INTERPOLATION ALGORITHM IN SOLAR PANEL LIGHT ABSORPTION

  • Ihsanurrizqie Indra Siregar Universitas Muhammadiyah Sumatera Utara

Abstract

This study describes the increase in light energy that occurs on the surface of the solar panel or photovoltaic (PV) using a sensor distribution where the data is processed by the cubic spline interpolation method so that it can be used to determine the position of the solar panels which are effective and ideal for receiving sunlight. so that you get information about the power released by the solar panels. The mapping of heat distribution on PV panels uses the cubic spline interpolation method, which results from the interpolation and experimental results showing the PV panel in a vertical position with a slope of 0º at 12.00-14.00 produces the highest current, namely 449.2mA with a voltage generated of 1.03V resulting in a power of 0.46W This is more optimal than the PV surface temperature which is hotter in the vertical position with a slope of 45º or the horizontal position of 0º and 45º at the same hour.


 

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References

Chandra Mouli, G. R., Bauer, P., & Zeman, M. (2016). System design for a solar powered electric vehicle charging station for workplaces. Applied Energy, 168, 434–443. https://doi.org/10.1016/j.apenergy.2016.01.110
Goyal, S. K., & Palwalia, D. K. (2016). Analysis of performance parameters and estimation of optimum capacitance for asynchronous generator. Engineering Science and Technology, an International Journal, 19(4), 1753–1762. https://doi.org/10.1016/j.jestch.2016.05.015



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Jibhakate, C. N., Prof, A., & Huchche, V. (2014). Speed Control of Single Phase Induction Motor Using Micro- Controller. Speed Control of Single Phase Induction Motor Using TRIAC, 9359(April), 29–32.
Khairunnisa, I., Suprayogi, & Tri Ayodha Ajiwiguna. (2017). Pemanfaatan Modul Termoelektrik Sebagai Pemanas Untuk Alat Penetas Telur Sederhana. E-Proceeding of Engineering, 4(1), 769–777.
Lubis, S. A., Hariyanto, E., Perangin-angin, M. I., Saputra, S., Niska, D. Y., Wahyuni, S., Nasution, D., & Iqbal, M. (2015). APPLICATION HYBRID ECO CAMPUS VEHICLE BASED ON SOLAR POWER. 3(2).
Rabanal-Arabach, J., Schneider, A., & Cabrera, E. (2015). Minimization of Electrical Losses of PV Modules Located in Places with High Solar Irradiance. Energy Procedia, 77, 402–406. https://doi.org/10.1016/j.egypro.2015.07.056
Solly Aryza, Hermansyah, Muhammad Irwanto, Zulkarnain Lubis, A. I. (2017). A NOVELTY OF QUALITY FERTILIZER DRYER BASED ON SOLAR CELL AND ANN. Scopus, 1–5.
Yazidi, A., & Sivert, A. (2016). FUZZY LOGIC CONTROL DESIGN FOR. 7(3), 14–24.
Published
2021-06-16