Desain dan Analisa Ekonomi PLTS Atap untuk Villa di Bali
Abstract
Abstract—Bali province is one of 34 provinces of Indonesia and according to General Plan of National Energy it was expected to develop around 110 MW solar PV by 2025. Economically, Bali is considered as the center of Indonesian tourism industry. A wide range of accommodations have been developed to support the industry including villa. In this paper, potential of rooftop PV of villas in Bali is presented. Rooftop PV capacity was designed with objective to meet 23% of the villa’s energy consumption. Two villas in the southern of Bali were taken as examples. Energy audit was conducted to study the energy usage of both villas. Based on the design objective, 13,7 kWp grid-connected PV was proposed for each of the villa. With these results, it was projected that all villas in Bali could add solar PV capacity around 34,8 MWp which canpotentialy generateannual energy of 54.741 MWh. Investment analysis and environmental performance are also included on this paper. The results presented here will help provincial and district governments of Bali to get insight into potential of tourism sector to support PV development and subsequentlyto developappropriate policies and regulations to accelerate the uptake of rooftop PV in Bali.
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References
[2] Ngurah Rai Airport, “Bali Sun Radiation,” Graph Bali sunshine data, Ngurah Rai Airport (source: Rescreen4): Lat: 8.8S; Lon: 115.2E, 2008.
[3] I. K. A. Setiawan, I. N. S. Kumara, I. W. Sukreyasa, “Analisis Unjuk Kerja Pembangkit Listrik Tenaga Surya (PLTS) Satu MWp Terinterkoneksi Jaringan Di Kayubihi, Bangli,” Teknologi Elektro, Vol. 13 No. 1, 2014.
[4] I. N. S. Kumara, W. G. Ariastina, I. W. Sukerayasa and I. A. D. Giriantari, "On the potential and progress of renewable electricity generation in Bali," 2014 6th International Conference on Information Technology and Electrical Engineering (ICITEE), Yogyakarta, 2014, pp. 1-6.doi: 10.1109/ICITEED.2014.7007944.
[5] PT. PLN. (2016) Mulai Gunakan Mini LNG ke PLTDG Pesanggaran, PLN Mampu Hemat Biaya Pemeliharaan Rp 60 M per Tahun. [Online]. Available: https://www.pln.co.id/media/warta-pln/2016/06/mulai-gunakan-mini-lng-ke-pltdg-pesanggaran-pln-mampu-hemat-biaya-pemeliharaan-rp-60-m-per-tahun.
[6] Disparda Provinsi Bali. (2018) Statistik Pariwisata Bali 2017. [Online]. Available: http://www.disparda.baliprov.go.id/id/Statistik4.
[7] BPS Provinsi Bali. (2018) Banyaknya kVA Tersambung dan kWh Terjual Menurut Jenis Pelanggan dan Area Pelayanan di Bali, 2017. [Online]. Available: https://bali.bps.go.id/statictable/2018/04/13/81/banyaknya-kva-tersambung-dan-kwh-terjual-menurut-jenis-pelanggan-dan-area-pelayanan-di-bali-2017.html.
[8] Pemerintah Provinsi Bali. (2013) Bali Clean dan Green Komitmen Jadikan Bali Bersih, Sehat, Nyaman dan Indah. [Online]. Available: http://www.baliprov.go.id/Bali-Clean-dan-Green-Komitmen-Jadikan-bali-bersih--Sehat--Nyaman-dan-Indah.
[9] Biro Humas Provinsi Bali. (2018) Bali Clean and Green. [Online]. Available: http://www.birohumas.baliprov.go.id/index.php/fasilitas/21/BALI-CLEAN-&-GREEN.
[10] M. Karagiorgas, T. Tsoutsos, V. Drosou, S. Pouffary, T. Pagano, G. L. Lara, J. M. M. Mendes, “HOTRES: renewable energies in the hotels. An extensive technical tool for the hotel industry,” Elsevier Renewable and Sustainable Energy Reviews, Vol. 10. 2006.
[11] E. Michalena, Y. Tripanagnostopoulos, “Contribution of the solar energy in the sustainable tourism development of the Mediterranean islands,” Elsevier Renewable Energy, Vol. 35. 2010.
[12] C. Chaoqun, “Researches on application of the renewable energy technologies in the development of low-carbon rural tourism,” Elsevier Energy Procedia 5. 2011.
[13] A. H. A.M. Asif, M. T. Rahman, “Prospects of PV application in unregulated building rooftops in developing countries: A perspective from Saudi Arabia,” Elsevier Energy and Buildings, Vol. 171. 2018.
[14] A. S. Cifuentes, S. Q. Garcia, “Economic feasibility of PV systems in hotels in Mexico,” International Conference on Efficiency, Cost, Optimization, Simulation and Environmetal Impact of Energy System, Perugia. 2012.
[15] E. Marlina, Panduan Perancangan Bangunan Komersial, Andi Offset, Yogyakarta. 2008.
[16] Ditjen EBTKE. (2015) PLTS Rooftop Untuk Gedung Perkantoran. [Online]. Available: http://ebtke.esdm.go.id/post/2015/03/11/800/plts.rooftop.untuk.gedung.perkantoran.
[17] Kementrian Perindustrian, Pedoman Teknis Audit Energi Dalam Implementasi Konservasi Energi Dan Pengurangan Emisi CO2 Di Sektor Industri (Fase 1), BPKIMI, Jakarta. 2011.
[18] Leonics. (2018) How to Design Solar PV System. [Online]. Available: http://www.leonics.com/support/article2_12j/articles2_12j_en.php.
[19] R. Khatri, “Design and Assessment of Solar PV Plant for Girls Hostel (GARGI) of MNIT University, Jaipur City: A Case Study,” Elsevier Energy Reports, India. 2016.
[20] PVSyst V6.70 User Manual, PVSyst 6.70 Sofware, 2010.
[21] J. Arifin, Aplikasi Excel Untuk Perencanaan Bisnis (Busisness Plan), Elex Media Komputindo Gramedia, Jakarta. 2007.
[22] I. A. D. Giriantari, I. N. S. Kumara, D. A. Santiari, “Economic Cost Study of Photovoltaic Solar System for Hotel in Nusa Lembongan,” International Conference on Smart Green Technology in Electrical andInformation Systems (ICSGTEIS), Kuta. 2014.
[23] “Q.POWER L-G5.2 315-335 datasheet,” QCells, North Sydney, Australia.
[24] “Solis Three Phase Inverter datasheet,” Solis, Zhejiang, China.
[25] BMKG. (2019) Prakiraan Musim Kemarau Tahun 2019 di Indonesia. [Online]. Available: https://www.bmkg.go.id/iklim/prakiraan-musim.bmkg.
[26] Sunergi. (2018) Paket PLTS Komersiil. [Online]. Available: http://www.sunergi.co.id/index.php/id/product/plts-bisnis/.
[27] (2018) Official Website of Bank Indonesia. [Online]. Available: http://www.bi.go.id.
[28] PT. PLN, Tarif Dasar Listrik Rumah Tangga (R1), PT. PLN, Jakarta. 2018.
[29] ESDM. (2018) Tarif Tenaga Listrik Indonesia Kompetitif di Kawasan ASEAN. [Online]. Available: https://www.esdm.go.id/id/media-center/arsip-berita/tarif-tenaga-listrik-indonesia-kompetitif-di-kawasan-asean.
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This work is licensed under a Creative Commons Attribution 4.0 International License