Simulasi Tekno-Ekonomi Pengembangan Photovoltaic pada Gedung

  • Sepdian Sepdian politeknik jambi, universitas andalas
  • Syafii Syafii politeknik jambi, universitas andalas
Keywords: Simulasi tekno-ekonomi, Pengembangan Photovoltaic, Gedung

Abstract

This research is related to the development of pv system scanning at Politeknik Jambi and economic analysis using RETScreen software. The purpose of this research is to design photovoltaic system at building of Politeknik Jambi, to analyze photovoltaic technology for Poliknik Jambi building and to calculate photovoltaic economy for Politeknik Jambi building. The results showed that the required PV system of 135 kW/day, while based on the results of economic analysis using RETScreen Software required development cost of IDR 4.696.030.000 and capital turnover time for 20 years. This result shows that the system is designed to be built in Politeknik Jambi.

References

[1] S. Vijayalekshmy, G. R. Bindu, and S. R. Iyer, “Estimation of power losses in photovoltaic array configurations under moving cloud conditions,” Proc. - 2014 4th Int. Conf. Adv. Comput. Commun. ICACC 2014, vol. I, pp. 366–369, 2014.
[2] A. Sasitharanuwat, W. Rakwichian, N. Ketjoy, and W. Suponthana, “10 kW Multi Photovoltaic Cell Stand-alone / Grid Connected System for Office Building,” naresuan Univ., pp. 638–639, 2005.
[3] H. Jahankhani and A. Hosseinian-far, “Efficiency Analysis of the Photovoltaic Systems for Carbon Footprint Reduction ( Case Study : University of East London ),” wsforum, pp. 1–10, 2011.
[4] T. Tin, B. K. Sovacool, D. Blake, P. Magill, S. El, S. Lidstrom, K. Ishizawa, and J. Berte, “Energy efficiency and renewable energy under extreme conditions : Case studies from Antarctica,” Elsevier, pp. 1–9, 2009.
[5] M. Chandel, G. D. Agrawal, S. Mathur, and A. Mathur, “Case Studies in Thermal Engineering Techno-economic analysis of solar photovoltaic power plant for garment zone of Jaipur city,” Case Stud. Therm. Eng., vol. 2, pp. 1–7, 2014.
[6] D. Dwivedy, “Study of Cost Analysis and Emission Analysis for Grid Connected PV Systems using RETSCREEN 4 Simulation Software,” IJERT ISSN 2278-0181, vol. 4, no. 04, pp. 203–207, 2015.
[7] S. J. Park, J. H. Shin, J. H. Park, and H. J. Jeon, “Dynamic analysis and controller design for standalone operation of photovoltaic power conditioners with energy storage,” J. Electr. Eng. Technol., vol. 9, no. 6, pp. 2004–2012, 2014.
[8] Kementerian ESDM, “RUPTL PLN 2016-2025.pdf.” 2016.
[9] A. Dolara, R. Faranda, and S. Leva, “Energy Comparison of Seven MPPT Techniques for PV Systems,” j. Electromagn. Anal. Appl., vol. 3, pp. 152–162, 2009.
[10] H. Abu-rub, S. Member, A. Iqbal, S. Member, S. M. Ahmed, F. Z. Peng, Y. Li, and G. Baoming, “Quasi-Z-Source Inverter-Based Photovoltaic Generation System With Maximum Power Tracking Control Using ANFIS,” vol. 4, no. 1, pp. 11–20, 2013.
[11] C. Hudaya and Ph.D, “Peranan Riset Baterai Sekunder dalam Mendukung Penyediaan Energi Bersih Di Indonesia 2025,” Proceeding Olimp. Karya Tulis Inov., no. 2025, 2008.
[12] Hermawan Permna Putra, “Universitas indonesia studi karakteristik pelepasan muatan baterai,” 2010.
[13] R. Swaroop and P. K. Sadhu, “Feasibility Analysis of Photovoltaic System for Green house using Energy Analysis Software,” IJERT ISSN 2278-0181, vol. 2, no. 11, pp. 386–391, 2013.
[14] Fadhli MR, “Rancang bangun inverter 12v dc ke 220v ac dengan frekwensi 50hz dan gelombang keluaran sinusoidal skripsi,” 2010.
[15] J. Leboyer, “A Quick Review on RETScreen,” Madison, 2013.
Published
2017-06-01
doc
Abstract views: 5
downloads: 6
s