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A concentrating photovoltaic/Kalina cycle coupled with absorption chiller

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  • Qu, Wanjun
  • Hong, Hui
  • Su, Bosheng
  • Tang, Sanli
  • Jin, Hongguang

Abstract

In this paper, we propose a concentrating photovoltaic/Kalina cycle having an absorption chiller. Here, the waste heat from photovoltaic cells can be recovered by an absorption chiller, and the produced cold energy is used to cool the turbine-outlet working fluid of the Kalina cycle. Compared with Kalina cycle without absorption chiller, output mechanical power from cycle can be increased due to the enhancement of turbine expansion ratio. A typical monocrystalline photovoltaic/Kalina cycle having absorption chiller is described. The influence of key parameters on the thermal performance is examined, such as photovoltaic temperature and direct normal irradiation. The results show that the waste heat with a temperature between 60 °C and 70 °C can be used for producing mechanical power by an efficiency among 4–5%. In comparison with the referenced Kalina cycle without further cooling the working fluid, the Kalina cycle having absorption chiller has a potential increase in the efficiency among 2–3%. As for the concentrating photovoltaics, the solar-to-electricity efficiency reaches about 24% while photovoltaic efficiency is about 4.2% without cooling. This work provides a new way to efficiently use the solar energy by combining photovoltaics and thermal cycles.

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  • Qu, Wanjun & Hong, Hui & Su, Bosheng & Tang, Sanli & Jin, Hongguang, 2018. "A concentrating photovoltaic/Kalina cycle coupled with absorption chiller," Applied Energy, Elsevier, vol. 224(C), pages 481-493.
    • Handle: RePEc:eee:appene:v:224:y:2018:i:c:p:481-493
    DOI: 10.1016/j.apenergy.2018.04.093
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    Cited by:

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    3. Fang, Juan & Wu, Handong & Liu, Taixiu & Zheng, Zhimei & Lei, Jing & Liu, Qibin & Jin, Hongguang, 2020. "Thermodynamic evaluation of a concentrated photochemical–photovoltaic–thermochemical (CP-PV-T) system in the full-spectrum solar energy utilization," Applied Energy, Elsevier, vol. 279(C).
    4. Qu, Wanjun & Xing, Xueli & Cao, Yali & Liu, Taixiu & Hong, Hui & Jin, Hongguang, 2020. "A concentrating solar power system integrated photovoltaic and mid-temperature solar thermochemical processes," Applied Energy, Elsevier, vol. 262(C).
    5. Hao, Xinyue & Zhou, Yifan & Wang, Qin & Gao, Neng & Wang, Xuehui & Chen, Guangming, 2023. "Prospective study of a novel heat pump system with solar energy spectral beam splitting," Renewable Energy, Elsevier, vol. 217(C).
    6. Li, Jinyu & Yang, Zhengda & Ge, Yi & Wang, Yiya & Dong, Qiwei & Wang, Xinwei & Lin, Riyi, 2024. "Performance study of photovoltaic-thermochemical hybrid system with Cassegrain concentrator and spectral splitting integration," Energy, Elsevier, vol. 292(C).
    7. Su, Bosheng & Han, Wei & Zhang, Xiaosong & Chen, Yi & Wang, Zefeng & Jin, Hongguang, 2018. "Assessment of a combined cooling, heating and power system by synthetic use of biogas and solar energy," Applied Energy, Elsevier, vol. 229(C), pages 922-935.
    8. Su, Bosheng & Han, Wei & Qu, Wanjun & Liu, Changchun & Jin, Hongguang, 2018. "A new hybrid photovoltaic/thermal and liquid desiccant system for trigeneration application," Applied Energy, Elsevier, vol. 226(C), pages 808-818.
    9. Tang, Sanli & Hong, Hui & Jin, Hongguang & Xuan, Yimin, 2019. "A cascading solar hybrid system for co-producing electricity and solar syngas with nanofluid spectrum selector," Applied Energy, Elsevier, vol. 248(C), pages 231-240.
    10. Li, Jinyu & Yang, Zhengda & Wang, Yiya & Dong, Qiwei & Qi, Shitao & Huang, Chenxing & Wang, Xinwei & Lin, Riyi, 2023. "A novel non-confocal two-stage dish concentrating photovoltaic/thermal hybrid system utilizing spectral beam splitting technology: Optical and thermal performance investigations," Renewable Energy, Elsevier, vol. 206(C), pages 609-622.

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