International Conference on Engineering, Construction, Renewable Energy, and Advanced Materials

The start process was challenged combined cycle power plant because it was operated as a peaker power plant that increased its start-stop frequency. Start failure can happen anytime. One of so many factor that caused start failure is igniter abnormal. In this paper majority about start failure was discussed and igniter’s current measurement attended for effective solution of it. This solution effectively mitigated the start failure that caused by igniter abnormal and help the power plant avoid loose production from the case. The result of this study shown that igniter’s current measurement effectively decreased the igniter’s abnormal case from 21.94% to 6.89%. This solution easy to be used by anyone and anytime. It also easily can be applied to other combined cycle power plant.

“Statistik PLN 2020 (Unaudited),” PT. PLN (Persero), 2021.

M. Zuhdi and M. Suef, “Risk Analysis of Combustion Failure in Gas Turbine Start Process in PLTGU Unit PT.X,” IPTEK Journal of Proceedings Series, No. 5, pp. 245-247, 2019.

N. Ding, J. Duan, S. Xue, M. Zeng, “Overall review of peaking power in China: Status quo, barriers and solutions”, Elsevier.

Renewable and Sustainable Energy Reviews, Vol. 42, pp503-516, 2015.

M. Suef, “Risk analysis of gas turbine start process in PLTGU unit PT.X using FMECA method” Indonesia: Institute of Sepuluh Nopember, 2019.

T.E. Ekstrom, “Reliability/availability guarantees of gas turbine and combined cycle generating units”, IEEE Transactions on Industry Applications, vol. 31, no.4, pp. 691-707, 1995.

S. Pradana, F. Utaminingrum, W. Kurniawan, “Focused flame detection using camera based on sms gateway notification with Raspberry Pi”, JPTIIK Journal vol. 2, no. 12, pp. 7183-7191, August. 2018.

Manual book operation and maintenance, Indonesia: MHI Ltd, 1993

A. D. Rachmawati, et al., “Statistic analysis customer satisfaction of power plant’s service quality in PT. Pembangkitan Jawa – Bali”, JSSITS Journal vol. 1, issue 1, pp. 329-334, 2011.

Ambekar, S. B., Edlabadkar, A., & Shrouty, V, “A Review: Implementation of Failure Mode and Effect Analysis. International Journal of Engineering and Innovative Technology”, 2013.

Panchal, D., Kumar, D., “Risk Analysis of Compressor House Unit in Thermal Power Plant Using Integrated Fuzzy FMEA and GRA Approach”, Int. J. Industrial and Systems Engineering, Vol. 25, No. 2 p: 228-250, 2017.

Manahan, Tampubolon P., “Manajemen Operasional”, Edisi Pertama. Ghalia Indonesia, Jakarta, 2004.

Suef. Mokh., “Quality in Product and Process Design”, Materi Ajar Manajemen Industri. MMT ITS, 2016.

Pujiono, B.N., Tama, I.P.,&Efranto, R.Y., “Analisis Potensi Bahaya Serta Rekomendasi Perbaikan Dengan Metode Hazard And Operability Study (Hazop) Melalui Perangkingan Ohs Risk Assessment And Control (Studi Kasus: Area Pm-1 Pt. Ekamas Fortuna)”, Jurnal Rekayasa dan Manajemen Sistem Industri, Vol.1 No.2 p:253-264, 2013.

Xiao, N., Huang, et al., “Multiple Failure Modes Analysis and Weighted Risk Priority Number Evaluation in FMEA”, Engineering Failure Analysis, 1162-1170, 2011.

Madarina, Najma., “Analisa Risiko Pada Proyek Pembangunan Gelora Joko Samudro Tahap Kedua di Kabupaten Gresik dengan Menggunakan Metode Failure Mode and Effects Analysis (FMEA), Laporan Tesis. MMT ITS, 2017.