Bearing Failure Analysis on Gearbox Forced Draft Fan at LNG Plant
Abstract
Boilers Forced Draft Fan has a gearbox reducer to reduce speed from steam turbine as a driver and fan as the driven. Based on Predictive Maintenance Group at Machinery and Heavy Equipment Section, it was found that gearbox has high vibration and noise when boilers load on 195 Ton/Hr (Max Load 295 Ton/hr). Vibration Analysis indicates that the source of vibration comes from bearings with peak value 0.572 in/sec at gearbox high speed outboard vertical and 0.593 in/sec at gearbox high speed outboard horizontal (Max Allowance 0.50 in/sec). Lubrication analysis using X-ray Flourescence method, to see wear particle on lubricating oil showed that Tin(Sn) content is very high 203.62 mg/L (maximum allowance for Tin(Sn) at gearbox is 20mg/L), but wear debris are not found in lubricating oil. Gearbox disassembly found that high speed and low speed bearings suffered severe corrosion. Corrosion at bearings are caused by water contamination on lubrication oil, it comes from steam leak due to carbon ring failure at steam turbine which is steam turbine bearing lubrication and gearbox lubrication get into one lubrication system. After Bearings replaced with a new one, vibration analysis shown improved vibration conditions 0.084 in/sec at gearbox high speed outboard vertical and 0.066 in/sec at gearbox high speed outboard horizontal. In conclucion, high vibration and noise at gearbox reducer were caused by bearings failure due to severe corrosion, and water contamination on lubrication oil for gearbox due to carbon ring failure on steam turbine.
Keywords
Full Text:
PDFReferences
P. Girdhar, Practical Machinery Vibration Analysis and Predictive Maintenance (Oxford: Newnes, 2004)
Philagear.com, High-Speed Gear Drives Brochure (US: Timken Gears & Services, Inc, 2013)
Shimadzu Corporation, EDX Series manual book( Japan, 2017)
A. Cutler, Experts in Oil Analysis (US: Lubetrend, 2015)
K. Heselton, Boiler Operator’s Handbook (US: The Fairmont Press, Inc. 2004)
Timken, Timken Bearing Damage Analysis with Lubrication Reference Guide (US: Timken Company, 2006)
M.J. Neale, The Tribology Handbook Second Edition (Oxford: Butterworth-Heinemann, 1995)
R.S. Khurmi and J.K. Gupta, A Text Book of Machine Design (India: Eurasia Publishing House, 2005)
R.G. Budynas and J.K. Nisbett, Mechanical Engineering Design (US: Shigley’s, 2015)
Gys van Zyl, Abdulmohsin Al-Sahli, Failure analysis of conveyor pulley shaft, Case Studies in Engineering Failure Analysis, 1(2013) 144-155
Torben Kjer, wear rate and concentration of wear particles in lubricating oil, Wear, 67(1981) 217-226.
Z. Peng, N.J. Kessissoglou, M. Cox, A study of the effect of contaminant particles in lubricants using wear debris and vibration condition monitoring techniques, wear, 258(2005) 1651-1662.
I.P. Nurprasetio, B.A. Budiman, & F. Triawan, Failure Investigation of Plastic Shredding Machine’s Flange Coupling Based on Mechanical Analysis, Indonesia Journal of Science and Technology, http://dx.doi.org/10.17509/ijost.v2i2.7988.
DOI: https://doi.org/10.17509/ijost.v3i2.12756
Refbacks
- There are currently no refbacks.
Copyright (c) 2018 Indonesian Journal of Science and Technology
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Indonesian Journal of Science and Technology is published by UPI.
View My Stats