Analisis Perangkat Lunak PVSYST, PVSOL dan HelioScope dalam Simulasi Fixed Tilt Photovoltaic
DOI:
https://doi.org/10.22441/jte.2021.v12i3.001Keywords:
Energi, HelioScope, Matahari, photovoltaic, PVSOL, PVSYSTAbstract
Telah banyak beredar perangkat lunak untuk mensimulasikan sistem photovoltaic dalam rangka pemanfaatan energi Matahari. Berbagai perangkat lunak tersebut menawarkan berbagai fitur dan dukungan layanan yang beragam. Selain fitur yang ditawarkan, harus diperhatikan pula akurasi atau ketepatan perangkat lunak dalam mensimulasikan hasil. Di penelitian ini akan dianalisis perangkat lunak PVSOL, PVSYST, dan HelioScope baik dari segi fitur dan hasil dari simulasi. Simulasi dilakukan dengan skenario PV berkapasitas 2650 Wp, Inverter on grid 2500 W, data cuaca bersumber dari Meteonorm dan lokasi berada di UNU Yogyakarta (7,8 LS dan 110,4 BT). Semua simulasi di lakukan menggunakan perangkat lunak PVSOL, PVSYST, dan HelioScope. Simulasi dilakukan dengan memvariasikan kemiringan dengan orientasi PV ke utara (azimuth 0o). Hasilnya adalah PV menghasilkan daya paling besar ketika kemiringan sekitar 10-15o. Signifikansi losses akibat perubahan kemiringan hanya berpengaruh 1,62% ketika kemiringannya berubah dari 10o menjadi 0o dan 3,14% ketika kemiringannya berubah dari 15o menjadi 30o. Dari segi kelengkapan fitur yang ditawarkan, PVSOL dan PVSYST memiliki fitur yang lengkap jika dibanding HelioScope. HelioScope memiliki keunggulan antarmuka yang sederhana dan praktis namun tidak memilki fitur yang lengkap.Downloads
References
“Solar Simulation Software Compared | PVsyst Vs. Helioscope | GSES.” https://www.gses.com.au/comparison-of-bankable-energy-simulation-software-used-in-the-australian-solar-industry/ (accessed Aug. 16, 2021).
N. Jakica, “State-of-the-art review of solar design tools and methods for assessing daylighting and solar potential for building-integrated photovoltaics,” Renew. Sustain. Energy Rev., vol. 81, pp. 1296–1328, Jan. 2018, doi: 10.1016/J.RSER.2017.05.080.
N. Umar, B. Bora, C. Banerjee, and B. S. Panwar, “Comparison of different PV power simulation softwares: case study on performance analysis of 1 MW grid-connected PV solar power plant,” pp. 11–24, 2018, Accessed: Aug. 16, 2021. [Online]. Available: www.ijesi.org%7C%7CVolumewww.ijesi.org.
“Jinko JKM265P-60 (265W) Solar Panel.” http://www.solardesigntool.com/components/module-panel-solar/Jinko/2951/JKM265P-60/specification-data-sheet.html (accessed Aug. 16, 2021).
“Growatt New Energy | Growatt-2500-5500MTL -S | Solar Inverter Datasheet | ENF Inverter Directory.” https://www.enfsolar.com/pv/inverter-datasheet/8038 (accessed Aug. 16, 2021).
T. L. Gurupira, “Evaluation and optimisation of photovoltaic (PV) plant designs,” 2018, Accessed: Aug. 16, 2021. [Online]. Available: https://scholar.sun.ac.za:443/handle/10019.1/103499.
“Determination of the Declination of the Sun on a Given Day | European Journal of Physics Education.” http://www.eu-journal.org/index.php/EJPE/article/view/103 (accessed Aug. 16, 2021).
T. M. Yunus Khan et al., “Optimum location and influence of tilt angle on performance of solar PV panels,” J. Therm. Anal. Calorim. 2019 1411, vol. 141, no. 1, pp. 511–532, Dec. 2019, doi: 10.1007/S10973-019-09089-5.
“Optimum Tilt of Solar Panels.” http://www.solarpaneltilt.com/ (accessed Aug. 16, 2021).
G. Sampson, “Solar Power Installations on Closed Landfills: Technical and Regulatory Considerations,” 2009, Accessed: Aug. 16, 2021. [Online]. Available: www.clu-in.org.
“PV*SOL premium – Valentin Software GmbH.” https://valentin-software.com/en/products/pvsol-premium/ (accessed Aug. 16, 2021).
“Features – PVsyst.” https://www.pvsyst.com/features/ (accessed Aug. 16, 2021).
“PVSyst Design Service in Pune, Chinchwad by Sustainfy Energy LLP | ID: 21009185291.” https://www.indiamart.com/proddetail/pvsyst-design-service-21009185291.html (accessed Aug. 16, 2021).
D. L. Guittet and J. M. Freeman, “Validation of Photovoltaic Modeling Tool HelioScope Against Measured Data,” Nov. 2018, doi: 10.2172/1481365.
“HelioScope: Advanced Solar Design Software.” https://www.helioscope.com/ (accessed Aug. 16, 2021).
Z. Jiang, J. Song, L. Li, W. Chen, Z. Wang, and J. Wang, “Extreme climate events in China: IPCC-AR4 model evaluation and projection,” Clim. Chang. 2011 1101, vol. 110, no. 1, pp. 385–401, May 2011, doi: 10.1007/S10584-011-0090-0.
“Features - Meteonorm (en).” https://meteonorm.meteotest.ch/en/meteonorm-features (accessed Aug. 16, 2021).
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