Analisis Kebutuhan Energi di Universitas Nusa Cendana Tahun 2018-2050 Menggunakan Perangkat Lunak Long-range Energy Alternative Planning system (LEAP)

Yorim A. Masus, Ben V. Tarigan, Jefri S. Bale

  • Yorim A. Masus(1)
    Program Studi Teknik Mesin, Fakultas Sains dan Teknik Universitas Nusa Cendana
  • Ben V. Tarigan(2)
    Program Studi Teknik Mesin, Fakultas Sains dan Teknik Universitas Nusa Cendana
  • Jefri S. Bale(3*)
    Program Studi Teknik Mesin, Fakultas Sains dan Teknik Universitas Nusa Cendana
  • (*) Corresponding Author

Abstract

Energy management in an agency, especially at the University of Nusa Cendana, is still very high dependence on fossil energy. The growth in consumption of electricity and fuel oil continues to increase by an average of 20% per year. Changes in energy consumption are increasing due to changes in power tariffs from 13.2 killovolt amperes (kVa) to 650 killovolt amperes (kVa). In projecting energy demand, the author uses LEAP Software (Long-range Energy Alternative Planning system) version 2017.011.0 from 2018-2050. The purpose of this study was to analyze and determine the treatment of the dependent and independent variables on the magnitude of the results of energy needs at the University of Nusa Cendana. The projection results obtained from the total final energy demand of the Undana sector which is estimated to reach 1,685 kilowatts by 2050 or equivalent to 1.7 megawatts with an average growth of 30%. Meanwhile, for the transportation sector, the final energy demand for fuel (diesel and premium) for vehicle operations is estimated to reach 150.8 thousand barrels by 2050 with an average growth of 38%. The elasticity of energy used shows an increase of 1% after 2018. Energy conservation in the user sector shows potential efficiency of 716.7 kilowatts or equivalent to 0.717 megawatts in 2050, with an average growth of 37% against the Business As Ussual (BAU) scenario.

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References

[1]. Anonimus. (2000). User Guide for LEAP Version, Stockholm Environtment Institute. LEAP, 2(6), 5-9.
[2]. Banamtuan, A. (2014). Analisis Permintaan, Pemodelan, Simulasi Kebutuhan dan Ketersediaan Energi Listrik di Kabupaten Timor Tengah Selatan Menggunakan Perangkat Lunak Long-range Energy Alternative Planning system (LEAP). Skripsi.
[3]. Benu, F. (2016). Laporan Akuntabilitas Instansi Pemerintah (LAKIP), Borang Akreditasi Universitas. Universitas Nusa Cendana. Kupang, NTT: Report.
[4]. Heaps, C., & Lazarus, M. (2000). LEAP 2000 Training Exercises. USA, SEI-Boston: Book Reference.
[5]. Lanang Widianto, R., & Purnomo, T. (2005). Kajian Perencanaan Permintaan dan Penyediaan Energi di Wilayah Daerah Istimewa Yogyakarta Menggunakan Perangkat Lunak LEAP. Skripsi, Jurusan Teknik Fisika Universitas Gajah Mada.
[6]. Likadja, F. (2006). Pemodelan Prakiraan Kebutuhan Tenaga Listrik Menggunakan Program DKL. Jurnal Teknologi, Fakultas Teknik UNDANA, 1(21), 5-8.
[7]. Lotia, N., Shrivastava, R., Bagde, S., & Pandit, P. (2017). Maharashtra State’s Electricity Supply Demand Forecasting for 2030 and 2050 using LEAP. International Journal of Emerging Research in Management & Technology, 6(11), 23-29.
[8]. Muchlis, M., & Permana Darma, A. (2003). Proyeksi Kebutuhan Listrik PLN tahun 2003 sampai dengan 2020. Pengembangan Sistem Kelistrikan dalam Menunjang Pembangunan Nasional Jangka Panjang, 19-29.
[9]. Oetomo, W. (2011). Panduan Perencanaan Energi denagn Metode LEAP. Pusat Kajian Kebijakan Energi Institut Teknologi Bandung.
[10]. Purnomo. (2008). Laporan Akhir Review Penyusunan Rencana Umum Ketenagalistrikan Daerah (RUKD) Propinsi Daerah Istimewa Yogyakarta. Dinas Perindustrian, Perdagangan dan Koperasi Bidang Pertambangan dan Energi Pemerintah Propinsi DIY. Yogyakarta: Laporan Penelitian.
[11]. Radjesh, K., & Pohekar, S. (2012). Renewable and Sustainable Energy Reviews (Vol. 4). India: Book Reference.
[12]. Sugiyono, A. (1995). Perencanaan Energi Nasional dengan Model MARKAL. Journal Technologi, 2(4), 3-6.
[13]. Waluyo, B., Burhanuddin, H., & Martinus. (2013). Perencanaan Penyediaan Energi di Wilayah Lampung Menggunakan Perangkat Lunak Long-range Energy Alternatives Planning System. Jurnal FEMA, 1(2), 9-17.
[14]. Osborn, P. (2007). Sustainable Energy: Less Poverty, More Profits. World Bank Publications.
[15]. Draft Rencana Umum Ketenagalistrikan Daerah Provinsi NTT Tahun 2004. (n.d.).
[16]. Kebijakan Energi Nasional 2003-2020 Departemen Energi dan Sumber Daya Mineral 2004 Jakarta. (n.d.).
[17]. E. H, T., H., T., & M. S., R. (2014). Kajian Perencanaan Energi Listrik di Wilayah Kabupaten Sorong Menggunakan Perangkat Lunak LEAP. e-journal Teknik Elektro dan Komputer, 1-10. Retrieved Juli Kamis, 2018, from http://ejurnalelektro.ac.id.
[18]. Suryanid, A. (2013). Proyeksi Emisi Gas Rumah Kaca Tahun 2012‐2030. Prosiding Seminar dan Peluncuran Buku Outlook Energi Indonesia 2013, 114-120.

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Published
2019-04-01
How to Cite
Masus, Y., Tarigan, B., & Bale, J. (2019). Analisis Kebutuhan Energi di Universitas Nusa Cendana Tahun 2018-2050 Menggunakan Perangkat Lunak Long-range Energy Alternative Planning system (LEAP). LONTAR Jurnal Teknik Mesin Undana, 6(01), 01-12. https://doi.org/10.35508/ljtmu.v6i01.4757
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