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Effects of ambient temperatures, tilt angles, and orientations on hybrid photovoltaic/diesel systems under equatorial climates

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  • Lau, K.Y.
  • Tan, C.W.
  • Yatim, A.H.M.

Abstract

Temperature and solar radiation are two main parameters directly affecting PV (photovoltaic) arrays’ output. Particularly, solar radiation is dependent upon PV arrays’ tilt angles and orientations while PV arrays’ temperatures are related to ambient temperatures. Nevertheless, the effects of ambient temperatures, tilt angles, and orientations on PV arrays’ output for places with equatorial climatic conditions (and abundant sunshine) are scarcely reported. In this paper, the effects of ambient temperatures, tilt angles, and orientations on the total electricity produced by PV arrays and the total NPCs (net present costs) of hybrid PV/diesel systems were studied using HOMER (Hybrid Optimization of Multiple Energy Resources). Three places with different latitudes off the equator (0° 00′ N, 5° 58′ N, and 11° 14′ N) were analyzed and the results showed that increasing ambient temperatures (10–50°C) and tilt angles (0–90°) resulted in reductions in PV electricity as much as 18% and 55%, respectively. NPC-wise, however, the variations became less pronounced – the NPC differences caused by changes in ambient temperatures and tilt angles became ~6% and ~25%, respectively, under 0% annual real interest rate. As the annual real interest rate increased to 3% and 5%, the NPC differences reduced further. Meanwhile, at 0–30° tilt angles, PV arrays facing different orientations showed differences in NPCs of less than 5%, albeit that the reductions in PV electricity were much higher. Significantly, the implementation of hybrid PV/diesel systems is feasible at places with equatorial climates.

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  • Lau, K.Y. & Tan, C.W. & Yatim, A.H.M., 2018. "Effects of ambient temperatures, tilt angles, and orientations on hybrid photovoltaic/diesel systems under equatorial climates," Renewable and Sustainable Energy Reviews, Elsevier, vol. 81(P2), pages 2625-2636.
  • Handle: RePEc:eee:rensus:v:81:y:2018:i:p2:p:2625-2636
    DOI: 10.1016/j.rser.2017.06.068
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    3. Obiwulu, Anthony Umunnakwe & Erusiafe, Nald & Olopade, Muteeu Abayomi & Nwokolo, Samuel Chukwujindu, 2020. "Modeling and optimization of back temperature models of mono-crystalline silicon modules with special focus on the effect of meteorological and geographical parameters on PV performance," Renewable Energy, Elsevier, vol. 154(C), pages 404-431.
    4. Hasan Masrur & Keifa Vamba Konneh & Mikaeel Ahmadi & Kaisar R. Khan & Mohammad Lutfi Othman & Tomonobu Senjyu, 2021. "Assessing the Techno-Economic Impact of Derating Factors on Optimally Tilted Grid-Tied Photovoltaic Systems," Energies, MDPI, vol. 14(4), pages 1-21, February.
    5. K. Y. Lau & C. W. Tan, 2021. "Performance analysis of photovoltaic, hydrokinetic, and hybrid diesel systems for rural electrification in Malaysian Borneo," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 23(4), pages 6279-6300, April.
    6. Aziz, Ali Saleh & Tajuddin, Mohammad Faridun Naim & Adzman, Mohd Rafi & Mohammed, Mohd Fayzul & Ramli, Makbul A.M., 2020. "Feasibility analysis of grid-connected and islanded operation of a solar PV microgrid system: A case study of Iraq," Energy, Elsevier, vol. 191(C).

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