Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies
The flat-plate solar collector (FPSC) three-dimensional (3D) model was used to numerically evaluate the energy and economic estimates. A laminar flow with 500 = Re = 1900, an inlet temperature of 293 K, and a solar flux of 1000 W/m2 were assumed the operating conditions. Two mono nanofluids, CuO-DW...
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| Online Access: | http://eprints.utm.my/106803/1/HaslindaMohamedKamar2023_EnergyAndCostManagementOfDifferentMixingRatios.pdf http://eprints.utm.my/106803/ http://dx.doi.org/10.1080/19942060.2022.2164620 |
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my.utm.1068032024-07-30T08:05:33Z http://eprints.utm.my/106803/ Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies Tao, Hai Aldlemy, Mohammed Suleman Alawi, Omer A. Mohamed Kamar, Haslinda Homod, Raad Z. Mohammed, Hussein A. Mohammed, Mustafa K. A. Mallah, Abdul Rahman Al-Ansari, Nadhir Yaseen, Zaher Mundher TJ Mechanical engineering and machinery The flat-plate solar collector (FPSC) three-dimensional (3D) model was used to numerically evaluate the energy and economic estimates. A laminar flow with 500 = Re = 1900, an inlet temperature of 293 K, and a solar flux of 1000 W/m2 were assumed the operating conditions. Two mono nanofluids, CuO-DW and Cu-DW, were tested with different shapes (Spherical, Cylindrical, Platelets, and Blades) and different volume fractions. Additionally, hybrid nanocomposites from CuO@Cu/DW with different shapes (Spherical, Cylindrical, Platelets and Blades), different mixing ratios (60% + 40%, 50% + 50% and 40% + 60%) and different volume fractions (1 volume%, 2 volume%, 3 volume% and 4 volume%) were compared with mono nanofluids. At 1 volume% and Re = 1900, CuO-Platelets demonstrated the highest pressure drop (33.312 Pa). CuO-Platelets achieved the higher thermal enhancement with (8.761%) at 1 vol.% and Re = 1900. CuO-Platelets reduced the size of the solar collector by 25.60%. Meanwhile, CuO@Cu-Spherical (40:60) needed a larger collector size with 16.69% at 4 vol.% and Re = 1900. CuO-Platelets with 967.61, CuO–Cylindrical with 976.76, Cu Platelets with 983.84, and Cu-Cylindrical with 992.92 presented the lowest total cost. Meanwhile, the total cost of CuO–Cu–Platelets with 60:40, 50:50, and 40:60 was 994.82, 996.18, and 997.70, respectively. Taylor and Francis Ltd. 2023 Article PeerReviewed application/pdf en http://eprints.utm.my/106803/1/HaslindaMohamedKamar2023_EnergyAndCostManagementOfDifferentMixingRatios.pdf Tao, Hai and Aldlemy, Mohammed Suleman and Alawi, Omer A. and Mohamed Kamar, Haslinda and Homod, Raad Z. and Mohammed, Hussein A. and Mohammed, Mustafa K. A. and Mallah, Abdul Rahman and Al-Ansari, Nadhir and Yaseen, Zaher Mundher (2023) Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies. Engineering Applications of Computational Fluid Mechanics, 17 (1). pp. 1-19. ISSN 1994-2060 http://dx.doi.org/10.1080/19942060.2022.2164620 DOI : 10.1080/19942060.2022.2164620 |
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TJ Mechanical engineering and machinery Tao, Hai Aldlemy, Mohammed Suleman Alawi, Omer A. Mohamed Kamar, Haslinda Homod, Raad Z. Mohammed, Hussein A. Mohammed, Mustafa K. A. Mallah, Abdul Rahman Al-Ansari, Nadhir Yaseen, Zaher Mundher Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies |
| description |
The flat-plate solar collector (FPSC) three-dimensional (3D) model was used to numerically evaluate the energy and economic estimates. A laminar flow with 500 = Re = 1900, an inlet temperature of 293 K, and a solar flux of 1000 W/m2 were assumed the operating conditions. Two mono nanofluids, CuO-DW and Cu-DW, were tested with different shapes (Spherical, Cylindrical, Platelets, and Blades) and different volume fractions. Additionally, hybrid nanocomposites from CuO@Cu/DW with different shapes (Spherical, Cylindrical, Platelets and Blades), different mixing ratios (60% + 40%, 50% + 50% and 40% + 60%) and different volume fractions (1 volume%, 2 volume%, 3 volume% and 4 volume%) were compared with mono nanofluids. At 1 volume% and Re = 1900, CuO-Platelets demonstrated the highest pressure drop (33.312 Pa). CuO-Platelets achieved the higher thermal enhancement with (8.761%) at 1 vol.% and Re = 1900. CuO-Platelets reduced the size of the solar collector by 25.60%. Meanwhile, CuO@Cu-Spherical (40:60) needed a larger collector size with 16.69% at 4 vol.% and Re = 1900. CuO-Platelets with 967.61, CuO–Cylindrical with 976.76, Cu Platelets with 983.84, and Cu-Cylindrical with 992.92 presented the lowest total cost. Meanwhile, the total cost of CuO–Cu–Platelets with 60:40, 50:50, and 40:60 was 994.82, 996.18, and 997.70, respectively. |
| format |
Article |
| author |
Tao, Hai Aldlemy, Mohammed Suleman Alawi, Omer A. Mohamed Kamar, Haslinda Homod, Raad Z. Mohammed, Hussein A. Mohammed, Mustafa K. A. Mallah, Abdul Rahman Al-Ansari, Nadhir Yaseen, Zaher Mundher |
| author_facet |
Tao, Hai Aldlemy, Mohammed Suleman Alawi, Omer A. Mohamed Kamar, Haslinda Homod, Raad Z. Mohammed, Hussein A. Mohammed, Mustafa K. A. Mallah, Abdul Rahman Al-Ansari, Nadhir Yaseen, Zaher Mundher |
| author_sort |
Tao, Hai |
| title |
Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies |
| title_short |
Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies |
| title_full |
Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies |
| title_fullStr |
Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies |
| title_full_unstemmed |
Energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies |
| title_sort |
energy and cost management of different mixing ratios and morphologies on mono and hybrid nanofluids in collector technologies |
| publisher |
Taylor and Francis Ltd. |
| publishDate |
2023 |
| url |
http://eprints.utm.my/106803/1/HaslindaMohamedKamar2023_EnergyAndCostManagementOfDifferentMixingRatios.pdf http://eprints.utm.my/106803/ http://dx.doi.org/10.1080/19942060.2022.2164620 |
| _version_ |
1806442412740968448 |
| score |
13.211869 |