Study And Modeling Of Energy Supply At Moti Island-Ternate Based On Renewable Energy

Bahrud Kahar, Ridho Hantoro

Abstract


Until now in North Moluccas province especially in the district of Ternate city due to geographical conditions, electrification for the islands outside of Ternate be uneven and can not meet the overall demand for electricity. As well as Moti Island is one of the sub-districts of Ternate city, the operation of diesel generators was limited at night which hours 18:30 to 23:00 or 4.5 hours/day. The main problem is the high operating cost of diesel generator, especially of the fuel cost, availability and the high cost of spare parts. This study proposes a configuration models of hybrid power generation system on the Moti island between diesel generators and renewable energy as a solution to meet the electricity needs for 24 hours, because the Moti island has a energy of annual average solar  radiation is 5.96 kWh/m2/day and annual average wind speed of  3.8 m/s. Calculation and optimized for the potential of renewable energy and configurations models of hybrid power generation system using software HOMER (Hybrid Optimization Model for Renewable Energy). The simulation results provide a configuration models of the optimal hybrid power plant is the first option: PV (50%) + Diesel (50%) configuration with the NPC lowest value is US$ 1,531,546 and more efficient fuel consumption per year is 47.1% of the fuel consumption on the moti island for this time, And the second option is an alternative configuration: PV (70%) + Diesel (30%) configuration with a NPC value is US $ 1,577,512 and also more has efficient fuel consumption per year 64.3%.

Keywords


potential energy, hybrid power generation, moti island

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References


Badan Pusat Statistik (BPS) Kota Ternate (2013), Kota Ternate dalam Angka 2013. Katalog BPS 1102001.8271, Ternate.

Sari, D.P. dan Nazir, R. (2015), “Optimalisasi Desain Sistem Pembangkit Listrik Tenaga Hybrid Diesel Generator Photovoltaic Array Menggunakan HOMER (Studi Kasus: Desa Sirilogui, Kabupaten Kepulauan Mentawai)”, Jurnal Nasional Teknik Elektro, Vol. 4, No. 1, ISSN. 2302 – 2949.

NASA (2015), Surface meteorology and Solar Energy, RETScreen Data, Latitude 0.457 / Longitude 127.411, http:/eosweb.larc.nasa.gov/, [accessed on October 2015].

Badan Meteorologi Klimatologi dan Geofisika; BMKG (2015), Data kecepatan angin Pulau Moti Tahun 2011 - 2014.

Software HOMER Aplication.Web: http://nrel.gov/homer/ [accessed on January 2015].

Rauf, R. (2013), “Konsep Integrasi Pembangkit Berbasis Energi Terbarukan Sebagai Sistem Mikrogrid di Kabupaten Pesisir Selatan”, Jurnal Nasional Teknik Elektro, Program Studi Pasca Sarjana Teknik Elektro, Fakultas teknik Universitas Andalas, Vol. 2, No.2, ISSN. 2302-2949.

Anayochukwu, A.V. (2013), Simulation and Optimization of Hybrid Diesel Power Generation System for GSM Base Station Site in Nigeria, Departement of Electronic Engineering, University of Nigeria, Nsuka, Nigeria.

Purwadi, A., Haroen, Y., Zamroni, M., Heryana, N., dan Suryanto, A. (2012), “Study of Hybrid PV-Diesel Power Generation System at Sebira Island- Kepulauan Seribu”, Conference on Power Engineering and Renewable Energy, ISBN. 978-1-4673-2470-0/12/IEEE.

Panel Surya Jakarta (2015), Panel Surya 300 WP Shinyoku Polycrystalline, http://panelsuryajakarta.com/panel-surya-300-wp-shinyoku-polycrystalline/ [accessed on November 2015].

Chandel, M., Agrawal, G.D., Mathur, S., dan Mathur, A. (2014), “Techno – Economic Analysis of Solar Photovoltaic Power Plant for Garment Zone of Jaipur City”, Published by Elsevier Ltd, Open access under CC BY-NC-SA license, journal home page: www.elsevier.com/locate/csite., Case Studies in Thermal Engineering 2 (2014) 1–7.

Guda, H.A. dan Aliyu, U.O. (2015), “Design of a Stand-Alone Photovoltaic System for a Residence in Bauchi”, International Journal of Engineering and Technology (IJET), Department of Electrical and Electronics Engineering, Abubakar Tafawa Balewa University, Bauchi Nigeria, Vol. 5, No. 1, ISSN. 2049 – 3444.

Leonics (2015), How to choose MPPT solar charge controller for PV module and battery, http://www.leonics.com/ [accessed on October 2015].

K, Balachander., S, Kuppusamy. dan Vijayakumar, P. (2012), “Comparative Study of Hybrid Photovoltaic-Fuel Cell System / Hybrid Wind-Fuel Cell System for Smart Grid Distributed Generation System”, International Conference on Emerging Trends in Science, Engineering and Technology, ISBN. 978-1-4673-5144-7/12/IEEE.

Thaib, R. dan Umar, H. (2014), “Studi Pemanfaatan Pembangkit Listrik Hibrid (Energi Angin-Surya-Diesel) di Kepulauan Simeulue Aceh”, Proceedings Seminar Nasional Teknik Mesin Universitas Trisakti KE16 – 1, SNTMUT, Jurusan Teknik Mesin, Fakultas Teknik Universitas Syiah Kuala, Banda Aceh, ISBN: 978-602-70012-0-6.

Osibatteries (2015), Vision 6FM200D-X Battery 12V 200Ah Sealed Rechargeable Deep Cycle, http://www.osibatteries.com/ [accessed on October 2015].

Ishaq, M., Ibrahim, U.H., dan Abubakar, H. (2013), “Design Of An Off Grid Photovoltaic System: A Case Study Of Government Technical College, Wudil, Kano State”, Internasional Journal Of Scientific & Technology Research (IJSTR), Vol. 2, Issue. 12, ISSN 2277-8616.

Lal, D. Kumar., Dash, Bibhuti Bhusan dan Akella, A. K. (2011), “Optimization of PV/Wind/Micro-Hydro/Diesel Hybrid Power System in HOMER for the Study Area”, International Journal on Electrical Engineering and Informatics. Vol. 3, Number 3.

Alibaba (2015), Zising Diesel Generator & Power Inverter DC/AC with MPPT Solar Charge Contoller, http:/alibaba.com/ [accessed on October 2015]

BI (2015a), Kurs Transaksi Bank Indonesia, 1 Juli 2015 s/d 30 Oktober 2015, www.bi.go.id. [di akses Nopember 2015].

BI (2015), BI Rate, Januari 2014 s/d Nopember 2015, www.bi.go.id. [accessed on November 2015].

Kunaifi. (2010), “Program Homer Untuk Studi Kelayakan Pembangkit Listrik Hibrida di Propinsi Riau”, Seminar Nasional Informatika (semnasIF 2010), Fakultas Sains dan Teknologi, Universitas Islam Negeri, UPN ”Veteran” Yogyakarta, ISSN. 1979-2328.

Ross, Michael M.D. (2003), Verification of the PVToolbox against Monitored Data, WatsunPV, HOMER, and SOMES for the Gwaii Haanas PV System, RER Renewable Energy Research: CETC-Varennes, www.rerinfo.ca, Montreal Quebec, Canada 2003.

Seriff, F. Turcotte, D. dan Ross, M. (2003), PV Toolbox: A Comprehensive Set of PV System Components for The MATLAB®/SIMULINK® Environment, SESCI 2003 Conference, www.rerinfo.ca, Queen’s University Kingston, Ontario, Canada August 18 to 20, 2003.

Kanata, S. (2015), “Kajian Ekonomis Pembangkit Hybrid Renewable Energi Menuju Desa Mandiri Energi di Kabupaten Bone-Bolango”, Jurnal Rekayasa Elektrika, Vol. 11, No.3, ISSN. 1412-4785, eISSN. 2252-620X, hal.114-122.




DOI: http://dx.doi.org/10.12962/j20882033.v27i1.1186

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