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Part II: Economic Assessment of Solar Storage
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Part II: Economic Assessment of Solar Storage
by Bent Sørensen
Solar Energy Storage
Cover image
Title page
Table of Contents
Copyright
Contributors
Preface
Chapter 1: Introduction and Overview
Abstract
Part I: Solar Energy Storage Options
Chapter 2: Solar Electrical Energy Storage
Abstract
2.1 Background
2.2 Technical Requirements of a Solar Electrical Energy Storage Facility
2.3 Options for Solar Electrical Energy Storage Technologies
2.4 Utility-Scale Storage Technologies
2.5 Distributed Scale Storage Technologies—Rechargeable Batteries
2.6 Economics of Solar Electrical Energy Storage Technologies
2.7 Final Remarks
Chapter 3: Innovative Systems for Storage of Thermal Solar Energy in Buildings
Abstract
3.1 Introduction
3.2 Major Technologies for Heat Storage in Buildings
3.3 Focus on a Solar Heat Absorption Storage System
3.4 Conclusion
Chapter 4: Assessment of Electricity Storage Systems
Abstract
Acknowledgments
4.1 Introduction
4.2 Why ESS
4.3 The Potential for ESSs
4.4 Requirements of ESS for Saudi Arabia
4.5 Description of Major ESS
4.6 Assessment of ESS Technologies
4.7 Economic Evaluation of Selected ESS
4.8 Conclusions and Recommendations
Chapter 5: Storage of Solar Thermal Energy in Dependency of Geographical and Climatic Boundary Conditions
Abstract
5.1 Introduction
5.2 Influencing Boundary Conditions
5.3 Classification of Solar Thermal Systems with TES
5.4 Case Study to Evaluate the Influence of the Diversity of Boundary Conditions
5.5 Conclusions
Chapter 6: Sorption Heat Storage
Abstract
6.1 Characteristics of Different Types of Heat Storage
6.2 Principles of Sorption Heat Storage
6.3 Sorption Heat Storage Materials
6.4 Sorption Heat Storage System Designs
6.5 Overall System Aspects
6.6 Conclusions
Chapter 7: Energetic Complementarity with Hydropower and the Possibility of Storage in Batteries and Water Reservoirs
Abstract
Acknowledgments
7.1 Introduction
7.2 Energetic Complementarity
7.3 Evaluation of Complementarity in Time
7.4 Complementarity Between Solar Energy and Hydropower
7.5 Hydro-PV Hybrid Systems Based on Complementary Energy Resources
7.6 A Method of Analysis
7.7 Effects of Complementarity in Time
7.8 Some Real Hybrid Systems with Partial Complementarity
7.9 Effects of Energy Storage
Chapter 8: Revitalization of Hydro Energy: A New Approach for Storing Solar Energy
Abstract
8.1 Introduction
8.2 An Innovative Solution: Integration of a Solar-Hydro System
8.3 Geosynthetics as a Prerequisite for Hydro Energy Storage
8.4 Concept Integration of the SE-PSH System
8.5 Optimization Model of SE-PSH System
8.6 Impact Geosynthetics and Dynamic Charging and Discharging of PSH System
8.7 Conclusion
Part II: Economic Assessment of Solar Storage
Chapter 9: Photovoltaics and Storage Plants: Efficient Capacities in a System View
Abstract
9.1 Energy Outlook
9.2 Storage Plants in a System View
9.3 Reference Case
9.4 Sensitivities
9.5 Conclusion
Chapter 10: Economics of Solar PV Systems with Storage, in Main Grid and Mini-Grid Settings
Abstract
Acknowledgments
10.1 Introduction
10.2 Electricity Industry Economics
10.3 PV and Storage Applications
10.4 Possible Future Developments
Part III: Environmental and Social Impacts
Chapter 11: Environmental Issues Associated with Solar Electric and Thermal Systems with Storage
Abstract
11.1 Introduction
11.2 Solar Cells
11.3 Solar Electricity Systems
11.4 Solar Electric Storage
11.5 Solar Heat Systems
11.6 Solar Heat Storage
11.7 Combined Systems
11.8 Conclusion
Chapter 12: Consumer Perceptions and Acceptance of PV Systems with Energy Storage
Abstract
12.1 Background
12.2 Japanese Energy Policy, Including FiT
12.3 ESS in Japan
12.4 Consumer Perception Survey: Renewables and ESS in Japan
12.5 Conclusion
Part IV: Case Studies
Chapter 13: Photovoltaic-Energy Storage Systems for Remote Small Islands
Abstract
13.1 Introduction
13.2 The Need for Energy Storage in Remote Islands
13.3 Operation Modes of a Typical ESS
13.4 Available Energy Storage Techniques
13.5 ESS Sizing
13.6 Energy Storage Costs
13.7 Representative Case Study
13.8 Conclusions
Chapter 14: Solar Thermal Energy Storage for Solar Cookers
Abstract
14.1 Introduction
14.2 Solar Cooking Systems
14.3 Solar Cookers Using Sensible Heat Thermal Energy Storage (SHTES)
14.4 Solar Cookers Using LHTES
14.5 Characterization of Solar Cookers with TES
14.6 Conclusion
Chapter 15: Isolated and Mini-Grid Solar PV Systems: An Alternative Solution for Providing Electricity Access in Remote Areas (Case Study from Nepal)
Abstract
15.1 Introduction
15.2 Site Description
15.3 Existing Energy Consumption Patterns and Potential Electricity Demand
15.4 Methods and Data Source
15.5 Technology Selection and Component Sizing
15.6 Levelized Cost of Electricity (LCOE)
15.7 Business Model for Mini-Grid Solar PV System
15.8 Operational and Management Model for the Solar Mini-Grid System
15.9 Conclusion
Index
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Chapter 8: Revitalization of Hydro Energy: A New Approach for Storing Solar Energy
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Chapter 9: Photovoltaics and Storage Plants: Efficient Capacities in a System View
Part II
Economic Assessment of Solar Storage
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