Lithium‐Free Redox Flow Batteries: Challenges and Future Prospective for Safe and Efficient Energy Storage-Reference-Cited by-同舟云学术

Lithium‐Free Redox Flow Batteries: Challenges and Future Prospective for Safe and Efficient Energy Storage

Published:2024-04-25 Issue:7 Volume:7 Page:
ISSN:2566-6223
Container-title:Batteries & Supercaps
language:en
Short-container-title:Batteries & Supercaps

Author:

Kanti Hazra Soumya¹,Kim Hyerim²,Meskher Hicham³,Singh Punit⁴,Kansara Shivam²,Kumar Thakur Amrit⁵⁶,Ali Khan Shahid⁷,Mortuza Saleque Ahmed⁸,Saidur R.⁹,Shamsuddin Ahmed Mohammad¹⁰,Hwang Jang‐Yeon²¹¹^ORCID

Affiliation:

1. Department of Mechanical Engineering Indian Institute of Technology 801103 Patna Bihar India

2. Department of Energy Engineering Hanyang University 04763 Seoul Republic of Korea

3. Division of Process Engineering College of Science and Technology Chadli Bendjedid University Eltarf 36000 Algeria

4. Department of Mechanical Engineering Institute of Engineering and Technology GLA University Mathura Uttar Pradesh 281406 India

5. Department of Mechanical Engineering University of California 95343 Merced CA USA

6. Department of Mechanical Engineering KPR Institute of Engineering and Technology, Arasur 641407 Coimbatore Tamil Nadu India

7. Department of Mechanical Engineering City University of Hong Kong 83 Tat Chee Ave, Kowloon Tong Hong Kong China

8. Department of Electrical and Computer Engineering University of California 95616 Davis CA USA

9. Research Centre for Nanomaterials and Energy Technology (RCNMET) School of Engineering and Technology Sunway University Jalan University 47500 Bandar Sunway Selangor Malaysia

10. Institute for Energy Studies University of North Dakota 58202 Grand Forks North Dakota United States

11. Department of Battery Engineering Hanyang University 04763 Seoul Republic of Korea

Abstract

AbstractConsidering the costs, waste, and impact on the environment of current energy consumption, accurate, cost‐effective, and safely deployed energy storage systems are required. Lithium (Li)‐free redox flow batteries (RFBs) are a feasible solution. RFBs can store enormous amounts of energy effectively and are increasingly used for large‐scale applications. The use of RFBs has significantly enhanced the performance of energy storage systems and effectively reduced the costs and wastage of energy storage operations. Vanadium‐based RFBs are an emerging energy‐storage technology being explored for large‐scale deployment owing to their numerous benefits, including zero cross‐contamination, scalability, flexibility, extended life cycle, and nontoxic working state. This study describes the fundamental operating principles of redox flow battery‐based systems as well as the design considerations and constraints placed on each component. It discusses recent progress in the design and deployment of RFBs for energy‐related applications and the remaining obstacles and prospects. Finally, this study highlights the enormous potential of RFBs and suggests some solutions to scale up the use of RFBs in the near future.

Publisher

Wiley

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