APPLICATION OF NEWTON – RAPHSON METHOD TO ANALYZE THERMAL EFFICIENCY OF GAS TURBINE BEFORE AND AFTER ENGINE REPLACEMENT
Damianus Mario Ricky Fernando(1*), Joko Waluyo(2), Nugroho Dewayanto(3)
(1) Master Program of System Engineering, Faculty of Engineering, Universitas Gadjah Mada
(2) Department of Mechanical and Industrial Engineering, Faculty of Engineering, Universitas Gadjah Mada
(3) Center for Energy Studies, Universitas Gadjah Mada
(*) Corresponding Author
Abstract
Gas turbine performance is one of the main concerns in the operating of industrial plants. Thermal efficiency is vital to analyze the performance of the gas turbine. This research purpose is to analyze the gas turbine's thermal efficiency after performed engine replacement in one of the gas industries in Kutai Kartanegara, East Kalimantan, Indonesia. The data was taken during the period from August 2017 to July 2018, while engine replacement was performed in February 2018. The data were processed to develop simulation models expressing the characteristics of the equipment.
The simulation models were then solved simultaneously using the Newton – Raphson Method. A beneficial advantage of Newton Raphson is that it enables to handle a massive number of data and provides faster iteration compare to other methods. Based on the simulation results, the thermal efficiency before performed engine replacement was 23.43% with a net power of 18.109 MW and fuel consumption of 1.640 Kg/s. Meanwhile, the development of thermal efficiency after performed engine replacement was 28.24% with a net power of 18.597 MW and fuel consumption of 1.397 Kg/s. This indicates that after performing engine replacement, the thermal efficiency increased by 4.81% and saved fuel by 0.243 Kg/s.
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Bakari, H., Adegoke, T., & Yahya, A. (2016, August). Application of Newton - Raphson Method to Non-Linear Models. International Journal of Mathematics and Statistics Studies, IV, 21-31. Chapra, S. C., & Canale, R. P. (2010). Numerical Method for Engineers sixth edition. New York: McGraw-Hill. Chaterine, L., Sugihartono, I., & Astra, I. (2010, Juli). Hasil Perhitungan Efisiensi Termal PLTGU dan peluangnya sebagai penyumpang pemanasan udara. Jurnal Meteorologi dan Geofisika Vol 11 No 1, 59-66. ESSOM CO. (2008, Juni 7). Faculty of Engineering and Applied Science. Retrieved from Queen's University Web Site: https://chemeng.queensu.ca/courses/CHEE332/files/ethanol_heating-values.pdf Finaelf, T. (2002). Tunu Field Development Project Phase 8. Balikpapan: Total Finaelf E&P Indonesie. Gusnita, N., & Said, K. S. (2017). Analisas Efisiensi dan Pemanfaatan Gas Buang Turbin Gas Alsthom Pada Pembangkit Listrik Tenaga Gas Kapasitas 20 MW. Jurnal Sains, Teknologi dan Industri, Vol 14 No.2, 209-218. Mahmuddin. (2017). Studi Eksperimental Penurunan Tekanan Aliran Melewati Belokan Pipa Horizontal dengan Variasi Rasio R/D. Teknologi, 18, 45 - 52. Musnal, A. (2014). Perhitungan Laju Aliran Fluida Kritis Untuk Mempertahankan Tekanan Reservoir Pada Sumur Ratu di Lapangan Kinantan. Journal of Earth Energy Engineering, 1-8. Naryono, & Budiono, L. (2013). Analisis Efisiensi Turbin Gas terhadap Beban Operasi PLTGU Muara Tawar Blok I. SINTEK VOL 7 No 2, 78-94. Oyedepo, S. (2014). Thermodynamic Analysis of a Gas Turbine Power Plant Modeled with Evaporative Cooler. International Journal of Thermodynamics (IJoT), 17(1), 14-20. doi:10.5541/ijot.480 Pamungkas, B. (2018). GE LM 2500 + SAC & HSPT Replacement Report. Balikpapan: Pertamina Hulu Mahakam. Ramadhan, T. A. (2018). Efisiensi Turbin Gas sebelum dan sesudah overhaul combustion inspection di GTG Utility I PT. Petrokimia Gresik. Yogyakarta: Universitas Gadjah Mada. Stoecker, W. F. (1989). Design of Thermal Systems third edition. Singapore: McGraw-Hili Book Co. Sulistiyo, F., & Rangkuti, C. (2018). Analisa Eksergi dan Efisiensi Aktual Turbin Gas Unit P-4 Sesudah Pemeliharaan Menyeluruh PT.PUPUK KALTIM. Seminar Nasional Cendikiawan ke 4 (pp. 279-287). Jakarta: Universitas TriSakti. Sunarwo, & Harijono, T. (2016). Analisa Efisiensi Turbin Gas Unit 1 Sebelum dan Sesudah Overhaul Combustor Inspection di PT PLN (PERSERO) Sektor Pembangkitan PLTGU Cilegon. Jurnal Teknik Energi Vol 12 No 2, II, 50-57.
DOI: https://doi.org/10.22146/ajse.v4i1.60527
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