Compressed Air Energy Storage : Types, Systems and Applications.

Format:

Book

Author/Creator:

Ting, David S. -K.

Contributor:

Stagner, Jacqueline A.

Series:

Energy Engineering

Language:

English

Subjects (All):

Compressed air.

Physical Description:

1 online resource (284 pages)

Edition:

1st ed.

Other Title:

Compressed Air Energy Storage

Place of Publication:

Stevenage : Institution of Engineering & Technology, 2021.

Summary:

A systematic overview of the state of Compressed Air Energy Storage (CAES) technology, covering the key components and principal types of systems in the order of technical maturity: diabatic, adiabatic, and isothermal. Existing major systems and prototypes and economics are also addressed.

Contents:

Intro

Contents

About the editors

Preface

1. The current status and future perspectives of compressed air energy storage | David S-K. Ting and Jacqueline A. Stagner

1.1 An introduction to CAES

1.2 Isothermal CAES

1.3 Adiabatic CAES

1.4 Technical feasibility analysis of underground reservoir CAES

1.5 Small-scale CAES

1.6 Hybridization of large-scale CAES

1.7 Dynamic modeling of CAES

1.8 CAES for day-ahead dispatch scheduling of renewable energy

1.9 Direct air capture and wind curtailment

1.10 Exergy analysis of a small-scale trigenerative CAES

1.11 Offshore CAES

1.12 CAES outlook

References

2. An overview of CAES | Mohsen Mehri

Nomenclature

2.1 Introduction: motivation and principles

2.2 Key components

2.3 D-CAES systems

2.4 Combined heat and power dispatch

2.5 A-CAES systems

2.6 Near-isothermal systems

2.7 Isothermal CEAS systems

2.8 Supercritical CAES

2.9 Underwater CAES

2.10 Offshore systems

2.11 Analysis, simulation, and modeling

2.12 Power electronics and integration with transmission and grid

2.13 Reliability and economic feasibility: CAES risk assessment

2.14 Outlook: wind-powered CEAS

3. Isothermal compressed air energy storage | Xinjing Zhang, Haisheng Chen, Yujie Xu, Xuezhi Zhou and Huan Guo

3.1 Introduction

3.2 I-CAES working principle

3.3 Research progress of I-CAES

3.4 System description

3.5 Methodology

3.6 Results and discussion

3.7 Conclusion and remarks

Acknowledgement

4. Improving the efficiency of A-CAES systems by preconditioning discharge air stream | Mehdi Ebrahimi, David Brown, David S-K. Ting, Rupp Carriveau and Andrew McGillis

Greek letters

Subscripts and superscripts

Abbreviations

4.1 Introduction.

4.2 A-CAES technology description

4.3 Methodology

4.4 Results and discussion

4.5 Conclusion

5. Technical feasibility analysis of compressed air energy storage from the perspective of underground reservoir | Li Li and Xiao Lin

5.1 Introduction

5.2 CAES and high-pressure air reservoir

5.3 CAES commercial utilization and technical challenges

5.4 A case study of CAES in Ontario, Canada

5.5 Conclusion

6. Comprehensive overview of compressed air energy storage systems | Marcos A. Salvador, Lenon Schmitz, Telles B. Lazzarin and Roberto F. Coelho

6.1 Introduction

6.2 Compressed air energy storage

6.3 Small-scale CAES

6.4 Final considerations

7. Compressed air energy storage systems, towards a zero emissions in electricity generation | Bernardo Llamas, Eva M. Blanco-Brox, Maria C. Castan˜eda and Gabriel Barthelemy

7.1 Introduction

7.2 Massive energy storage technologies

7.3 Compressed air energy storage

7.4 Analysis of alternatives on hybridization of technologies

7.5 Conclusions

Acknowledgements

8. Compressed air energy storage system dynamic modelling and simulation | Jieren Ke, Wei He, Mark Dooner, Xing Luo and Jihong Wang

8.1 Introduction

8.2 CAES discharging system analysis, simulation and modelling

8.3 Data-driven modelling

8.4 Choosing models of components for simulating a CAES system

8.5 CAES system modelling case for applying a DDM

8.6 Conclusion

9. Application of compressed air energy storage systems in a day-ahead dispatch schedule under demand response and renewable obligation | Thabo G. Hlalele, Jiangfeng Zhang, Raj Naidoo and Ramesh C. Bansal

9.1 Introduction

9.2 Compressed air energy storage

9.3 Problem formulation

9.4 Numerical simulation

9.5 Conclusion

Acknowledgements.

References

10. Direct air capture and wind curtailment: a technology-based business approach for the US market | Erik R. Steeb and George Xydis

10.1 Introduction

10.2 Literature review

10.3 A meaningful proposal

10.4 Further analysis

10.5 Discussion

10.6 Conclusion

11. Exergy analysis of a small-scale trigenerative compressed air energy storage system | Raghuveera Sai Sarath Dittakavi, David S-K. Ting, Rupp Carriveau and Mehdi Ebrahimi

11.1 Introduction

11.2 Thermodynamic laws

11.3 T-CAES system setup and analysis

11.4 Results and discussions

11.5 Conclusions

12. Offshore systems | Daniel Chidiebere Onwuchekwa

12.1 Energy storage systems

12.2 Buoyancy engine

12.3 A model plant

12.4 Optimisation and conclusion

Index.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

1-83724-572-X

1-83953-196-7

OCLC:

1276857659