ANALISIS FLANGE LEAKAGE SISTEM PIPA GAS SALES RECEIVER BERBASIS SIMULASI DAN MANUAL
Keywords:
Flange Leakage, Shut Down Valve (SDV), Gas Sales Receiver, Simulation Analysis, Manual CalculationAbstract
Flange leakage assessment is a crucial step in ensuring the safety and reliability of piping systems, particularly in critical equipment such as Shut Down Valves (SDV). This study aims to analyze the flange leakage values at two key locations, namely node 110 and node 120, in a gas pipeline system. Simulation results show leakage values of 1457.45 lb/in² and 1471.93 lb/in², respectively—both below the allowable limit of 1480 lb/in². Additionally, manual calculations yielded leakage values of 1453.32 lb/in² and 1468.76 lb/in². The error percentages between simulation and manual methods are relatively small, at 0.22% and 0.28%. Therefore, it can be concluded that the piping system in the Gas Sales Receiver is safe and suitable for operation under its designated conditions.
References
DAFTAR PUSTAKA
Aneziris, O., Koromila, I. A., & Nivolianitou, Z. (2022). Risk assessment for ship-to-ship LNG bunkering. Chemical Engineering Transactions, 90, 19-24.
Buede, D. M., & Miller, W. D. (2024). The engineering design of systems: models and methods. John Wiley & Sons.
Cloostermans, B., Pronk, D., Bruckenburg, B., Goossens, S., Baghdasaryan, T., & Berghmans, F. (2025). Bolted Flange Connection Leakage: a Systematic Review of Monitoring Challenges and Technologies. IEEE Sensors Reviews.
Datta, Anirban & Bhattacharya, Pranab. (2022). Comparative Analysis and Pros & Cons of Evaluation of Different Methods for Flange Leakage in Process Plant Critical Piping. Conference: 37th Indian Engineering Congress: Chennai Tamilnadu, India
Paolacci, F., Quinci, G., Nardin, C., Vezzari, V., Marino, A., & Ciucci, M. (2021). Bolted flange joints equipped with FBG sensors in industrial piping systems subjected to seismic loads. Journal of Loss Prevention in the Process Industries, 72, 104576.
Sarwar, U., Mokhtar, A. A., Muhammad, M., Wassan, R. K., Soomro, A. A., Wassan, M. A., & Kaka, S. (2024). Enhancing pipeline integrity: a comprehensive review of deep learning-enabled finite element analysis for stress corrosion cracking prediction. Engineering Applications of Computational Fluid Mechanics, 18(1), 2302906.
Setyani, A., Hermawan, M. A. J. S., Prabowo, I., & Amin, N. (2025). Investigasi Korosi Pipa Flowline Carbon Steel Pada Sistem Produksi Migas Dan Penerapan Solusi Protektif. J-ENSITEC, 11(02), 10207-102015.
Siregar, A. C. P., & Tamimah, N. M. (2022). Fisika Dasar Jilid 2: Mekanika Lanjut (Vol. 2). CV. Kanaka Media.
Wicaksono, T. A., Poernomo, H., & Tamimah, N. M. (2023, November). Redesign Support dan Analisis Tegangan pada Sistem Perpipaan Line Gas Sales Receiver Akibat Soil Settlement. In Proceedings of National Conference on Piping Engineering and Its Application (Vol. 8, No. 1, pp. 104-106).
Zhou, F., Dong, X. L., Jiang, W. C., Wang, X., & Xie, Y. T. (2023). Contact mechanical behavior and leakage prediction of metal lenticular gaskets in bolt flange joints of ultrahigh pressure pipelines. International Journal of Pressure Vessels and Piping, 206, 105038.
Indonesian Society of Applied Science (ISAS)
