Techno-Economics Assessment of Geothermal Binary Cycle Power Plant Located in Isolated Grid
Abstract
Keywords
Full Text:
PDFReferences
Directorate General for New and Renewable Energy and Energy Conservation. Statistik EBTKE 2015, Retrieved February 17, 2022 from the World Wide Web: http://ebtke.esdm.go.id/post/2016/02/02/1105/statistik.ebtke.2015
Fauzi A., 2015. Geothermal resources and reserves in Indonesia: an updated revision. Geotherm Energy Science; 3, Retrieved February 17, 2022 from the World Wide Web: http://www.geoth-energ-sci.net/3/1/2015/gtes-3-1-2015.pdf.
Mahbaz S.B., Yaghoubi A., Dehghani-Sanij A., Sarvaramini E., Leonenko Y., and Dusseault M.B., 2021. Well-doublets: a first-order assessment of geothermal sedheat systems. Applied Sciences (11): 1–18
.
Hochstein M.P. and P. Browne. 2000. Surface manifestations of geothermal systems with volcanic heat sources. In: Sigurdsson H (ed) Encyclopedia of volcanoes. Academic Press, p. 835.
Sumintadiredja P., Kasbani, Suhanto E., 2010. Jaboi. geothermal field boundary, Nangroe Aceh Darussalam, based on geology and geophysics exploration data. In: World Geothermal Congress 2010, Retrieved February 17, 2022 from the World Wide Web: https://www.geothermal-energy.org/pdf/IGAstandard/WGC/2010/1169.pdf
Dwipa S., Widodo S., Suhanto E., and Kusnadi D. 2006. Integrated geological, geochemical and geophysical survey in Jaboi geothermal field, Nangro Aceh Darussalam, Indonesia. In: 7th Asian Geothermal Symposium. Qingdao: China, 25-26 July. Retrieved February 17, 2022 from the World Wide Web: https://www.geothermal-energy.org/pdf/IGAstandard/Asian/2006/20_dwipa.pdf.
Isa M., Cesarian D., and Abir I., 2020. Remote sensing satellite imagery and in-situ data for identifying geothermal potential sites: Jaboi, Indonesia. The International Journal of Renewable Energy Development, Retrieved February 17, 2022 from the World Wide Web: https://doi.org/10.14710/ijred.9.2.237-245
Muhammad R.A., 2009. Eksplorasi energi panasbumi dengan dengan metode geofisika dan geokimia pada daerah Jaboi, Kota Sabang, Propinsi Nanggroe Aceh Darussalam. BSc Thesis, Institute Technology Bandung, Bandung, Indonesia.
Dirasutisna S. and A.R. Hasan. 2005. Geologi Panas Bumi Jaboi, Sabang, Province Nanggroe Aceh Darussalam. Bandung: Report Direktorat Inventarisasi Sumber Daya Mineral.
Septian A.F., 2018. Analisis Teknis dan Ekonomis Pemanfaatan Energi Panas Bumi di Area Jaboi Sabang dalam Menunjang Sistem Kelistrikan di Sabang. BSc Thesis, Universitas Sumatera Utara, Medan, Indonesia.
Pratama F., Reyseliani N.,and Syauqi A.. 2020. Thermoeconomic assessment and optimization of wells to flash–binary cycle using pure R601 and zeotropic mixtures in the Sibayak geothermal field. Geothermics, Retrieved February 17, 2022 from the World Wide Web: https://doi.org/10.1016/j.geothermics.2019.101778.
Heberle F. and D. Brüggemann. 2010 Exergy based fluid selection for a geothermal Organic Rankine Cycle for combined heat and power generation. Applied Thermal Engineering 30(11-12): 1326-1332.
DiPippo R., 2008. Geothermal power plants: principles, applications, case studies and environmental impact. Oxford: Butterworth-Heinemann.
Franco A. and M. Villani. 2009. Optimal design of binary cycle power plants for water-dominated, medium-temperature geothermal fields. Geothermics 38(4): 379-391.
DiPippo R., 1999. Small geothermal power plant. Design, performance and economics. GHC Bulletin, Retrieved February 17, 2022 from the World Wide Web: http://digitallib.oit.edu/digital/collection/geoheat/id/11217/
Nur S., 2016. Utilization of Jaboi geothermal resources by using binary cycle power plant. In: 2016 Asian Alumni Workshop on Reselience in Energy System, Retrieved February 17, 2022 from the World Wide Web: https://www.uni-flensburg.de/fileadmin/content/abteilungen/developing-countries/dokumente/downloads/association-of-indonesian-alumni-of-university-of-flensburg-proceedings.pdf#page=52?cv=1
Lukawski M., 2009. Design and Optimization of Standardized Organic Rankine Cycle Power Plant for European Conditions. Master’s Thesis. University of Iceland, Reykjavik, Iceland.
Frick S., Stefan K., and Saadat A., 2010. Holistic design approach for geothermal binary power plants with optimized net electricity provision. In: World Geothermal Congress 2010, Retrieved February 17, 2022 from the World Wide Web: https://gfzpublic.gfz-potsdam.de/pubman/faces/ViewItemOverviewPage.jsp?itemId=item_240738_1
Walraven D., Laenen B., and D’haeseleer W., 2015. Minimizing the levelized cost of electricity production from lowtemperature geothermal heat sources with ORCs: Water or air cooled? Applied Energy 142: 144-153.
Arif M., 2006. Pemboran landaian suhu sumur JBO-1 dan JBO-2 daerah panas bumi Jaboi, P. Weh, Kota Sabang-NAD (in Indonesian language). Pusat Sumber Daya Geologi.
Aksoy N., 2007. Optimization of downhole pump setting depths in liquid-dominated geothermal systems: A case study on the Balcova-Narlidere field, Turkey. Geothermics 36(5): 436-458.
Huenges E., 2010. Geothermal energy systems. Exploration, development, and utilization. Weinheim: Wiley-VCH.
Stefánsson V., 2001. Investment cost for geothermal power plants. Geothermics 31(2): 263-272.
Budisulistyo D. and S. Krumdieck. 2015. Thermodynamic and economic analysis for the pre-feasibility study of a binary geothermal power plant. Energy Conversion Management 103: 639-649.
Purwanto E.H., 2019. Assessment of Exploration Strategies, Results and Costs of Geothermal Fields in Indonesia. (Report number: 22), United Nation University, Geothermal Training Programme, Iceland.
Purwanto E.H., 2018. Geothermal Drilling in Indonesia: a Review of Drilling Implementation, Evaluation of Well Cost and Well Capacity. In: The 6th Indonesia International Geothermal Convention & Exhibition (IIGCE) 2018, Retrieved February 17, 2022 from the World Wide Web: https://www.researchgate.net/publication/331649323_Geothermal_Drilling_in_Indonesia_a_Review_of_Drilling_Implementation_Evaluation_of_Well_Cost_and_Well_Capacity
Castlerock Consulting 2010. Phase 1 Report: Review and Analysis of Prevailing Geothermal Policies, Regulations and Costs, Jakarta, Indonesia.
Sanyal S.K., 2004. Cost of geothermal power and factors that affect it. In: Twenty-Ninth Workshop on Geothermal Reservoir Engineering. Standford, Retrieved February 17, 2022 from the World Wide Web: https://www.slb.com/resource-library/technical-paper/geothermal/sanyal-cost-of-geothermal-2004
U.S. Department of Energy. Geothermal Electric Technology. 2016, Retrieved February 17, 2022 from the World Wide Web: https://www.wbdg.org/resources/geothermal-electric-technology.
Nur S. and Seulawah. 2011 Agam Geothermal Power Plant development: the economic rationale and competitiveness with coal based power plant. Aceh Sci J 1: 5–6.
Yodha Yudhistira N, Agus D, Ibrahim B., 2011. Aplikasi pembangkit listrik tenaga panas bumi (PLTP)-Biner mengganti pembangkit diesel di daerah terpencil (in Indonesian Language). PT PLN (Persero).
Nur S, Burton B., and Bergmann A., 2022. Evidence on optimal risk allocation models for indonesian geothermal projects under PPP contracts. SSRN Electron J, Retrieved February 17, 2022 from the World Wide Web: http://dx.doi.org/10.2139/ssrn.3991872.