Application of Predictive Maintenance System in Drinking Water Pumping Stations

• Authors: R. Kiliç , R. Kozan , D. Karayel , S. Özkan
• Languages of publication: EN

Abstracts

EN

Pumping stations are some of the most important facilities of water administration. Continuous operation of these facilities is of utter importance, to be able to serve at all times. Maintenance of these facilities is also crucial for uninterrupted operation. In this study, the functioning of the predictive maintenance technique, which is based on the vibration analysis, is briefly addressed, and the application of the technique in a real system is presented. In the real system, the steps that must be done in order to apply this system are shown step-by-step. At the end of the study, the failures determined by using the predictive maintenance method are analyzed, and solution suggestions are presented.

Keywords

EN

43.40.-r; 62.25.Jk

Discipline

• 62.25.Jk: Mechanical modes of vibration

• Publisher: Institute of Physics, Polish Academy of Sciences
• Journal: Acta Physica Polonica A
• Year: 2017
• Volume: 132
• Issue: 3
• Pages: 1016-1021

Dates

published

2017-09

Contributors

author

R. Kiliç

• Sakarya University, Sakarya M.Y.O. 54l87 Sakarya, Turkey

author

R. Kozan

• Sakarya University, Engineering Faculty, Adapazari Sakarya, Turkey

author

D. Karayel

• Sakarya University, Technology Faculty, Adapazari Sakarya, Turkey

author

S. Özkan

• Sakarya University, Technology Faculty, Adapazari Sakarya, Turkey

References

• [1] N. Aktürk, R. Gohar, Proc. Instn. Mech. Engrs. Part J 212, 101 (1998)
• [2] D.E. Bently, Basic Rotor-to-Stator Thermal Rubs which Exhibit Rotative Speed ($1×$) Symptom Only, http://www.bentlicom/articls/996don.asp, Orbit, September 1996
• [3] D.E. Bently, Predictive Maintenance Through the Monitoring and Diagnostics of Rolling Element Bearing, Applications Note http://www.bentlicom/articls/apnotles/an044pxa.asp, 2001
• [4] S.R. Bognatz, Alignment of Critical and Noncritical Machines, http://www.bently.com/service/training/mlmidalign.htm, 2000
• [5] C. Forland, Why Phase Information is Important for Diagnosing Machinery Problems, http://www.bentli.com, Orbit, September 1999
• [6] D. Yu, J. Cheng, Y. Yang, Mech. Syst. Sign. Proc. 19, 259 (2005), doi: 10.1016/S0888-3270(03)00099-2
• [7] M.R.F. Derakhshi, Z. Shukur, Informatica 35, 259 (2011)
• [8] N. Aktürk, M. Uneeb, R. Gohar, J. Tribol. 119, 747 (1997)
• [9] P. Liggan, D. Lyons, Pharmaceutical Engin. 31, 1 (2011)
• [10] A. Almasi, Australian J. Mechan. Engin. 14, 199 (2016), doi: 10.1080/14484846.2015.1093252
• [11] D.W. Gelen, Introduction to Machine Vibration, DLI Engineering Corp., 1993
• [12] A.R. Crawford, S. Crawford, The Simplified Handbook of Vibration Analysis, Computational Systems Inc., 1992
• [13] J.I. Taylor, The Vibration Analysis Handbook, Vibration Consultants, 1994
• [14] W. Victor, Machinery Vibration Measurement and Analysis, McGraw Hill Book Company, 1991
• [15] S. Orhan, N. Aktürk, V. Çelik, NDT & International 39, 293 (2006)
• [16] S.M. Abdel-Rahman, A.A. El-Shaikh Sami, Diagnosis Vibration Problems of Pumping Stations: Case Studıes in: 13th Int. Water Technology Conf., IWTC 13, Hurghada, Egypt 2009
• [17] R. Kilic, Acta Phys. Pol. A 130, 487 (2016), doi: 10.12693/APhysPolA.130.487

Identifiers

DOI

10.12693/APhysPolA.132.1016