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Numerical optimization of the occupancy rate of thermoelectric generators to produce the highest electrical power

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  • Favarel, Camille
  • Bédécarrats, Jean-Pierre
  • Kousksou, Tarik
  • Champier, Daniel

Abstract

The electric power generated by thermoelectric modules obviously depends not only on the nature of the modules but also on heat transfers on both sides of these modules. In addition to the improvement of the thermoelectric material and module, analysis of thermoelectric systems is equally important in achieving their high-performance.

Suggested Citation

  • Favarel, Camille & Bédécarrats, Jean-Pierre & Kousksou, Tarik & Champier, Daniel, 2014. "Numerical optimization of the occupancy rate of thermoelectric generators to produce the highest electrical power," Energy, Elsevier, vol. 68(C), pages 104-116.
  • Handle: RePEc:eee:energy:v:68:y:2014:i:c:p:104-116
    DOI: 10.1016/j.energy.2014.02.030
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    References listed on IDEAS

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    6. Gou, Xiaolong & Yang, Suwen & Xiao, Heng & Ou, Qiang, 2013. "A dynamic model for thermoelectric generator applied in waste heat recovery," Energy, Elsevier, vol. 52(C), pages 201-209.
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    8. Lee, HoSung, 2013. "The Thomson effect and the ideal equation on thermoelectric coolers," Energy, Elsevier, vol. 56(C), pages 61-69.
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    2. Ma, Ting & Lu, Xing & Pandit, Jaideep & Ekkad, Srinath V. & Huxtable, Scott T. & Deshpande, Samruddhi & Wang, Qiu-wang, 2017. "Numerical study on thermoelectric–hydraulic performance of a thermoelectric power generator with a plate-fin heat exchanger with longitudinal vortex generators," Applied Energy, Elsevier, vol. 185(P2), pages 1343-1354.
    3. Elankovan, R. & Suresh, S. & Karthick, Krishnadass & Hussain, Mohammed Muaaz M.D. & Chandramohan, V.P., 2019. "Evaluation of thermoelectric power generated through waste heat recovery from long ducts and different thermal system configurations," Energy, Elsevier, vol. 185(C), pages 477-491.
    4. Ding, L.C. & Akbarzadeh, A. & Tan, L., 2018. "A review of power generation with thermoelectric system and its alternative with solar ponds," Renewable and Sustainable Energy Reviews, Elsevier, vol. 81(P1), pages 799-812.
    5. Montecucco, Andrea & Siviter, Jonathan & Knox, Andrew R., 2015. "Constant heat characterisation and geometrical optimisation of thermoelectric generators," Applied Energy, Elsevier, vol. 149(C), pages 248-258.
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    7. Siddique, Abu Raihan Mohammad & Rabari, Ronil & Mahmud, Shohel & Heyst, Bill Van, 2016. "Thermal energy harvesting from the human body using flexible thermoelectric generator (FTEG) fabricated by a dispenser printing technique," Energy, Elsevier, vol. 115(P1), pages 1081-1091.
    8. Chen, Wei-Hsin & Huang, Shih-Rong & Lin, Yu-Li, 2015. "Performance analysis and optimum operation of a thermoelectric generator by Taguchi method," Applied Energy, Elsevier, vol. 158(C), pages 44-54.
    9. He, Wei & Guo, Rui & Takasu, Hiroki & Kato, Yukitaka & Wang, Shixue, 2019. "Performance optimization of common plate-type thermoelectric generator in vehicle exhaust power generation systems," Energy, Elsevier, vol. 175(C), pages 1153-1163.
    10. He, Wei & Guo, Rui & Liu, Shengchun & Zhu, Kai & Wang, Shixue, 2020. "Temperature gradient characteristics and effect on optimal thermoelectric performance in exhaust power-generation systems," Applied Energy, Elsevier, vol. 261(C).
    11. Björn Pfeiffelmann & Ali Cemal Benim & Franz Joos, 2021. "Water-Cooled Thermoelectric Generators for Improved Net Output Power: A Review," Energies, MDPI, vol. 14(24), pages 1-29, December.
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    13. We, Ju Hyung & Kim, Sun Jin & Cho, Byung Jin, 2014. "Hybrid composite of screen-printed inorganic thermoelectric film and organic conducting polymer for flexible thermoelectric power generator," Energy, Elsevier, vol. 73(C), pages 506-512.

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