Storing Energy - With Special Reference to Renewable Energy Sources

This book discusses the needs of the world's future energy and climate change policies, covering the various types of renewable energy storage in one comprehensive volume that allows readers to conveniently compare the different technologies and find the best process that suits their particular...

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Main Author Letcher, T. M. (Trevor M.)
Format eBook Book
LanguageEnglish
Published Amsterdam Elsevier 2016
Edition1
Subjects
Alternative & Renewable Energy Sources & Technologies
Electrical & Power Engineering
Energy storage
Power Generation and Transmission
Renewable energy sources
Sustainable Energy & Development
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Abstract This book discusses the needs of the world's future energy and climate change policies, covering the various types of renewable energy storage in one comprehensive volume that allows readers to conveniently compare the different technologies and find the best process that suits their particularly needs. Each chapter is written by an expert working in the field and includes copious references for those wishing to study the subject further. Various systems are discussed, including mechanical/kinetic, thermal, electrochemical and other chemical, as well as other emerging technologies. Incorporating the advancements in storing energy as described in this book will help the people of the world further overcome the problems related to future energy and climate change.
AbstractList Energy Storage discusses the needs of the world's future energy and climate change policies, covering the various types of renewable energy storage in one comprehensive volume that allows readers to conveniently compare the different technologies and find the best process that suits their particularly needs. Each chapter is written by an expert working in the field and includes copious references for those wishing to study the subject further. Various systems are discussed, including mechanical/kinetic, thermal, electrochemical and other chemical, as well as other emerging technologies. Incorporating the advancements in storing energy as described in this book will help the people of the world further overcome the problems related to future energy and climate change. Covers most types of energy storage that is being considered today, and allows comparisons to be madeEach chapter is written by a world expert in the field, providing the latest developments is this fast moving and vital fieldCovers technical, environmental, social and political aspects related to the storing of energy and in particular renewable energy
This book discusses the needs of the world's future energy and climate change policies, covering the various types of renewable energy storage in one comprehensive volume that allows readers to conveniently compare the different technologies and find the best process that suits their particularly needs. Each chapter is written by an expert working in the field and includes copious references for those wishing to study the subject further. Various systems are discussed, including mechanical/kinetic, thermal, electrochemical and other chemical, as well as other emerging technologies. Incorporating the advancements in storing energy as described in this book will help the people of the world further overcome the problems related to future energy and climate change.
Author Letcher Trevor M
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Notes Includes bibliographical references and index
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Snippet This book discusses the needs of the world's future energy and climate change policies, covering the various types of renewable energy storage in one...
Energy Storage discusses the needs of the world's future energy and climate change policies, covering the various types of renewable energy storage in one...
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SubjectTerms Alternative & Renewable Energy Sources & Technologies
Electrical & Power Engineering
Energy storage
Power Generation and Transmission
Renewable energy sources
Sustainable Energy & Development
TableOfContents Title Page Preface Table of Contents 1. The Role of Energy Storage in Low-Carbon Energy Systems 2. Pumped Hydroelectric Storage 3. Novel Hydroelectric Storage Concepts 4. Advanced Rail Energy Storage: Green Energy Storage for Green Energy 5. Compressed Air Energy Storage 6. Compressed Air Energy Storage in Underground Formations 7. Underwater Compressed Air Energy Storage 8. A Novel Pumped Hydro Combined with Compressed Air Energy 9. Liquid Air Energy Storage 10. Flywheels 11. Rechargeable Batteries with Special Reference to Lithium-Ion Batteries 12. Vanadium Redox Flow Batteries 13. Phase Change Materials 14. Solar Ponds 15. Sensible Thermal Energy Storage: Diurnal and Seasonal 16. Hydrogen from Water Electrolysis 17. Thermochemical Energy Storage 18. Power-to-Gas 19. Traditional Bulk Energy Storage - Coal and Underground Natural Gas and Oil Storage 20. Larger Scale Hydrogen Storage 21. Energy Storage Integration 22. Off-Grid Energy Storage 23. Energy Storage Worldwide 24. Storing Energy in China - An Overview 25. The Politics of Investing in Sustainable Energy Systems Subject Index
9 - Potential sites in the Southwestern United States -- 10 - ARES Pilot and First Commercial Project -- 10.1 - ARES Nevada Project-System Description -- 11 - Conclusions -- Acknowledgment -- References -- Chapter 5 - Compressed Air Energy Storage -- 1 - Introduction -- 2 - CAES: modes of operation and basic principles -- 2.1 - The Basic Equations Governing CAES -- 2.2 - Electrical Energy, Work, and Heat in CAES -- 3 - Air containment for CAES -- 3.1 - Isobaric Air Containment -- 3.2 - Isochoric Air Containment -- 3.3 - Air Containment in Tanks -- 3.4 - The Case for Underground or Underwater Storage -- 4 - System configurations and plant concepts -- 4.1 - Diabatic Concepts -- 4.2 - Adiabatic Concepts -- 5 - Performance metrics -- 6 - Integrating CAES with generation or consumption -- 7 - Concluding remarks -- References -- Chapter 6 - Compressed Air Energy Storage in Underground Formations -- 1 - Introduction -- 2 - Mode of operation -- 3 - Plant concept -- 3.1 - Diabatic Concept -- 3.2 - Single-Stage Adiabatic Concept -- 3.3 - Multistage Adiabatic Concept -- 3.4 - Performance Metrics -- 4 - Underground Storage -- 4.1 - Depleted Oil and Gas Fields -- 4.2 - Aquifers -- 4.3 - Salt Caverns -- 4.4 - Rock Caverns -- 4.5 - Abandoned Mines -- 4.6 - Conclusions -- 4.7 - Existing and Proposed Plants -- 4.7.1 - Huntorf (Germany)-in Operation -- 4.7.2 - McIntosh, Alabama (United States)-in Operation -- 4.7.3 - Sesta (Italy)-Shut Down -- 4.7.4 - Larne (United Kingdom)-under Construction -- 4.7.5 - Pollegio (Switzerland)-under Construction -- 4.7.6 - Bakersfield, California (United States)-in Planning -- 4.7.7 - Tennessee Colony, Texas (United States)-in Planning -- 4.7.8 - Alberta (Canada)-in Planning -- 4.7.9 - Wesel (Germany)-in Planning -- 4.7.10 - Cheshire (United Kingdom)-in Planning -- 4.7.11 - Millard County, Utah (United States)-in Planning
7.3 - All-Organic Redox Flow Battery
2.2.4 - No Power Limitations -- 2.2.5 - Asymmetric Charging -- 2.2.6 - Other Performance Characteristics -- 2.2.7 - What Could Possibly Go Wrong? -- 2.3 - Piston Storage Economic Performance -- 2.3.1 - Capital Cost -- 2.3.2 - Finance Cost -- 2.3.3 - Operation and Maintenance (O&amp -- M) Costs -- 2.3.4 - Energy Costs -- 2.3.5 - Overall Storage Costs -- 2.4 - Markets and Competition for Piston Storage -- 2.4.1 - Size Matters, or Does It? -- 2.4.2 - Short-Duration Markets (&lt -- 4 h Storage Capacity) -- 2.4.3 - Day-Ahead Markets (∼3-20 h) -- 2.4.4 - Week-Ahead Markets (∼15-60 h) -- 2.4.5 - Long-Duration Markets (&gt -- 50 h Storage Capacity) -- 3 - Energy membrane-underground pumped hydro storage -- 3.1 - The Energy Membrane Concept -- 3.2 - Energy Losses due to Soil Deformation -- 3.3 - Soil Migration -- 3.4 - Membrane and Water Cavity -- 3.5 - Efficiency and Economic Performance -- 4 - Novel land-based and seabed pumped hydro configurations -- 4.1 - Background -- 4.2 - Surface Reservoir Systems -- 4.3 - Subterranean Reservoir Systems -- 4.4 - Seabed Hydroelectric Storage -- 5 - Offshore lagoon and island storage systems -- 5.1 Background -- 5.2 - Shallow-Water Lagoon Energy Storage -- 5.3 - Deeper Water Energy Island Storage -- 6 - Conclusions -- Acknowledgment -- References -- Chapter 4 - Advanced Rail Energy Storage: Green Energy Storage for Green Energy -- 1 - Introduction -- 2 - Market for utility-scale energy storage -- 3 - How much storage is needed for renewable energy? -- 4 - Value and storage market -- 5 - Competitive storage technologies -- 6 - Advanced Rail Energy Storage -- 6.1 - Shuttle Vehicle -- 6.2 - Rail -- 6.3 - Power System -- 7 - ARES operational control system -- 8 - Advantages of ARES -- 8.1 - Large-Scale Load Shifting and Power Quality Services -- 8.2 - Siting and Permitting -- 8.3 - Cost
Cover -- Title Page -- Copyright Page -- Contents -- List of Contributors -- Preface -- Part A - Introduction -- Chapter 1 - The Role of Energy Storage in Low-Carbon Energy Systems -- 1 - Introduction -- 2 - The need for new types of storage -- 2.1 - Impact of Demands on Generation Imbalances -- 2.2 - Strategies to Cope with Electricity System Imbalances -- 3 - Storage technologies -- 3.1 - Gravitational/Mechanical/Thermomechanical -- 3.2 - Electrochemical -- 3.3 - Thermal -- 3.4 - Chemical -- 4 - Comparing storage systems -- 5 - Challenges for energy storage -- 5.1 - Integrating Energy Storage into Low-Carbon Energy Systems -- 5.1.1 - Generation-Integrated Energy Storage -- 5.1.2 - Analyzing Energy Storage Integration Using Models -- 5.2 - Innovation to Reduce Technology Costs -- 5.3 - Public Acceptance -- 5.4 - Finding the Most Appropriate Roles for Energy Storage Technologies -- 5.5 - Adapting Energy Markets to Realize the Value of Energy Storage -- 6 - Conclusions -- References -- Part B - Electrical Energy Storage Techniques Gravitational/Mechanical/Thermomechanical -- Chapter 2 - Pumped Hydroelectric Storage -- 1 - Introduction -- 2 - Pros and cons -- 3 - Historical development -- 4 - Prospects -- 4.1 - Revival of Conventional PHES -- 4.2 - Alternative and Novel PHES Designs -- 4.3 - Retrofits of Existing PHES and Conventional Hydropower Stations -- References -- Chapter 3 - Novel Hydroelectric Storage Concepts -- 1 - Introduction -- 1.1 - Scope and Purpose -- 1.2 - Constraints -- 1.3 - How Did We Get Here? -- 1.4 - Novel Hydroelectric Storage Categories -- 1.5 - Future Applications and Markets -- 2 - Piston-in-cylinder electrical energy storage -- 2.1 - Background and Operating Principle -- 2.2 - Piston versus PHES? -- 2.2.1 - Location, Location, Location -- 2.2.2 - Pressure by Design -- 2.2.3 - No Energy Limitations
4.7.12 - Norton, Ohio (United States)-in Planning -- 4.7.13 - Staßfurt (Germany)-in Planning -- 4.7.14 - Iowa (United States)-Planning Suspended -- 4.7.15 - Donbas (Russia)-Construction Abandoned -- 4.7.16 - Gaines, Texas (United States)-Status Unclear -- 4.7.17 - Columbia Hills, Washington (United States)-Status Unclear -- 4.7.18 - Selah, Washington (United States)-Status Unclear -- 5 - Conclusions -- References -- Chapter 7 - Underwater Compressed Air Energy Storage -- 1 - Introduction -- 2 - Storage vessels for UWCAES -- 2.1 - Flexible Vessels -- 2.2 - Rigid Vessels -- 3 - Anchorage and installation -- 4 - System configurations -- 5 - Locations -- 6 - Cost and efficiency -- 7 - State of development -- 8 - Concluding remarks -- References -- Chapter 8 - A Novel Pumped Hydro Combined with Compressed Air Energy -- 1 - Introduction -- 2 - Storage system -- 3 - Characteristics of a PHCA system -- 4 - A Novel constant pressure PHCA energy storage system -- 5 - The influences of work density -- 6 - Energy and exergy analysis -- 6.1 - Energy Analysis -- 6.2 - Exergy Analysis -- 7 - Simulation analysis -- References -- Chapter 9 - Liquid Air Energy Storage -- 1 - Introduction -- 2 - Energy and exergy densities of liquid air -- 3 - Liquid air as both a storage medium and an efficient working fluid -- 4 - Applications of LAES through integration -- 4.1 - Integration of LAES with Gas Turbine-Based Peaking Plants -- 4.2 - Integration of LAES with Concentrated Solar Power Plants -- 4.3 - Integration of LAES with Nuclear Power Plants -- 4.4 - Integration of LAES with Liquefied Natural Gas Regasification Process -- 5 - Technical and economic comparison of LAES with other energy storage technologies -- 5.1 - Technical Comparison -- 5.2 - Economic Comparison -- References -- Chapter 10 - Flywheels -- 1 - Introduction -- 2 - Physics -- 3 - History
4 - The design of modern flywheels -- 4.1 - Rotor Design -- 4.2 - Bearings -- 4.3 - Motor/Generator -- 5 - Cost and comparison with other technologies -- 6 - Applications -- 6.1 - Grid-Connected Power Management -- 6.1.1 - Frequency Regulation -- 6.1.2 - Ramping -- 6.2 - Industrial and Commercial Power Management -- 6.2.1 - Transit -- 6.2.2 - Mining -- 6.3 - Pulsed Power -- 6.3.1 - Electromagnetic Aircraft Launch System -- 6.3.2 - Research Facilities -- 6.3.3 - Roller Coaster Launch -- 6.4 - Uninterruptible Power Supplies -- 6.5 - Mobile -- 6.5.1 - Materials Handling -- 6.5.2 - Motorsport -- 6.5.3 - Spacecraft -- 7 - Outlook -- Acknowledgments -- References -- Part C - Electrochemical -- Chapter 11 - Rechargeable Batteries with Special Reference to Lithium-Ion Batteries -- 1 - Introduction -- 2 - Physical fundamentals of battery storage -- 2.1 - Lead-Acid Batteries -- 2.2 - Lithium-ion Batteries -- 3 - Development of lithium-ion battery storage systems -- 3.1 - Design of Battery Modules and Systems for Stationary Applications -- 3.1.1 - Consideration of Efficiencies -- 3.2 - Battery Management Systems -- 3.2.1 - Modular Concept -- 3.2.2 - Single Central Concept -- 3.2.3 - Single-Cell Concept -- 3.2.4 - State-of-Charge Estimation -- 3.2.5 - State-of-Health Estimation -- 3.2.6 - Validation -- 4 - System integration -- 4.1 - Configuration -- 4.2 - Communication Infrastructure -- 5 - Conclusions -- References -- Chapter 12 - Vanadium Redox Flow Batteries -- 1 - Introduction and historic development -- 2 - The function of the VRFB -- 3 - Electrolytes of VRFB -- 4 - VRFB versus other battery types -- 5 - Application of VRFB -- 5.1 - Applications -- 5.2 - Current Large-Scale Applications -- 6 - Recycling, environment, safety, and availability -- 7 - Other flow batteries -- 7.1 - Iron-Chromium Flow Battery -- 7.2 - Polysulfide Bromine Flow Battery
Title Storing Energy - With Special Reference to Renewable Energy Sources
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