Analisis Kerusakan Sea Water Cooling Pump pada Mesin Induk di Kapal MV. Sjw Mountain
DOI:
https://doi.org/10.61132/globe.v4i2.1452Keywords:
Failure Mode and Effect Analysis (FMEA), Fishbone Diagram, Main Engine Cooling System, Planned Maintenance System (PMS), Sea Water Cooling PumpAbstract
Sea water cooling pump is a vital component of the main engine cooling system, responsible for circulating seawater to absorb engine heat. Damage to Sea water cooling pump No. 2 on MV. Sjw Mountain reduced pump pressure from the normal range of 3.5–3.9 bar to 1.5–1.9 bar, causing the cooling system temperature to increase to 80°C and increasing the risk of engine overheating. This study aimed to identify the causes of pump failure, evaluate the level of failure risk, and determine appropriate corrective actions. The research employed the Fishbone diagram and Failure Mode and Effect Analysis (FMEA). Data were collected through observations, interviews with ship engineers, documentation, and questionnaires administered to the Chief Engineer, Second Engineer, Third Engineer , Fourth Engineer, and Oiler. The Fishbone analysis identified five contributing factors: man, method, machine, material, and environment. FMEA results showed that the method factor had the highest Risk Priority Number (RPN) of 210, followed by environment (175), machine (160), material (120), and man (100). The study concluded that inadequate inspection and maintenance practices were the primary causes of pump failure. Recommended improvements include strengthening the Planned Maintenance System (PMS), conducting regular inspections, replacing worn components, and improving crew supervision to maintain optimal cooling system performance.
References
Arda Billy, M., Kurniawan, D. S., Sursina, S., & Mudakir, M. (2023). Performance analysis of Sea water cooling pumps on the smoothness of the main engine cooling system on the MT. Fail. International Journal of Advanced Multidisciplinary, 2(2), 589–594. https://doi.org/10.38035/ijam.v2i2.308
Chahyono, M. (2025). Analisis kerusakan impeler pada Sea water cooling pump mesin induk type Yanmar di kapal Self-Propelled Oil Barge Seroja XXI (Doctoral dissertation, Politeknik Pelayaran Surabaya).
Dewi, N. P., Putra, I. N., & Widodo, A. (2023). Evaluasi kinerja sistem pendingin mesin induk kapal berbasis analisis risiko kegagalan komponen. Jurnal Teknik Perkapalan, 11(2), 89–98.
Fauzan, M., Suharto, & Prasetyo, B. (2021). Identifikasi penyebab gangguan sistem pendingin mesin utama kapal dengan metode Fishbone Diagram. Jurnal Kelautan Nasional, 16(3), 145–153.
Holifahtus Sakdiyah, S., Eltivia, N., & Afandi, A. (2022). Root cause analysis using fishbone diagram: Company management decision making. Journal of Applied Business, Taxation and Economics Research, 1(6), 566–576. https://doi.org/10.54408/jabter.v1i6.103
Kawandoda, Y. K., Hariyanto, S., Klara, S., & Alwi, M. R. (2024). Analisis penyebab kegagalan Marine Growth Prevention System (MGPS) untuk sistem pendingin air laut pada kapal. Jurnal Riset & Teknologi Terapan Kemaritiman, 3(2), 49–54. https://doi.org/10.25042/jrt2k.122024.01
Kumah, A., Nwogu, C. N., Issah, A.-R., Obot, E., Kanamitie, D. T., Sifa, J. S., & Aidoo, L. A. (2024). Cause-and-effect (Fishbone) diagram: A tool for generating and organizing quality improvement ideas. Global Journal on Quality and Safety in Healthcare, 7(2), 85–87. https://doi.org/10.36401/JQSH-23-42
Mahendra, R., Wanto, K., Frastika, Y., Wijaya, H., Palapa, A., & Pelayaran Sulawesi Utara, P. (2025). Optimalisasi perawatan Sea water cooling pump guna kelancaran sistem pendingin pada auxiliary engine di MV. Tanto Bersama. Journal of Marine Engineering Research, 1. https://jurnal.poltekpelsulut.ac.id/index.php/marine
Muaimin Jufri, I. (2025). Failure analysis and optimization of main engine cooling system maintenance on a fishing vessel: A case study of KM. God Bless 08. Zona Laut Jurnal Inovasi Sains Dan Teknologi Kelautan, 120–128. https://doi.org/10.62012/zl.v6i1.43097
Murnawan, H. (2014). Perencanaan produktivitas kerja dari hasil evaluasi produktivitas dengan metode fishbone di perusahaan percetakan kemasan PT. X. Jurnal Teknik Industri HEURISTIC, 11(1).
Mustain, I. (2020). Penurunan tekanan pada pompa air laut pada mesin induk kapal. Majalah Ilmiah Gema Maritim, 22(1), 27–33. https://doi.org/10.14710/kapal.v22i1.67419
Pratama, A. A., Astriawati, N., Waluyo, P. S., & Wahyudiyana, R. (2022). Optimalisasi perawatan sistem pendingin mesin utama di kapal MV. Nusantara Pelangi 101. Majalah Ilmiah Bahari Jogja, 20(1), 1–11 https://doi.org/10.33489/mibj.v20i1.289
Rahman, F., Nugraha, A., & Hidayat, T. (2024). Optimization of ship main engine maintenance using Failure Mode and Effect Analysis (FMEA) approach. International Journal of Marine Engineering Innovation and Research, 9(1), 55–64.
Siahaan, J. P., Yaqin, R. I., Tumpu, M., Hermawan, A., Nugroho, S. D., Prakoso, B., Luthfiani, F., & Zein, L. A. S. (2025). Implementation of Failure Mode and Effects Analysis in the maintenance strategy for the main engine cooling system pump of fishing vessels. Kapal: Jurnal Ilmu Pengetahuan Dan Teknologi Kelautan, 22(1), 34–44. https://doi.org/10.14710/kapal.v22i1.67419
Yaqin, R. I., Zamri, Z. Z., Siahaan, J. P., Priharanto, Y. E., Alirejo, M. S., & Umar, M. L. (2020). Pendekatan FMEA dalam analisa risiko perawatan sistem bahan bakar mesin induk: Studi kasus di KM. Sidomulyo. Jurnal Rekayasa Sistem Industri, 9(3), 189–200. https://doi.org/10.26593/jrsi.v9i3.4075.189-200
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