Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance
Flat plate solar collectors (FPSCs) have gotten a lot of attention in the last decade because of their ease of installation and design. The current study focused on numerical aspects of a three-dimensional (3D) inclined tube-on-absorbing sheet solar collector. The numerical model was considered to w...
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my.um.eprints.423562023-10-09T07:37:59Z http://eprints.um.edu.my/42356/ Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance Alawi, Omer A. Kamar, Haslinda Mohamed Abdelrazek, Ali H. Mallah, A. R. Mohammed, Hussein A. Abdulla, Aziz Ibrahim Gatea, Hamed Alwan Khiadani, Mehdi Kazi, Salim Newaz Yaseen, Zaher Mundher Q Science (General) TJ Mechanical engineering and machinery Flat plate solar collectors (FPSCs) have gotten a lot of attention in the last decade because of their ease of installation and design. The current study focused on numerical aspects of a three-dimensional (3D) inclined tube-on-absorbing sheet solar collector. The numerical model was considered to work under a conjugated laminar mixed convection heat transfer mechanism in the range of 100 <= Re <= 1300. CuO/H2O nanofluids were used as the working fluids. The impact of different parameters on the thermal efficiency of the current FPSC, including inlet temperature, nanoparticle size, volume concentration, and various copper oxide morphologies, on the heat transfer, thermodynamics, thermal, and economic performance, was studied. According to simulation results, the solar collector using distilled water (DW) under 293 K performed better in terms of heat transfer and energy efficiency than those using 303 K and 313 K. In comparison to other sizes and volume concentrations, nanosphere nanofluids with 20 nm and 4% showed higher hydrothermal performance characteristics. Nanoplatelets-shaped CuO nanofluids illustrated the higher values for pressure drop, heat transfer, energy gain, energy efficiency, and lower values for surface plate temperature and outlet temperature, followed by nano -cylinders, nanoblades, nanobricks, and nanospheres, respectively. The economic performance indicators rec-ommended that nanobricks CuO nanofluids with 1% volume fraction were the best fluid replacement for water in solar collector applications. Elsevier 2022-02 Article PeerReviewed Alawi, Omer A. and Kamar, Haslinda Mohamed and Abdelrazek, Ali H. and Mallah, A. R. and Mohammed, Hussein A. and Abdulla, Aziz Ibrahim and Gatea, Hamed Alwan and Khiadani, Mehdi and Kazi, Salim Newaz and Yaseen, Zaher Mundher (2022) Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance. Sustainable Energy Technologies and Assessments, 49. ISSN 2213-1388, DOI https://doi.org/10.1016/j.seta.2021.101772 <https://doi.org/10.1016/j.seta.2021.101772>. 10.1016/j.seta.2021.101772 |
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Q Science (General) TJ Mechanical engineering and machinery Alawi, Omer A. Kamar, Haslinda Mohamed Abdelrazek, Ali H. Mallah, A. R. Mohammed, Hussein A. Abdulla, Aziz Ibrahim Gatea, Hamed Alwan Khiadani, Mehdi Kazi, Salim Newaz Yaseen, Zaher Mundher Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance |
| description |
Flat plate solar collectors (FPSCs) have gotten a lot of attention in the last decade because of their ease of installation and design. The current study focused on numerical aspects of a three-dimensional (3D) inclined tube-on-absorbing sheet solar collector. The numerical model was considered to work under a conjugated laminar mixed convection heat transfer mechanism in the range of 100 <= Re <= 1300. CuO/H2O nanofluids were used as the working fluids. The impact of different parameters on the thermal efficiency of the current FPSC, including inlet temperature, nanoparticle size, volume concentration, and various copper oxide morphologies, on the heat transfer, thermodynamics, thermal, and economic performance, was studied. According to simulation results, the solar collector using distilled water (DW) under 293 K performed better in terms of heat transfer and energy efficiency than those using 303 K and 313 K. In comparison to other sizes and volume concentrations, nanosphere nanofluids with 20 nm and 4% showed higher hydrothermal performance characteristics. Nanoplatelets-shaped CuO nanofluids illustrated the higher values for pressure drop, heat transfer, energy gain, energy efficiency, and lower values for surface plate temperature and outlet temperature, followed by nano -cylinders, nanoblades, nanobricks, and nanospheres, respectively. The economic performance indicators rec-ommended that nanobricks CuO nanofluids with 1% volume fraction were the best fluid replacement for water in solar collector applications. |
| format |
Article |
| author |
Alawi, Omer A. Kamar, Haslinda Mohamed Abdelrazek, Ali H. Mallah, A. R. Mohammed, Hussein A. Abdulla, Aziz Ibrahim Gatea, Hamed Alwan Khiadani, Mehdi Kazi, Salim Newaz Yaseen, Zaher Mundher |
| author_facet |
Alawi, Omer A. Kamar, Haslinda Mohamed Abdelrazek, Ali H. Mallah, A. R. Mohammed, Hussein A. Abdulla, Aziz Ibrahim Gatea, Hamed Alwan Khiadani, Mehdi Kazi, Salim Newaz Yaseen, Zaher Mundher |
| author_sort |
Alawi, Omer A. |
| title |
Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance |
| title_short |
Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance |
| title_full |
Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance |
| title_fullStr |
Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance |
| title_full_unstemmed |
Hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: Economic performance |
| title_sort |
hydrothermal and energy analysis of flat plate solar collector using copper oxide nanomaterials with different morphologies: economic performance |
| publisher |
Elsevier |
| publishDate |
2022 |
| url |
http://eprints.um.edu.my/42356/ |
| _version_ |
1781704632327733248 |