x 6. DAFTAR PUSTAKA [1] D. Andi and H. K. Dewi, “Kementerian ESDM: Penuhi target bauran EBT 23% di 2025 tak bisa hanya andalkan RUPTL,” Akselerasi Energi Baru Terbarukan, p. 1, 2020. [2] A. Umah, “Ini ‘Harta Karun’ Energi Terbesar ke-2 Dunia yang Dicuekin RI,” News CNBC Indonesia, pp. 1–2, 2021. [3] R. Wahyuningsih, “Potensi Dan Wilayah Kerja Pertambangan Panas Bumi Di Indonesia,” SUBDIT PANAS BUMI, 2016. [4] R. B. Swandaru, “THERMODYNAMIC ANALYSIS OF PRELIMINARY DESIGN OF POWER PLANT UNIT I PATUHA , WEST JAVA , INDONESIA,” no. 7, 2006. [5] R. F. Boehm and L. Vegas, “Direct-Contact Heat Transfer,” no. November, 2014. [6] R. B. Power, Steam Jet Ejectors for the Process Industries. Charleston: Printed and bound by C & M Press, 2002. [7] G. Rianda, “ANALISIS DAMP AK KENAIKAN TEKANAN OPERASI INTERCONDENSER TERHADAP KINERJA PLTP ,” Institut Teknologi Bandung, 2020. [8] A. A. Dani, “PENGEMBANGAN PERSAMAAN PERPINDAHAN PANAS KONDENSASI KONTAK LANGSUNG BU TIR AIR PENDINGIN DENGAN UAP YANG MENGANDUNG NON CONDENSABLE GAS (NCG),” Institut Teknologi Bandung, 2018. [9] R. Dipippo and D. Ph, Geothermal Power Plants : Principles , Applications , Case Studies and Environmental Impact Third Edition, THIRD. Waltham: ELSEVIER, 2012. [10] H. El-dessouky, H. Ettouney, I. Alatiqi, and G. Al-nuwaibit, “Evaluation of steam jet ejectors,” vol. 41, pp. 551–561, 2002. [11] A. Singhal, T. Chitkara, and M. Ameenuddin, “Design , CFD Analysis and Kinerjance Evaluation of the Steam Jet Ejector Design , CFD Analysis and Kinerjance Evaluation of the Steam Jet Ejector,” no. October, 2016. [12] K. F. Harns, “INCREASING THE EFFICIENCY OF GEOTHERMAL POWER PLANTS USING OPTIMUM PRESSURES,” 2014. [13] Heat Exchanger Institute, STANDART by Heat Exchanger Institute. 2008.