Electrochemical performance of 5 kW all-vanadium redox flow battery stack with a flow frame of multi-distribution channels

Xiongwei Wu; Xinhai Yuan; Zhian Wang; Jun Liu; Yongqing Hu; Qi Deng; Xingrong Yin; Qingming Zhou; Wenxin Zhou; Yuping Wu

doi:10.1007/s10008-016-3361-x

Electrochemical performance of 5 kW all-vanadium redox flow battery stack with a flow frame of multi-distribution channels

Xiongwei Wu, Xinhai Yuan, Zhian Wang, Jun Liu, Yongqing Hu, Qi Deng, Xingrong Yin, Qingming Zhou, Wenxin Zhou, Yuping Wu

能源科学与工程学院

科研成果: 期刊稿件 › 文章 › 同行评审

38 引用（Scopus）

摘要

In this paper, a flow frame with multi-distribution channels is designed. The electrolyte flow distribution in the graphite felt electrode is simulated to be uniform at some degree with the tool of a commercial computational fluid dynamics (CFD) package of Star-CCM+. A 5 kW-class vanadium redox flow battery (VRB) stack composed of 40 single cells is assembled. The electrochemical performance of the VRB stack is investigated. Under the applied current density of 60 mA cm⁻² during the charge and discharge processes, the current and energy efficiencies are delivered to be 93.9 and 80.8 %, respectively. A higher average output power of 7.2 kW can be achieved at the current density of 80 mA cm⁻² with a lower energy efficiency of 78.4 %. The studies of kW-class VRB stack can be beneficial to the development of large-scale energy storage.

源语言	英语
页（从-至）	429-435
页数	7
期刊	Journal of Solid State Electrochemistry
卷	21
期	2
DOI	https://doi.org/10.1007/s10008-016-3361-x
出版状态	已出版 - 1 2月 2017

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title = "Electrochemical performance of 5 kW all-vanadium redox flow battery stack with a flow frame of multi-distribution channels",

abstract = "In this paper, a flow frame with multi-distribution channels is designed. The electrolyte flow distribution in the graphite felt electrode is simulated to be uniform at some degree with the tool of a commercial computational fluid dynamics (CFD) package of Star-CCM+. A 5 kW-class vanadium redox flow battery (VRB) stack composed of 40 single cells is assembled. The electrochemical performance of the VRB stack is investigated. Under the applied current density of 60 mA cm−2 during the charge and discharge processes, the current and energy efficiencies are delivered to be 93.9 and 80.8 %, respectively. A higher average output power of 7.2 kW can be achieved at the current density of 80 mA cm−2 with a lower energy efficiency of 78.4 %. The studies of kW-class VRB stack can be beneficial to the development of large-scale energy storage.",

keywords = "CFD, Current and energy efficiencies, Multi-distribution channels design, Vanadium redox flow battery",

author = "Xiongwei Wu and Xinhai Yuan and Zhian Wang and Jun Liu and Yongqing Hu and Qi Deng and Xingrong Yin and Qingming Zhou and Wenxin Zhou and Yuping Wu",

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T1 - Electrochemical performance of 5 kW all-vanadium redox flow battery stack with a flow frame of multi-distribution channels

AU - Wu, Xiongwei

AU - Yuan, Xinhai

AU - Wang, Zhian

AU - Liu, Jun

AU - Hu, Yongqing

AU - Deng, Qi

AU - Yin, Xingrong

AU - Zhou, Qingming

AU - Zhou, Wenxin

AU - Wu, Yuping

PY - 2017/2/1

Y1 - 2017/2/1

N2 - In this paper, a flow frame with multi-distribution channels is designed. The electrolyte flow distribution in the graphite felt electrode is simulated to be uniform at some degree with the tool of a commercial computational fluid dynamics (CFD) package of Star-CCM+. A 5 kW-class vanadium redox flow battery (VRB) stack composed of 40 single cells is assembled. The electrochemical performance of the VRB stack is investigated. Under the applied current density of 60 mA cm−2 during the charge and discharge processes, the current and energy efficiencies are delivered to be 93.9 and 80.8 %, respectively. A higher average output power of 7.2 kW can be achieved at the current density of 80 mA cm−2 with a lower energy efficiency of 78.4 %. The studies of kW-class VRB stack can be beneficial to the development of large-scale energy storage.

AB - In this paper, a flow frame with multi-distribution channels is designed. The electrolyte flow distribution in the graphite felt electrode is simulated to be uniform at some degree with the tool of a commercial computational fluid dynamics (CFD) package of Star-CCM+. A 5 kW-class vanadium redox flow battery (VRB) stack composed of 40 single cells is assembled. The electrochemical performance of the VRB stack is investigated. Under the applied current density of 60 mA cm−2 during the charge and discharge processes, the current and energy efficiencies are delivered to be 93.9 and 80.8 %, respectively. A higher average output power of 7.2 kW can be achieved at the current density of 80 mA cm−2 with a lower energy efficiency of 78.4 %. The studies of kW-class VRB stack can be beneficial to the development of large-scale energy storage.

KW - CFD

KW - Current and energy efficiencies

KW - Multi-distribution channels design

KW - Vanadium redox flow battery

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M3 - 文章

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SN - 1432-8488

VL - 21

SP - 429

EP - 435

JO - Journal of Solid State Electrochemistry

JF - Journal of Solid State Electrochemistry

IS - 2

ER -

Electrochemical performance of 5 kW all-vanadium redox flow battery stack with a flow frame of multi-distribution channels

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