand and supply. It is recognized that decentralized power generation based on the various renewable energy technologies can, to some extent, help in meeting the growing energy needs. The renewable energy landscape has witnessed tremendous changes in the policy framework with accelerated and ambitious plans to increase the contribution of renewable energy such as solar, wind, bio-power, and others. Hybrid renewable energy systems are important for continuous operation and supplements each form of energy seasonally, offering several benefits over a stand-alone system. It can enhance capacity and lead to greater security of continuous electricity supply, among other applications. This book provides a platform for researchers, academics, industry professionals, consultants and designers to discover state-of-the-art developments and challenges in the field of hybrid renewable energy. Written by a team of experts and edited by one of the top researchers in hybrid renewable systems, this volume is a must-have for any engineer, scientist, or student working in this field, providing a valuable reference and guide in a quickly emerging field.
Author: Jiuping Xu
Publisher: John Wiley & Sons
ISBN: 3527843264
Category : Science
Languages : en
Pages : 437
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Book Description
Sustainable Hybrid Energy Systems Discovering comprehensive approaches to build sustainable hybrid energy systems Hybridization is the eternal theme of human energy utilization. However, it has never been more important than it is now because of the urgency of promoting energy transition and achieving carbon neutrality. Therefore, exploring the design, combustion, operation, and policy challenges of sustainable hybrid energy systems becomes increasingly important. Sustainable Hybrid Energy Systems: Carbon Neutral Approaches, Modeling, and Case Studies provides a detailed explanation of these aspects. Dividing hybrid energy systems into three categories—co-located, co-combusted, and co-operated, this book emphasizes the deployment optimization, emission quota allocation, scheduling coordination, and renewable portfolio standards implementation of these systems. The results are essential tools for understanding the current and future of multi-input single-output hybrid energy systems. Sustainable Hybrid Energy Systems readers will also find: Clear logical framework that reveals the constitutes of hybrid energy systems. Systematic technical scheme for building an economic, environmental, flexible, and resilient future energy system. Extensive case studies from single power plant level, multiple power plant level, and grid level. Effective guidelines for wider application of the proposed carbon neutral approaches. Sustainable Hybrid Energy Systems is ideal for power engineers, electrical engineers, scientists in industry, and environmental researchers looking to understand these energy solutions. It will also provide collectible value for libraries.
Author: Felix A. Farret
Publisher: John Wiley & Sons
ISBN: 0471755613
Category : Technology & Engineering
Languages : en
Pages : 499
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Book Description
A unique electrical engineering approach to alternative sources ofenergy Unlike other books that deal with alternative sources of energyfrom a mechanical point of view, Integration of Alternative Sourcesof Energy takes an electrical engineering perspective. Moreover,the authors examine the full spectrum of alternative and renewableenergy with the goal of developing viable methods of integratingenergy sources and storage efficiently. Readers become thoroughlyconversant with the principles, possibilities, and limits ofalternative and renewable energy. The book begins with a general introduction and then reviewsprinciples of thermodynamics. Next, the authors explore both commonand up-and-coming alternative energy sources, including hydro,wind, solar, photovoltaic, thermosolar, fuel cells, and biomass.Following that are discussions of microturbines and inductiongenerators, as well as a special chapter dedicated to energystorage systems. After setting forth the fundamentals, the authorsfocus on how to integrate the various energy sources for electricalpower production. Discussions related to system operation,maintenance, and management, as well as standards forinterconnection, are also set forth. Throughout the book, diagrams are provided to demonstrate theelectrical operation of all the systems that are presented. Inaddition, extensive use of examples helps readers better grasp howintegration of alternative energy sources can beaccomplished. The final chapter gives readers the opportunity to learn about theHOMER Micropower Optimization Model. This computer model, developedby the National Renewable Energy Laboratory (NREL), assists in thedesign of micropower systems and facilitates comparisons of powergeneration techniques. Readers can download the software from theNREL Web site. This book is a must-read for engineers, consultants, regulators,and environmentalists involved in energy production and delivery,helping them evaluate alternative energy sources and integrate theminto an efficient energy delivery system. It is also a superiortextbook for upper-level undergraduates and graduate students.
Author: Carl E. Bingham
Publisher:
ISBN:
Category : Solar energy
Languages : en
Pages : 0
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Book Description
Author: M. Godoy Simões
Publisher: CRC Press
ISBN: 9780849320316
Category : Technology & Engineering
Languages : en
Pages : 386
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Book Description
As the world moves toward renewable energy sources to combat environmental and power distribution issues, there has been a resurgence of interest in induction generators, particularly in their use in wind and hydropower generation systems. Induction machines operating as generators are rugged and cost effective, and with recent advances in control and optimization, the control design aspects are now moving from the laboratory to the desks of practicing engineers. Renewable Energy Systems: Design and Analysis with Induction Generators presents the first comprehensive exposition of induction machines used for power generation. Focusing on renewable energy applications, the authors address virtually all aspects of the design, operation, and analysis of these systems, from the very basics to the latest technologies, including: New methods of characteristics testing, aimed at reduced test time, precision, and automation Reactive compensation techniques Control, including scalar control, vector control, and optimization techniques for peak power tracking control Interconnecting induction generators to the main grid Behavior in the presence of switched and controlled electronic converters Using PSPICE, MATLAB, PSIM, C, Pascal and Excel for modeling and simulation Robust, economical, and low maintenance, induction generators hold outstanding potential for helping to fulfill the world's energy needs. This book provides the background and the tools you need to begin developing power plants and become expert in the applications and deployment of induction generator systems.
Author: Ahmet Aktas
Publisher: Academic Press
ISBN: 0323885004
Category : Science
Languages : en
Pages : 370
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Book Description
Solar Hybrid Systems: Design and Application discusses the key power generation characteristics of solar systems and explores the growing need for hybrid systems. The authors use real-life examples to explain the disadvantages of solar systems without hybridization and to demonstrate the various applications hybrid solar systems can be used for, paying special attention to its integration with energy storage systems. The book also discusses the impact of hybridization and how this can improve power generation quality along with investigating novel and advanced hybrid solar systems. This is a useful reference for engineers and researchers involved in both the development and application of hybrid solar systems, and features topics such as solutions for the intermittence of renewable energy sources; on-gird and off-grid solar hybrid systems; the simulation, design and application of hybrid solar systems; the role of energy storage systems in solar hybrid applications; and the future of electric vehicles using solar hybrid systems. Demonstrates the benefits of hybrid solar systems and why they are needed Features practical advice on designing hybrid solar systems Includes key findings and real-world examples to illustrate the applications of hybrid solar systems
Author: Salisu Muhammad Lawan
Publisher:
ISBN:
Category : Electronic books
Languages : en
Pages : 0
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Book Description
In this chapter, an attempt is made to thoroughly review previous research work conducted on wind energy systems that are hybridized with a PV system. The chapter explores the most technical issues on wind drive hybrid systems and proposes possible solutions that can arise as a result of process integration in off-grid and grid-connected modes. A general introduction to wind energy, including how wind energy can be harvested, as well as recent progress and development of wind energy are discussed. With the special attention given to the issues related to the wind and photovoltaic (Wind-PV) systems. Throughout the chapter emphasis was made on modeling, design, and optimization and sensitivity analysis issues, and control strategies used to minimize risk as well as energy wastage. The reported reviewed results in this chapter will be a valuable researchers and practicing engineers involved in the design and development of wind energy systems.
