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Performance analysis of a solar photochemical photovoltaic hybrid system for decolorization of Acid Red 26 (AR 26)

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Listed:
  • Cui, Lingyun
  • Zhu, Li
  • Huang, Qunwu
  • Wang, Yiping
  • Jin, Yanchao
  • Sun, Yong
  • Cui, Yong
  • Chen, Miao
  • Fan, Jiangyang

Abstract

To reduce the power energy consumption of wastewater treatment and make full use of the solar spectrum, a new water purification system that integrated homogeneous solar photochemical (SPC) and photovoltaics (PV) was constructed to treat wastewater and generate electricity for the first time. Hydrogen peroxide (H2O2) and potassium persulfate (K2S2O8) were chosen as oxidants in the system and have a comparative analysis. The results show that solar/K2S2O8 has a higher decolorization efficiency than solar/H2O2, the accumulated ultraviolet energy in solar/K2S2O8, needed for complete decolorization, is far lower than in solar/H2O2. Also temperature has a positive effect on the dark-K2S2O8 processes especially in the range of 40–60 °C, and it follows pseudo-first-order kinetic relationship. Meanwhile, to investigate the influence of flow channel on PV, the short circuit current (Isc) and maximum output power (Pm) were monitored. It indicates that the presence of flow channel effectively decreases the working temperature of PV modules, while the Isc and Pm have a different degree reduce. Luckily, the impact is not big. Additionally, Pm in experiment system, though lower than reference system, is sufficient to drive the whole system.

Suggested Citation

  • Cui, Lingyun & Zhu, Li & Huang, Qunwu & Wang, Yiping & Jin, Yanchao & Sun, Yong & Cui, Yong & Chen, Miao & Fan, Jiangyang, 2017. "Performance analysis of a solar photochemical photovoltaic hybrid system for decolorization of Acid Red 26 (AR 26)," Energy, Elsevier, vol. 127(C), pages 209-217.
    • Handle: RePEc:eee:energy:v:127:y:2017:i:c:p:209-217
    DOI: 10.1016/j.energy.2017.03.033
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    References listed on IDEAS

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    1. Mark A. Shannon & Paul W. Bohn & Menachem Elimelech & John G. Georgiadis & Benito J. Mariñas & Anne M. Mayes, 2008. "Science and technology for water purification in the coming decades," Nature, Nature, vol. 452(7185), pages 301-310, March.
    2. Pichel, N. & Vivar, M. & Fuentes, M., 2016. "Performance analysis of a solar photovoltaic hybrid system for electricity generation and simultaneous water disinfection of wild bacteria strains," Applied Energy, Elsevier, vol. 171(C), pages 103-112.
    3. Wang, Yiping & Jin, Yanchao & Huang, Qunwu & Zhu, Li & Vivar, Marta & Qin, Lianwei & Sun, Yong & Cui, Yong & Cui, Lingyun, 2016. "Photovoltaic and disinfection performance study of a hybrid photovoltaic-solar water disinfection system," Energy, Elsevier, vol. 106(C), pages 757-764.
    4. Wang, Zhen & Wang, Yiping & Vivar, Marta & Fuentes, Manuel & Zhu, Li & Qin, Lianwei, 2014. "Photovoltaic and photocatalytic performance study of SOLWAT system for the degradation of Methylene Blue, Acid Red 26 and 4-Chlorophenol," Applied Energy, Elsevier, vol. 120(C), pages 1-10.
    5. Qin, Lianwei & Wang, Yiping & Vivar, Marta & Huang, Qunwu & Zhu, Li & Fuentes, Manuel & Wang, Zhen, 2015. "Comparison of photovoltaic and photocatalytic performance of non-concentrating and V-trough SOLWAT (solar water purification and renewable electricity generation) systems for water purification," Energy, Elsevier, vol. 85(C), pages 251-260.
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    Cited by:

    1. Zhang, Wei & Chen, Miao & Zhang, Shaofeng & Wang, Yiping, 2020. "Designation of a solar falling-film photochemical hybrid system for the decolorization of azo dyes," Energy, Elsevier, vol. 197(C).

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