View
238
Download
0
Category
Preview:
Citation preview
116
DAFTAR PUSTAKA
Ahmadi, P., dan Dincer, I., 2018, Comprehensive Energy Systems, Elsevier.
Amelia, A. R., 2018, Kapasitas Terpasang Pembangkit Panas Bumi Indonesia
Lampaui Filipina, https://katadata.co.id/berita/2018/04/27/kapasitas-
terpasang-pembangkit-panas-bumi-indonesia-lampaui-filipina (diakses pada
19 Mei 2018).
Anandito, A., 2015, “Analisis Kesetimbangan Exergy pada Sistem Pembangkit
Listrik Tenaga Panas Bumi (PTP) PT. Pertamina Geothermal Energy (PT.
PGE) Kamojang Unit IV Jawa Barat”, Skripsi, Fakultas Teknik, Universitas
Gadjah Mada.
Atlason, R., S., Gunnarsson, A., dan Unnthorsson, R., 2015, Turbine repair at
Nesjavellir geothermal power plant: An Icelandic case study, Elsevier :
Geothermics, 53, 166–170.
Bina, S. M., Jalilinasrabady, S., dan Fujii, H., 2017, Energy, economic, and
environmental (3E) aspects of internal heat exchanger for ORC geothermal
power plants, Elsevier : Energy, 140 , 1096-1106.
Bina, S. M., Jalilinasrabady, S., dan Fujii, H., 2018, Exergoeconomic analysis and
optimization of single and doubleflash cycles for Sabalan geothermal power
plant, Elsevier : Geothermics, 72, 74-82.
Bina, S. M., Jalilinasrabady, S., Fujii, H., dan Pambudi, N. A., 2018, Classification
of geothermal resources in Indonesia by applying exergy concept, Elsevier :
Renewable and Sustainable Energy Reviews, 93, 499–506.
Cengel, Y. A., Boles, M. A., 2011, “Thermodynamics: An Engineering Approach
7th Edition”, McGraw-Hill Companies, New York.
DiPippo, R., 2016, “Geothermal Power Plants : Principles, Applications, Case
Studies and Environmental Impact Fourth Edition”, Elsevier.
Direktorat Panas Bumi Kementerian ESDM, 2017, Kebijakan dalam Pengusahaan
Panas Bumi di Indonesia, Jakarta.
Dorj, P., 2005, “Thermoeconomic Analysis of a New Geothermal Utilization CHP
Plant in Tsetserleg, Mongolia”, Thesis, Department of Mechanical and
Industrial Engineering, University of Iceland.
Gumelar, G., 2017, ESDM: Konsumsi Listrik Nasional Masih Seperempat Negara
Maju, https://www.cnnindonesia.com/ekonomi/20170116103616-85-
186557/esdm-konsumsi-listrik-nasional-masih-seperempat-negara-maju
(diakses pada 15 Mei 2018).
Hensen, J. C., 2009, Cooling Tower Fundamentals, SPX Cooling Technologies,
Inc., Kansas.
Hudasaputra, D., 2017, “Analisis Termodinamika Perbandingan Antara Steam Jet
Ejector dan Hybrid System pada PLTP Lahendong, Sulawesi Utara”, Skripsi,
Fakulas Teknik, Universitas Gadjah Mada.
Kelana, F. S. A., 2016, “Analisis Termodinamika Sistem Pembangkit Listrik Tenaga
Panas Bumi (PLTP) Single Flash pada Lapangan Panas Bumi di Jailolo,
Halmahera”, Skripsi, Fakultas Teknik, Universitas Gadjah Mada.
117
Lazzaretto, A., dan Tsatsaronis, G., 2006, SPECO: A systematic and general
methodology for calculating efficiencies and costs in thermal systems,
Elsevier : Energy, 31, 1257–1289.
Oliveira, S., 2013, Exergy Production, Cost and Renewability, Springer, London.
Pambudi, N.A., Itoi, R., Jaililinasrabady, S., Jaelani, K., 2014, Exergy Analysis and
Optimization of Dieng Single-Flash Geothermal Power Plant, Elsevier :
Energi Conversion and Management, 78, 405-411.
Prananto, L.A., Juangsa, F.B., Iqbal, R.M., Aziz, M., Soelaiman, T.A.F., 2018,
Dry Steam Cycle Application for Excess Steam Utilization : Kamojang
Geothermal Power Plant Case Study, Elsevier : Renewable Energy, 117,
157-165.
Pusat Data dan Teknologi Informasi Kementerian ESDM, 2016, Data Inventory
Emisi GRK Sektor Energi, Jakarta.
Rofalina, F., 2015, Benarkah Bahan Bakar Fosil Mengancam Peradaban
Manusia?, https://www.zenius.net/blog/10363/energi-fosil-tambang-
pemanasan-global-warming (diakses pada 18 Mei 2018).
Rudiyanto, B., Illah, I.A., Pambudi, N.A., Cheng, C., Adiprana, R., Imran, M., Saw,
L.H., Handogo, R., 2017, Preliminary Analysis of Dry-Steam Geothermal
Power Plant by Employing Exergy Assessment : Case Study in Kamojang
Geothermal Power Plant, Indonesia, Elsevier : Case Studies in Thermal
Engineering, 10, 292-301.
Satriaksa, H., 2018, “Analisis Termodinamika Perbandingan Antara Steam Jet
Ejector dan Liquid Ring Vacuum Pump Pada Pltp Lahendong, Sulawesi
Utara”, Skripsi, Fakultas Teknik, Universitas Gadjah Mada.
Shokati, N., Ranjbar, F., dan Yari, M., 2015, Comparative and parametric study of
double flash and single flash/ORC combined cycles based on exergoeconomic
criteria, Elsevier : Applied Thermal Engineering, 91, 479-495.
Situs Resmi Otoritas Jasa Keuangan, 2017, Potensi Energi Panas Bumi Indonesia
Capai 29.215 GWe, https://www.ojk.go.id/sustainable-
finance/id/berita/berita-nasional/Pages/Potensi-Energi-Panas-Bumi-
Indonesia-Capai-29.215-GWe.aspx (diakses pada 18 Mei 2018).
Situs Resmi Presiden RI, 2016, Tiga Sasaran Program Listrik 35.000 MegaWatt,
http://presidenri.go.id/program-prioritas-2/tiga-sasaran-program-listrik-35-
000-megawatt.html (diakses pada 17 Mei 2018).
Stober, I., dan Bucher, K., 2013, Geothermal Energy : From Theoretical Models to
Exploration and Development, Springer, New York.
Yildirim, D., dan Ozgener, L., 2012, Thermodynamics and exergoeconomic
analysis of geothermal power plants, Elsevier : Renewable and Sustainable
Energy Reviews, 16, 6438–6454.
Yilmazm, C., Kanoglu, M., dan Abusoglu, A., 2015, Exergetic Cost Evaluation of
Hydrogen Production Powered by Combined Flash-Binary Geothermal
Power Plant, Elsevier : International Journal of Hydrogen Energy, 40, 41021-
14030.
Zhao, Y., dan Wang. J., 2016, Exergoeconomic analysis and optimization of a flash-
binary geothermal power system, Elsevier : Applied Energy, 179, 159–170.
Recommended