Transient frequency response based leak detection in water supply pipeline systems with branched and looped junctions

The transient frequency response (TFR) method has been widely developed and applied in the literature to identify and detect potential defects such as leakage and blockage in water supply pipe systems. This type of method was found to be efficient, economic and non-intrusive for pipeline condition assessment and diagnosis, but its applications so far are mainly limited to single and simple pipeline systems. This paper aims to extend the TFR-based leak detection method to relatively more complex pipeline connection situations. The branched and looped pipe junctions are firstly investigated for their influences to the system TFR, so that their effects can be characterized and separated from the effect of other components and potential leakage defects in the system. The leak-induced patterns of transient responses are derived analytically using the transfer matrix method for systems with different pipe junctions, which thereafter are used for the analysis of pipe leakage conditions in the system. The developed method is validated through different numerical experiments in this study. Based on the analytical analysis and numerical results, the applicability and accuracy as well as the limitations of the developed TFR-based leak detection method are discussed for practical applications in the paper.

[1]  Luisa Fernanda Ribeiro Reis,et al.  Leak detection by inverse transient analysis in an experimental PVC pipe system , 2011 .

[2]  Pedro Lee,et al.  Frequency Domain Analysis for Detecting Pipeline Leaks , 2005 .

[3]  Silvia Meniconi,et al.  Potential of Transient Tests to Diagnose Real Supply Pipe Systems: What Can Be Done with a Single Extemporary Test , 2011 .

[4]  Mark L. Stephens,et al.  Calibrating the Water-Hammer Response of a Field Pipe Network by Using a Mechanical Damping Model , 2011 .

[5]  Yeou-Koung Tung,et al.  System Response Function–Based Leak Detection in Viscoelastic Pipelines , 2012 .

[6]  Huan-Feng Duan,et al.  Numerical and Experimental Study on the Effect of Signal Bandwidth on Pipe Assessment Using Fluid Transients , 2015 .

[7]  Pedro J. Lee,et al.  Leak detection in complex series pipelines by using the system frequency response method , 2011 .

[8]  Helena M. Ramos,et al.  Case Studies of Leak Detection and Location in Water Pipe Systems by Inverse Transient Analysis , 2010 .

[9]  Hanif M. Chaudhry,et al.  Applied Hydraulic Transients , 1979 .

[10]  Ahmed M. A. Sattar,et al.  Leak detection in pipelines by frequency response method , 2008 .

[11]  M. Stephens,et al.  Field Tests for Leakage, Air Pocket, and Discrete Blockage Detection Using Inverse Transient Analysis in Water Distribution Pipes , 2004 .

[12]  Angus R. Simpson,et al.  Experimental verification of the frequency response method for pipeline leak detection , 2006 .

[13]  Pedro J. Lee Using system response functions of liquid pipelines for leak and blockage detection. , 2005 .

[14]  Angus R. Simpson,et al.  LEAK DETECTION IN PIPELINES USING THE DAMPING OF FLUID TRANSIENTS , 2002 .

[15]  Silvia Meniconi,et al.  Leak detection in branched pipe systems coupling wavelet analysis and a Lagrangian model. , 2009 .

[16]  Bryan W. Karney,et al.  Frequency domain analysis of pipe fluid transient behaviour , 2013 .

[17]  Bruno Brunone,et al.  Pipe system diagnosis and leak detection by unsteady-state tests. 1. Harmonic analysis , 2003 .

[18]  Pedro J. Lee,et al.  Transient-Based Frequency Domain Method for Dead-End Side Branch Detection in Reservoir Pipeline-Valve Systems , 2016 .

[19]  Helena M. Ramos,et al.  Standing Wave Difference Method for Leak Detection in Pipeline Systems , 2005 .

[20]  Silvia Meniconi,et al.  Anomaly pre-localization in distribution–transmission mains by pump trip: preliminary field tests in the Milan pipe system , 2015 .

[21]  Hanif M. Chaudhry,et al.  Applied Hydraulic Transients , 1979 .

[22]  Helena M. Ramos,et al.  Application of hydraulic transients for leak detection in water supply systems , 2004 .

[23]  K Sridharan,et al.  Inverse transient analysis in pipe networks , 1996 .

[24]  Xiaojian Wang Leakage and blockage detection in pipelines and pipe network systems using fluid transients / by Xiao-Jian Wang. , 2002 .

[25]  M. Ferrante,et al.  Detecting leaks in pressurised pipes by means of transients , 2001 .

[26]  M. Chaudhry,et al.  Leak detection in pipes by frequency response method using a step excitation , 2001 .

[27]  Huan-Feng Duan,et al.  Transient wave-blockage interaction and extended blockage detection in elastic water pipelines , 2014 .

[28]  Yeou-Koung Tung,et al.  Essential system response information for transient-based leak detection methods , 2010 .

[29]  Mark Leslie Stephens,et al.  Transient response analysis for fault detection and pipeline wall condition assessment in field water transmission and distribution pipelines and networks. , 2008 .

[30]  E. Benjamin Wylie,et al.  Fluid Transients in Systems , 1993 .

[31]  Angus R. Simpson,et al.  Leak Detection and Calibration Using Transients and Genetic Algorithms , 2000 .

[32]  Silvia Meniconi,et al.  Discussion of “Detection of Partial Blockage in Single Pipelines” by P. K. Mohapatra, M. H. Chaudhry, A. A. Kassem, and J. Moloo , 2008 .

[33]  Wieslaw J. Staszewski,et al.  Comparative study of instantaneous frequency based methods for leak detection in pipeline networks , 2012 .

[34]  Bruno Brunone,et al.  Transient Test-Based Technique for Leak Detection in Outfall Pipes , 1999 .

[35]  M. Ghidaoui,et al.  Range of Validity of the Transient Damping Leakage Detection Method , 2006 .

[36]  Bryan W. Karney,et al.  Role and characterization of leaks under transient conditions , 2000 .

[37]  B. Shenoi Frequency Domain Analysis , 2005 .

[38]  Bryan W. Karney,et al.  A selective literature review of transient-based leak detection methods , 2009 .