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Compression-assisted absorption refrigeration using ocean thermal energy

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  • Hu, Zheng
  • Wan, Yueru
  • Zhang, Chengbin
  • Chen, Yongping

Abstract

Renewable ocean energy is regarded as an attractive candidate resource for the development of maritime cold chain systems. To meet the refrigeration requirement of seafood freezing and preservation storage, this study proposes two-type compression-assisted ammonia-water absorption refrigeration cycles using ocean thermal energy. The effects of intermediate pressure on the exergy efficiency and primary energy rate ratio are analyzed and discussed. Moreover, the role of the heat source and sink temperatures on the primary energy rate ratio was examined. The results indicated that the absorption refrigeration system with a compressor in the low-pressure stage has a higher exergy efficiency and a higher primary energy rate ratio than the corresponding compressor in the high-pressure stage. For a warm seawater temperature of 29 °C and cold seawater temperature of 8 °C, the low-pressure compression-assisted refrigeration cycle is the best solution with an exergy efficiency up to 0.284, and the optimal primary energy rate ratio equals 1.392. Furthermore, a higher primary energy rate ratio can be realized by increasing warm seawater temperature or reducing cold seawater temperature.

Suggested Citation

  • Hu, Zheng & Wan, Yueru & Zhang, Chengbin & Chen, Yongping, 2022. "Compression-assisted absorption refrigeration using ocean thermal energy," Renewable Energy, Elsevier, vol. 186(C), pages 755-768.
  • Handle: RePEc:eee:renene:v:186:y:2022:i:c:p:755-768
    DOI: 10.1016/j.renene.2022.01.036
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    References listed on IDEAS

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    Cited by:

    1. Lisong Wang & Lijuan He & Yijian He, 2024. "Review on Absorption Refrigeration Technology and Its Potential in Energy-Saving and Carbon Emission Reduction in Natural Gas and Hydrogen Liquefaction," Energies, MDPI, vol. 17(14), pages 1-51, July.
    2. Mortadi, M. & El Fadar, A. & Achkari Begdouri, O., 2024. "4E analysis of photovoltaic thermal collector-based tri-generation system with adsorption cooling: Annual simulation under Moroccan climate conditions," Renewable Energy, Elsevier, vol. 221(C).
    3. Hu, Zheng & Chen, Yongping & Zhang, Chengbin, 2024. "Role of R717 blends in ocean thermal energy conversion organic Rankine cycle," Renewable Energy, Elsevier, vol. 221(C).
    4. Ji, Qiang & Wang, Yikai & Yin, Yonggao & Wang, Mu & Che, Chunwen & Cao, Bowen & Chen, Wanhe, 2023. "Cooling performance of compression-absorption cascade system with novel ternary ionic-liquid working pair," Energy, Elsevier, vol. 278(PB).
    5. Cong Jiao & Zeyu Li, 2023. "An Updated Review of Solar Cooling Systems Driven by Photovoltaic–Thermal Collectors," Energies, MDPI, vol. 16(14), pages 1-34, July.
    6. Hu, Zheng & Deng, Zilong & Gao, Wei & Chen, Yongping, 2023. "Experimental study of the absorption refrigeration using ocean thermal energy and its under-lying prospects," Renewable Energy, Elsevier, vol. 213(C), pages 47-62.
    7. Xiao, Chenglong & Hu, Zheng & Chen, Yongping & Zhang, Chengbin, 2024. "Thermodynamic, economic, exergoeconomic analysis of an integrated ocean thermal energy conversion system," Renewable Energy, Elsevier, vol. 225(C).
    8. Li, Deming & Deng, Zilong & Zhang, Chengbin, 2024. "Thermodynamic process control of compression-assisted absorption refrigeration using ocean thermal energy," Renewable Energy, Elsevier, vol. 222(C).
    9. Baby-Jean Robert Mungyeko Bisulandu & Rami Mansouri & Adrian Ilinca, 2023. "Diffusion Absorption Refrigeration Systems: An Overview of Thermal Mechanisms and Models," Energies, MDPI, vol. 16(9), pages 1-36, April.

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