Dr Jinzhe Gong

Dr Jinzhe Gong
  • Qualifications

    2014   PhD in Water Engineering, the University of Adelaide, Adelaide, Australia

    2009   M.Eng in Applied Geophysics, Central South University, Changsha, Hunan, P. R. China

    2007   B.Eng in Applied Geophysics, Central South University, Changsha, Hunan, P. R. China

  • Awards & Achievements


    2014   Dean's Commendation for Doctoral Thesis Excellence

    Awarded by the Dean of Graduate Centre, the University of Adelaide, to recognise the quality of a PhD thesis as outstanding.


    2013   South Australian Water Awards - Postgraduate Research Award

    An annual award issued by Australian Water Association to recognise excellent and high-impact Postgraduate research in water related areas.

  • Teaching Interests

    • Water Engineering and Design (3rd year and Masters)

    • Water Distribution Systems and Design (4th Year and Masters)

  • Research Interests

    1.     Pipeline condition assessment using fluid transients
    • Leak and blockage detection in pipe networks
    • Assessment of the wall condition of pipelines
    • Numerical modelling of transient events in pipelines
    • Laboratory and field testing of fluid transients for pipeline condition assessment

    2.     Health monitoring and risk assessment for civil infrastructure
    • Non-destructive testing of civil infrastructure using electric, electromagnetic, seismic, acoustic and ultrasonic methods
    • Numerical modelling of electric and electromagnetic fields using finite element methods
    • Laboratory and field testing for structural heath monitoring

  • Publications

    Journal papers

    1. Gong, J., Zecchin, A. C., Lambert, M. F., and Simpson, A. R. (2016). "Determination of the creep function of viscoelastic pipelines using system resonant frequencies with hydraulic transient analysis." Journal of Hydraulic Engineering, 04016023, DOI: 10.1061/(ASCE)HY.1943-7900.0001149.
    2. Gong, J., Lambert, M. F., Zecchin, A. C., Simpson, A. R., and Arbon, N. S. (2016). "Field study on non-invasive and non-destructive condition assessment for asbestos cement pipelines by time-domain fluid transient analysis." Structural Health Monitoring, 15(1), 113-124, DOI: 10.1177/1475921715624505.
    3. Gong, J., Lambert, M. F., Zecchin, A. C. and Simpson, A. R. (2016) “Experimental verification of pipeline frequency response extraction and leak detection using the inverse repeat signal”, Journal of Hydraulic Research,  54(2), 210-219, DOI: 10.1080/00221686.2015.1116115.
    4. Gong, J., Stephens, M. L., Arbon, N. S., Zecchin, A. C., Lambert, M. F., and Simpson, A. R. (2015). "On-site non-invasive condition assessment for cement mortar lined metallic pipelines by time-domain fluid transient analysis." Structural Health Monitoring, 14(5), 426-438, DOI: 10.1177/1475921715591875.
    5. Tang, J., Zhang, L., Gong, J., and Xiao, X. (2014)."3D frequency domain controlled source electromagnetic numerical modeling with coupled finite-infinite element method." Journal of Central South University (Science and Technology), 45(4), 1251-1260. (in Chinese)
    6. Gong, J., Zecchin, A. C., Simpson, A. R., and Lambert, M. F. (2014). “Frequency response diagram for pipeline leak detection: comparing the odd and the even harmonics”, Journal of Water Resources Planning and Management, 140(1), 65-74, DOI: 10.1061/(ASCE)WR.1943-5452.0000298.
    7. Gong, J., Lambert, M. F., Simpson, A. R., and Zecchin, A. C. (2014). “Detection of localized deterioration distributed along single pipelines by reconstructive MOC analysis”, Journal of Hydraulic Engineering, 140(2), 190-198, DOI: 10.1061/(ASCE)HY.1943-7900.0000806.
    8. Gong, J., Simpson, A. R., Lambert, M. F., Zecchin, A. C., Kim, Y., and Tijsseling, A. S. (2013). “Detection of distributed deterioration in single pipes using transient reflections", Journal of Pipeline Systems Engineering and Practice, 4(1), 32-40, DOI: 10.1061/(ASCE)PS.1949-1204.0000111.
    9. Gong, J., Simpson, A. R., Lambert, M. F., and Zecchin, A. C. (2013). “Determination of the linear frequency response of single pipelines using persistent transient excitation: a numerical investigation”, Journal of Hydraulic Research, 51(6), 728-734, DOI: 10.1080/00221686.2013.818582.
    10. Gong, J., Lambert, M. F., Simpson, A. R., and Zecchin, A. C. (2013). “Single event leak detection in a pipeline using the first three resonant responses”, Journal of Hydraulic Engineering, 139(6), 645-655, DOI: 10.1061/(ASCE)HY.1943-7900.0000720.
    11. Tang, J.,and Gong, J. (2010) “3D DC resistivity forward modelling by finite-infinite element coupling method”, Chinese Journal Geophysics, 53(3), 717-728, DOI:10.3969/j.issn.0001-5733.2010.03.027. (in Chinese)
    12. Tang, J., and Gong, J. (2010). "Visualization of the pre-and post-processing in finite element analysis based on GiD", Progress in Geophysics, 25(1), 186-195. (in Chinese)
    13. Tang, J., Gong, J., and Luo, W (2008)."Invert-repeat m-sequence pseudorandom signal generator based on CPLD", Chinese Jounal of Engineering Geophysics, 5(2), 141-147. (in Chinese)

    Conference Papers (fully refereed)

    1. Gong, J., Kim, Y., Fandrich, H., Lambert, M. F., Simpson, A. R., and Zecchin, A. C. (2015). "Field study on pipeline parameter identification using fluid transient waves with time-domain analysis." 12th International Conference on Pressure Surges, BHR Group, Dublin, Ireland.
    2. Gong, J., Zecchin, A. C., Lambert, M. F., and Simpson, A. R. (2015). "Study on the frequency response function of viscoelastic pipelines using a multi-element Kevin-Voigt model." 13th Computer Control for Water Industry Conference (CCWI 2015), Leicester, UK.
    3. Zecchin, A. C., Gong, J., Simpson, A. R., and Lambert, M. F. (2014). "Condition assessment in hydraulic noisy pipeline systems using a pressure wave spliting method", Procedia Engineering, 89, 1336-1342. (Conference paper for the 15th Water Distribution Systems Analysis Conference (WDSA 2014), American Society of Civil Engineers, Bari, Italy).
    4. Gong, J., Lambert, M. F., Simpson, A. R., and Zecchin, A. C. (2012). “Distributed deterioration detection in single pipelines using transient measurements from pressure transducer pairs”, 11th International Conference on Pressure Surges, BHR Group, Lisbon, Portugal.

    Conference Papers (abstract refereed)

    1. Gong, J., Lambert, M., Simpson, A., and Zecchin, A. (2016). "A case study on condition assessment of an asbestos cement water pipeline using hydraulic transient pressure waves", Computing and Control for the Water Industry (CCWI) 2016, International Water Conferences, Amsterdam, the Netherlands.
    2. Gong, J., Lambert, M. F., Simpson, A. R., and Zecchin, A. C. (2012). “Distributed deterioration detection and location in single pipes using the impulse response function”, 14th Water Distribution Systems Analysis Conference (WDSA 2012), American Society of Civil Engineers, Adelaide, South Australia.
    3. Gong, J., Zecchin, A. C., Lambert, M. F., and Simpson, A. R. (2012). “Signal separation for transient wave reflections in single pipelines using inverse filters”, World Environmental & Water Resources Congress (EWRI 2012 Congress), American Society of Civil Engineers, Albuquerque, New Mexico.
    4. Gong, J., Lambert, M. F., Zecchin, A. C., and Simpson, A. R. (2011). “Frequency response measurement of pipelines by using inverse-repeat binary sequences”, Computing and Control for the Water Industry (CCWI) 2011, the University of Exeter, Exeter, UK.

     

     

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Entry last updated: Tuesday, 20 Dec 2016