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A review of studies using nanofluids in flat-plate and direct absorption solar collectors

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  • Raj, Pankaj
  • Subudhi, Sudhakar

Abstract

With increasing energy demands worldwide, the consumption of fossil fuels has increased unprecedently which are scarce in nature. This has led to environmental degradation and global warming which is a matter of concern. These factors lead to the rise in renewable energy sector in last decade. Among various renewable energy sources, solar energy is most exclusively used because of its ease of availability and least impact on the environment. Flat plate solar collector is most widely used solar collector but is less efficient (low capability to convert solar energy to thermal energy). The use of nanofluid (fluid obtained by mixing nanoparticle in base fluid) in place of base fluid has improved effect on thermophysical properties such as thermal conductivity. The use of nanofluid on flat plate solar collector (FPSC) & direct absorption solar collector (DASC) can be identified as an effective way to enhance the performance of solar collector. With the advancement in nanotechnology and growing thrust over increasing the performance of solar devices a lot of work has been done in this regard. The purpose of this literature review is to summarize the various research work done on the application of nanofluid in solar thermal devices. This review paper identifies the effect of various parameters and the optimum working condition. This paper also identifies the probable challenges we ought to face while developing thermal collector using nanofluids thus identifying the opportunities for future research.

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  • Raj, Pankaj & Subudhi, Sudhakar, 2018. "A review of studies using nanofluids in flat-plate and direct absorption solar collectors," Renewable and Sustainable Energy Reviews, Elsevier, vol. 84(C), pages 54-74.
  • Handle: RePEc:eee:rensus:v:84:y:2018:i:c:p:54-74
    DOI: 10.1016/j.rser.2017.10.012
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    1. Sharaf, Omar Z. & Al-Khateeb, Ashraf N. & Kyritsis, Dimitrios C. & Abu-Nada, Eiyad, 2018. "Direct absorption solar collector (DASC) modeling and simulation using a novel Eulerian-Lagrangian hybrid approach: Optical, thermal, and hydrodynamic interactions," Applied Energy, Elsevier, vol. 231(C), pages 1132-1145.
    2. Rahimi Telwar, Donya & Khodaei, Jalal & Samimi-Akhijahani, Hadi, 2024. "Thermo-economic evaluation and structural simulation of a parabolic solar collector (PTC) integrated with a desalination system," Energy, Elsevier, vol. 299(C).
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    4. Seyed Reza Shamshirgaran & Hussain H. Al-Kayiem & Korada V. Sharma & Mostafa Ghasemi, 2020. "State of the Art of Techno-Economics of Nanofluid-Laden Flat-Plate Solar Collectors for Sustainable Accomplishment," Sustainability, MDPI, vol. 12(21), pages 1-52, November.
    5. Wang, Tianmi & Si, Qiaoling & Hu, Yang & Tang, Guihua & Chua, Kian Jon, 2023. "Silica aerogel composited with both plasmonic nanoparticles and opacifiers for high-efficiency photo-thermal harvest," Energy, Elsevier, vol. 265(C).
    6. Murtadha Zahi Khattar & Mohammad Mahdi Heyhat, 2022. "Exergy, Economic and Environmental Analysis of a Direct Absorption Parabolic Trough Collector Filled with Porous Metal Foam," Energies, MDPI, vol. 15(21), pages 1-17, November.
    7. Pavel G. Struchalin & Dmitrii M. Kuzmenkov & Vladimir S. Yunin & Xinzhi Wang & Yurong He & Boris V. Balakin, 2022. "Hybrid Nanofluid in a Direct Absorption Solar Collector: Magnetite vs. Carbon Nanotubes Compete for Thermal Performance," Energies, MDPI, vol. 15(5), pages 1-8, February.
    8. Sainz-Mañas, Miguel & Bataille, Françoise & Caliot, Cyril & Vossier, Alexis & Flamant, Gilles, 2022. "Direct absorption nanofluid-based solar collectors for low and medium temperatures. A review," Energy, Elsevier, vol. 260(C).
    9. Shen, Chao & Lv, Guoquan & Wei, Shen & Zhang, Chunxiao & Ruan, Changyun, 2020. "Investigating the performance of a novel solar lighting/heating system using spectrum-sensitive nanofluids," Applied Energy, Elsevier, vol. 270(C).
    10. Kumar, Sanjay & Sharma, Vipin & Samantaray, Manas R. & Chander, Nikhil, 2020. "Experimental investigation of a direct absorption solar collector using ultra stable gold plasmonic nanofluid under real outdoor conditions," Renewable Energy, Elsevier, vol. 162(C), pages 1958-1969.
    11. Ma, Ting & Guo, Zhixiong & Lin, Mei & Wang, Qiuwang, 2021. "Recent trends on nanofluid heat transfer machine learning research applied to renewable energy," Renewable and Sustainable Energy Reviews, Elsevier, vol. 138(C).
    12. Vakili, Masoud & Yahyaei, Masood & Ramsay, James & Aghajannezhad, Pouria & Paknezhad, Behnaz, 2021. "Adaptive neuro-fuzzy inference system modeling to predict the performance of graphene nanoplatelets nanofluid-based direct absorption solar collector based on experimental study," Renewable Energy, Elsevier, vol. 163(C), pages 807-824.
    13. Shamshirgaran, Seyed Reza & Khalaji Assadi, Morteza & Badescu, Viorel & Al-Kayiem, Hussain H., 2018. "Upper limits for the work extraction by nanofluid-filled selective flat-plate solar collectors," Energy, Elsevier, vol. 160(C), pages 875-885.
    14. Chen, Xingyu & Zhou, Ping & Yan, Hongjie & Chen, Meijie, 2021. "Systematically investigating solar absorption performance of plasmonic nanoparticles," Energy, Elsevier, vol. 216(C).
    15. Akram, Naveed & Montazer, Elham & Kazi, S.N. & Soudagar, Manzoore Elahi M. & Ahmed, Waqar & Zubir, Mohd Nashrul Mohd & Afzal, Asif & Muhammad, Mohd Ridha & Ali, Hafiz Muhammad & Márquez, Fausto Pedro , 2021. "Experimental investigations of the performance of a flat-plate solar collector using carbon and metal oxides based nanofluids," Energy, Elsevier, vol. 227(C).
    16. Ham, Jeonggyun & Shin, Yunchan & Cho, Honghyun, 2022. "Comparison of thermal performance between a surface and a volumetric absorption solar collector using water and Fe3O4 nanofluid," Energy, Elsevier, vol. 239(PC).
    17. Mehrali, Mohammad & Ghatkesar, Murali Krishna & Pecnik, Rene, 2018. "Full-spectrum volumetric solar thermal conversion via graphene/silver hybrid plasmonic nanofluids," Applied Energy, Elsevier, vol. 224(C), pages 103-115.

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