| Description |
1 online resource : illustrations, map. |
| Physical Medium |
polychrome |
| Description |
text file |
| Series |
IET Energy Engineering ; 111
|
|
IET energy engineering series ; 111.
|
| Bibliography |
Includes bibliographical references and index. |
| Summary |
The book consists of 12 chapters and discusses the following topics: overview of energy storage technologies; energy storage systems: technology, integration and market; energy storages in microgrids; energy storage in electricity markets; the role of storage in transmission investment deferral and management of future planning uncertainty; sizing of battery energy storage for end-user applications under time of use pricing; assessment and optimization of energy storage benefits in distribution networks; case studies from selected countries Romania and Italy; case studies from selected countries the USA; the use and role of flywheel energy storage systems; forecasting and optimisation for multi-purpose application of energy storage systems to deliver grid services: case study of the smarter network storage project; optimal coordination between generation and storage under uncertainties. |
| Contents |
Intro; Contents; About the editors; List of acronyms; Preface; 1. Overview of energy storage technologies / Navid Rezaei, Abdollah Ahmadi, Sara N. Afifi, Ahmed F. Zobaa and Shady H.E. Abdel Aleem; 1.1 Introduction; 1.2 The statistical analysis; 1.3 The bibliometric networks; 1.3.1 The co-occurrence analysis; 1.3.2 The co-authorship analysis; 1.3.3 The citation analysis; 1.4 ESS benefits; 1.5 ESS general characteristics; 1.6 ESS technologies; 1.7 Comparison of ESS technologies; 1.7.1 Technology maturity level; 1.7.2 ESS costs; 1.8 Conclusions and future trends; References |
|
2. Energy storage systems: technology, integration and market / Paulo F. Ribeiro, Antonio C. Zambroni Souza and Yuri R. Rodrigues2.1 Introduction; 2.2 Benefits; 2.3 State of the art; 2.4 International scenario; 2.5 Technologies and applications; 2.5.1 Flywheel; 2.5.2 Batteries; 2.5.3 Supercapacitor; 2.5.4 Hydraulic pumping plant; 2.5.5 Solar thermal power plant; 2.5.6 Superconducting magnetic energy storage (SMES); 2.5.7 Decoupling in time between generation and consumption; 2.5.8 Emergency energy sources; 2.6 Standards for storage devices; 2.7 The role of virtual inertia |
|
2.7.1 VSYNC's project2.7.2 IEPE's topology; 2.7.3 ISE lab's topology; 2.8 Plug-in electric vehicles; 2.9 Market aspects; 2.9.1 Market applications and potential; 2.9.2 Energy storage influence in the market equilibrium; 2.9.3 Market structures; 2.9.4 Market scenarios; 2.10 Conclusions and challenges; References; Further Reading; 3. Energy storages in microgrids / Hamidreza Nazaripouya and Yubo Wang; 3.1 Introduction; 3.2 Microgrid challenges; 3.2.1 Microgrid stability; 3.2.2 Microgrid power management; 3.2.3 Microgrid power quality and reliability; 3.3 Energy storage technologies |
|
3.4 Energy storage applications in microgrids3.4.1 Stability enhancement; 3.4.2 Energy management; 3.4.3 Power quality improvement; 3.4.4 Reliability improvement; 3.4.5 Resiliency improvement; 3.5 Challenges and barriers; 3.6 Conclusion; References; 4. Energy storage in electricity markets / Hrvoje Pandzic and Yury Dvorkin; 4.1 Introduction; 4.2 Energy storage in energy market; 4.2.1 Energy storage as price taker; 4.2.2 Numerical example of energy storage as price taker; 4.2.3 Energy storage as price maker; 4.3 Energy storage in reserve market |
|
4.3.1 Policies enhancing energy storage flexibility4.3.2 Generalized payment scheme; 4.3.3 Dilemma: Trade energy or frequency regulation?; Appendix; References; Further Reading; 5. The role of storage in transmission investment deferral and management of future planning uncertainty / Ioannis Konstantelos and Goran Strbac; 5.1 Introduction; 5.1.1 System benefits of ES; 5.1.2 Valuation model variants; 5.1.3 Motivating example; 5.1.4 Chapter structure; 5.2 Stochastic transmission expansion planning with storage; 5.2.1 Literature review; 5.2.2 Mathematical formulation |
| Local Note |
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America |
| Subject |
Distributed generation of electric power.
|
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Distributed generation of electric power. |
|
Economics.
|
|
Economics. |
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Electric power systems.
|
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Electric power systems. |
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Electric power systems -- Management.
|
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Electric power systems -- Management. |
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Electric utilities.
|
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Electric utilities. |
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Energy storage.
|
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Energy storage. |
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Flywheels.
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Flywheels. |
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Markets.
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Markets. |
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Planning.
|
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Planning. |
| Indexed Term |
generation |
|
smarter network storage project |
|
grid services |
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forecasting |
|
optimisation |
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flywheel energy storage systems |
|
USA |
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Italy |
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Romania |
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distribution networks |
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time of use pricing |
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end-user applications |
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battery energy storage |
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planning uncertainty |
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transmission investment deferral |
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electricity markets |
|
microgrid |
|
energy storage technologies |
| Genre/Form |
Electronic books.
|
|
Electronic books.
|
| Added Author |
Zobaa, Ahmed F., editor.
|
|
Ribeiro, Paulo F., editor.
|
|
Abdel Aleem, Shady H. E., editor.
|
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Afifi, Sara N., editor.
|
| Other Form: |
Print version: Energy storage at different voltage levels. Stevenage, United Kingdom : Institution of Engineering and Technology, 2018 9781785613494 (OCoLC)1063700305 |
| ISBN |
9781785613500 (electronic book) |
|
1785613502 (electronic book) |
|
9781523121090 (electronic book) |
|
1523121092 (electronic book) |
|
9781785613494 (hardback) |
|
1785613499 (hardback) |
|
