Flue gas waste heat thermoelectric generator: Laboratory experiment and demonstration application

Promoting the efficiency of internal-combustion engine has great benefits, including low fuel-consumption rate and environmental friendliness. Flue gas waste heat thermoelectric generator (TEG) is such a promising solution owning to its solid-state energy conversion and structural simplicity. In thi...

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Published inCase studies in thermal engineering Vol. 61; p. 104953
Main Authors Li, Guoneng, Yang, Yibo, Xiao, Yan, Liu, Shaojun, Wen, Hanjun, Jiang, Pengtao, Guo, Wenwen, Tang, Yuanjun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2024
Elsevier
Subjects
Demonstration application
Heat collection enhancing strategy
Heat collector contamination
Thermoelectric generator
Waste heat utilization
Demonstration application
Waste heat utilization
Thermoelectric generator
Heat collection enhancing strategy
Heat collector contamination
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Abstract Promoting the efficiency of internal-combustion engine has great benefits, including low fuel-consumption rate and environmental friendliness. Flue gas waste heat thermoelectric generator (TEG) is such a promising solution owning to its solid-state energy conversion and structural simplicity. In this work, a novel heat collection enhancing strategy is first proposed to improve the uniformity of hot-end temperature distribution, which greatly augments the power generation performance under limited pressure drops. A flue gas waste heat TEG unit with 24 TE modules is able to generate an electric power of 103 W under the pressure drop of 375 Pa. The corresponding heat collection, TE, and overall efficiencies of the TEG unit are 36.53 %, 4.30 %, and 1.58 %, respectively. Several important parameters, including flue gas inlet temperature, cooling intensity, cooling mode, and TEG unit arrangement are explored in detail. A demonstration application of an 8-unit waste heat TEG is installed in an 800-ton inland waterway vessel on China's Grand Canal, and the waterway vessel is put into service for over three months. The generated electric power varies between 23.3 W and 463 W, and the average electric power is 177.6 W during the trip.
AbstractList Promoting the efficiency of internal-combustion engine has great benefits, including low fuel-consumption rate and environmental friendliness. Flue gas waste heat thermoelectric generator (TEG) is such a promising solution owning to its solid-state energy conversion and structural simplicity. In this work, a novel heat collection enhancing strategy is first proposed to improve the uniformity of hot-end temperature distribution, which greatly augments the power generation performance under limited pressure drops. A flue gas waste heat TEG unit with 24 TE modules is able to generate an electric power of 103 W under the pressure drop of 375 Pa. The corresponding heat collection, TE, and overall efficiencies of the TEG unit are 36.53 %, 4.30 %, and 1.58 %, respectively. Several important parameters, including flue gas inlet temperature, cooling intensity, cooling mode, and TEG unit arrangement are explored in detail. A demonstration application of an 8-unit waste heat TEG is installed in an 800-ton inland waterway vessel on China's Grand Canal, and the waterway vessel is put into service for over three months. The generated electric power varies between 23.3 W and 463 W, and the average electric power is 177.6 W during the trip.
ArticleNumber 104953
Author Xiao, Yan
Tang, Yuanjun
Yang, Yibo
Jiang, Pengtao
Guo, Wenwen
Li, Guoneng
Wen, Hanjun
Liu, Shaojun
Author_xml – sequence: 1
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  orcidid: 0000-0002-6366-3683
  surname: Li
  fullname: Li, Guoneng
  email: 109026@zust.edu.cn
  organization: Department of Energy and Environment System Engineering, Zhejiang University of Science and Technology, Hangzhou, 310023, China
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  givenname: Yibo
  surname: Yang
  fullname: Yang, Yibo
  organization: Department of Energy and Environment System Engineering, Zhejiang University of Science and Technology, Hangzhou, 310023, China
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  givenname: Yan
  surname: Xiao
  fullname: Xiao, Yan
  organization: CCTEG Hangzhou Research Institute Co., Ltd., Hangzhou, 311201, China
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  surname: Tang
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  organization: Department of Energy and Environment System Engineering, Zhejiang University of Science and Technology, Hangzhou, 310023, China
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Keywords Demonstration application
Waste heat utilization
Thermoelectric generator
Heat collection enhancing strategy
Heat collector contamination
Language English
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Snippet Promoting the efficiency of internal-combustion engine has great benefits, including low fuel-consumption rate and environmental friendliness. Flue gas waste...
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StartPage 104953
SubjectTerms Demonstration application
Heat collection enhancing strategy
Heat collector contamination
Thermoelectric generator
Waste heat utilization
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Title Flue gas waste heat thermoelectric generator: Laboratory experiment and demonstration application
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