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PUBLICATIONS

ORCID ID: 0000-0002-9200-904X

Research-Gate: Huan-Feng_Duan

Google Scholar:  My-Profile

Scopus Author ID:  57200804773

ResearcherID (Web of Science): A-1369-2014

Featured Articles

  • Zhang, Y.H., Duan, H.F., Yan, X.F., and Stocchino, A. (2023). "Experimental study on the combined effects of patch density and elongation on wake structure behind a rectangular porous patch", Journal of Fluid Mechanics, 959, A36. DOI: 10.1017/jfm.2023.156.

  • Yin, H., Zheng, F.F., Duan, H.F., Savic, D., and Kapelan, Z. (2023). "Estimating rainfall intensity using an image-based deep learning model", Engineering, 21, 162-174. DOI: 10.1016/j.eng.2021.11.021. 

  • Duan, H.F., and Keramat, A. (2022). Uncertainty quantification of transient-based leakage identification: a frequency domain framework. Water Resources Research, 58(12), e2022WR032512.

  • Yan, X.F., Duan, H.F., Wai, W.H.O., Li, C.W., and Wang, X.K. (2022). "Spatial flow pattern, multi-dimensional vortices and junction momentum exchange in a partially-covered submerged canopy flume", Water Resources Research (WRR), 58(3),   e2020WR029494.

  • Geronimo, J.F., Keramat, A., Alastruey, J., and Duan, H.F. (2022). Computational modelling and application of mechanical waves to detect arterial network anomalies: diagnosis of common carotid stenosis. Computer Methods and Programs in Biomedicine, 227, 107213.

  • Jia, Y., Zheng, F., Zhang, Q., Duan, H.F., Savic, D., and Kapelan, Z. (2021). "Foul sewer model development using geotagged information and smart water meter data", Water Research, 204, 117594, DOI: 10.1016/j.watres.2021.117594.

  • Keramat, A., and Duan, H.F. (2021). "Spectral based pipeline leak detection using a single spatial measurement", Mechanical Systems and Signal Processing (MSSP), 161, 107940.

  • Deng, T., Chau, K.W., and Duan, H.F. (2021). "Machine learning based marine water quality prediction for coastal hydro-environment management", Journal of Environmental Management, 284, 112051.

(A) Journal Papers

 

(Corresponding author is underlined & with * ;  Supervised Student/staff is with ^ )

 

(A-1) Research on Hydraulic Assessment & Diagnosis

  1. Wu, H., Duan, H.F., Lai, W.W.L., Zhu, K., Cheng, X., Yin, H., Zhou, B., Lai, C.C., Lu, C., and Ding, X.L. (2024). "Leveraging Optical Communication Fiber and AI for Distributed Water Pipe Leak Detection," IEEE Communications Magazine, 62(2), 126-132, DOI: 10.1109/MCOM.003.2200643. (online version)

  2. Zhang, Y., Keramat, A., and Duan, H.F.* (2024). Formulation and analysis of transient flows in fluid pipelines with distributed leakage. Mechanical Systems and Signal Processing (MSSP), 212, 111294, DOI: 10.1016/j.ymssp.2024.111294. (online version)

  3. Yin, H.^, Zheng, F.F.*, Duan, H.F., Savic, D., and Kapelan, Z. (2023). Estimating rainfall intensity using an image-based deep learning model, Engineering, 21, 162-174. DOI: 10.1016/j.eng.2021.11.021. (online version)

  4. Keramat, A., Ahmadianfar, I., Duan, H.F., and Hou, Q*. (2023). Spectral transient-based multiple leakage identification in water pipelines: An efficient hybrid gradient-metaheuristic optimization. Expert Systems with Applications, 224, 120021. DOI: 10.1016/j.eswa.2023.120021. (online version)

  5. Zhang, Y.^, Duan, H.F.*, Keramat, A.*, Pan, Bin*, Meniconi, S., Brunone, B., and Lee, P.J. (2023). Transient wave-leak interaction analysis for improved leak detection in viscoelastic pipelines. Measurement, 208, 112442. DOI: 10.1016/j.measurement.2023.112442. (online version)

  6. Brunone, B.*, Maietta, F., Capponi, C., Duan, H.F., and Meniconi, S. (2023). Detection of partial blockages in pressurized pipes by transient tests: a review of the physical experiments. Fluids, 8(1), 19. DOI: 10.3390/fluids8010019. (online version)

  7. Asghari, V., Kazemi, M.H., Duan, H.F., Hsu, S.C., and Keramat, A.* (2023). Machine learning modeling for spectral transient-based leak detection. Automation in Construction, 146, 104686. DOI: 10.1016/j.autcon.2022.104686. (online version)

  8. Che, T.C., Wang, X., Zhou, L.*, and Duan, H.F. (2022). Modified factorized transient wave model in tree pipe networks for leak localization with less boundary measurements. Water Resources Research, 58(12), e2022WR032856. DOI: 10.1029/2022WR032856. (online version)

  9. Duan, H.F., and Keramat, A.* (2022). Uncertainty quantification of transient-based leakage identification: a frequency domain framework. Water Resources Research, 58(12), e2022WR032512. DOI: 10.1029/2022WR032512. (online version)

  10. Geronimo, J.F.^, Keramat, A.*, Alastruey, J., and Duan, H.F. (2022). Computational modelling and application of mechanical waves to detect arterial network anomalies: diagnosis of common carotid stenosis. Computer Methods and Programs in Biomedicine, 227, 107213. DOI: 10.1016/j.cmpb.2022.107213. (online version)

  11. Pan, B.^, Duan, H.F.*, Keramat, A., Meniconi, S., and Brunone, B. (2022). Efficient pipe burst detection in tree-shape water distribution networks using forward-backward transient analysis. Water Resources Research, 58(11), e2022WR033465. DOI: 10.1029/2022WR033465. (online version)

  12. Ji, Y., Zheng, F.F.*, Du, J., Huang, Y., Bi, W., Duan, H.F., Savic, D., and Kapelan, Z. (2022). An effective and efficient method for identification of contamination sources in water distribution systems based on manual grab-sampling. Water Resources Research, 58(11), e2022WR032784. DOI: 10.1029/2022WR032784. (online version)

  13. Pan, B.^, Keramat, A., She, Y., and Duan, H.F.* (2022). A novel leak localization method using forward and backward transient characteristics. Measurement, 194, 111065. DOI: 10.1016/j.measurement.2022.111065. (online version)

  14. Keramat, A., Duan, H.F.*, Pan, B.^, and Hou, Q. (2022). Gradient-based optimization for spectral-based multiple-leak identification. Mechanical Systems and Signal Processing (MSSP), 171, 108840, DOI: 10.1016/j.ymssp.2022.108840. (online version)

  15. Jia, Y.^, Zheng, F., Zhang, Q., Duan, H.F., Savic, D., and Kapelan, Z. (2021). Foul sewer model development using geotagged information and smart water meter data. Water Research, 204, 117594, DOI: 10.1016/j.watres.2021.117594. (online version)

  16. Zhang, Y.^, Duan, H.F.*, Keramat, A., and Che, T.C. (2022). On the leak-induced transient wave reflection and dominance analysis in water pipelines. Mechanical Systems and Signal Processing (MSSP), 167, 108512. DOI: 10.1016/j.ymssp.2021.108512. (online version)

  17. Pan, B.^, Capponi, C., Meniconi, S., Brunone, B., and Duan, H.F.* (2022). Efficient leak detection in single and branched polymeric pipeline systems by transient wave analysis. Mechanical Systems and Signal Processing (MSSP), 162, 108084. DOI: 10.1016/j.ymssp.2021.108084. (online version)

  18. Keramat, A., and Duan, H.F.* (2021). Spectral based pipeline leak detection using a single spatial measurement. Mechanical Systems and Signal Processing (MSSP), 161, 107940. DOI: 10.1016/j.ymssp.2021.107940. (online version)

  19. Che, T.C..^, Duan, H.F.*, and Lee, P.J. (2021). Transient wave-based methods for anomaly detection in fluid pipes: A review. Mechanical Systems and Signal Processing (MSSP), 160, 107874 (39 pages). DOI: 10.1016/j.ymssp.2021.107874. (online version)

  20. Alexander, J.^*, Li, Z., Lee, P.J., Davidson, M., Duan, H.F. (2021).  Comparison of numerical models for the interaction of a fluid transient with an off-line air pocket. Journal of Hydraulic Engineering – ASCE, 147(5), 04021014. DOI: 10.1061/(ASCE)HY.1943-7900.0001878. (online version(selected as Editor's Choice)

  21. Yan, X.F.^, Duan, H.F.*, Wang, X.K., Wang, M.L., and Lee, P.J. (2021). Investigation of transient wave behavior in water pipelines with blockages. Journal of Hydraulic Engineering – ASCE, 147(2), 04020095. DOI: 10.1061/(ASCE)HY.1943-7900.0001841. (online version)

  22. Pan, B.^, Duan, H.F.*, Meniconi, S., and Brunone, B. (2021). FRF-based transient wave analysis for the viscoelastic parameters identification and leak detection in water-filled plastic pipes. Mechanical Systems and Signal Processing (MSSP), 146, 107056. DOI: 10.1016/j.ymssp.2020.107056. (online version)

  23. Huang, Y., Zheng, F.F.*, Kapelan, Z., Savic, D., Duan, H.F., and Zhang, Q.Z. (2020). Efficient leak localization in water distribution systems using multistage optimal valve operations and smart demand metering. Water Resources Research, 56(10), e2020WR028285. DOI: 10.1029/2020WR028285. (online version) (selected as Editors' Highlights)

  24. Alexander, J.^*, Li, Z., Lee, P.J., Davidson, M., Duan, H.F. (2020).  Experimental investigation of the effects of air pocket configuration on fluid transients in a pipeline. Journal of Hydraulic Engineering – ASCE, 146(12), 04020081. DOI: 10.1061/(ASCE)HY.1943-7900.0001823. (online version(awarded for 2022 Karl Emil Hilgard Hydraulic Prize by ASCE)

  25. Duan, H.F.* (2020). Development of a TFR-based method for the simultaneous detection of leakage and partial blockage in water supply pipelines. Journal of Hydraulic Engineering – ASCE, 146(7), 04020051. DOI: 10.1061/(ASCE)HY.1943-7900.0001764. (online version)

  26. Pan, B.^, Duan, H.F.*, Meniconi, S., Urbanowicz, K., Che, T.C., and Brunone, B. (2020). Multistage frequency-domain transient-based method for the analysis of viscoelastic parameters of plastic pipes. Journal of Hydraulic Engineering – ASCE, 146(3), 04019068. DOI: 10.1061/(ASCE)HY.1943-7900.0001700. (online version)

  27. Alexander, J.^*, Lee, P.J., Davidson, M., Li, Z., Murch, R., Duan, H.F., Meniconi, S., and Brunone, B. (2020).  Experimental investigation of the interaction of fluid transients with an in-line air pocket. Journal of Hydraulic Engineering – ASCE, 146(3), 04019067. DOI: 10.1061/(ASCE)HY.1943-7900.0001691. (online version)

  28. Alexander, J.^*, Lee, P.J., Davidson, M., Duan, H.F., Li, Z., Murch, R., Meniconi, S., and Brunone, B. (2019).  Experimental validation of existing numerical models for the interaction of fluid transients with in-line air pockets. Journal of Fluids Engineering – ASME, 141(12), 121101, DOI: 10.1115/1.4043776. (online version)

  29. Che, T.C.^, Duan, H.F.*, Pan, B., Lee, P.J., and Ghidaoui, M.S. (2019). "Energy analysis of the resonant frequency shift pattern induced by non-uniform blockages in pressurized water pipes." Journal of Hydraulic Engineering – ASCE, 145(7),  04019027(1-13). DOI: 10.1061/(ASCE)HY.1943-7900.0001607. (online version)

  30. Che, T.C.^, Duan, H.F.*, Lee, P.J., Pan, B.^, and Ghidaoui, M.S. (2018). "Transient frequency responses for pressurized water pipelines containing blockages with linearly varying diameters." Journal of Hydraulic Engineering – ASCE, 144(8), 04018054, DOI: 10.1061/(ASCE)HY.1943-7900.0001499. (online version)

  31. Duan, H.F*. (2018). “Accuracy and sensitivity evaluation of TFR method for leak detection in multiple-pipeline water supply systems.” Water Resources Management, 32(6), 2147-2164. DOI:10.1007/s11269-018-1923-7. (online version)

  32. Zhao, M.*, Ghidaoui, M.S., Louati, M., and Duan, H.F. (2018). “Numerical study of the blockage length effect on the transient wave in pipe flows”, Journal of Hydraulic Research – IAHR, 56(2), 245-255. DOI: 10.1080/00221686.2017.1394374. (online version)

  33. Duan, H.F.*, Lee, P.J., Che, T.C.^, Ghidaoui, M.S., Karney, B.W., and Kolyshkin, A.A. (2017). "The Influence of Non-uniform Blockages on Transient Wave Behavior and Blockage Detection in Pressurized Water Pipelines." Journal of Hydro-environment Research, 17, 1-7, DOI: 10.1016/j.jher.2017.08.002. (online version)

  34. Duan, H.F.* (2017). “Transient frequency response based leak detection in water supply pipeline systems with branched and looped junctions.” Journal of Hydroinformatics – IWA, 19(1), 17-30. DOI: 10.2166/hydro.2016.008 (online version)

  35. Sun, J.L.^*, Wang, R., and Duan, H.F. (2016). “Multiple-fault detection in water pipelines using transient time-frequency analysis.” Journal of Hydroinformatics – IWA, DOI: 10.2166/hydro.2016.232, 18(6), 975-989. (online version)

  36. Duan, H.F.* (2016). “Sensitivity analysis of transient based frequency domain method for extended blockage detection in water pipeline systems.” Journal of Water Resources Planning and Management – ASCE, 142(4), 04015073, DOI: 10.1061/(ASCE)WR.1943-5452.0000625. (online version)

  37. Duan, H.F. (2015). “Uncertainty analysis of transient flow modeling and transient-based leak detection in elastic water pipelines”, Water Resources Management, 29(14): 5413-5427. DOI: 10.1007/s11269-015-1126-4. (online version)

  38. Duan, H.F.*, and Lee, P.J. (2016). “Transient-based frequency domain method for dead-end side branch detection in reservoir-pipeline-valve systems”, Journal of Hydraulic Engineering – ASCE, 142(2), 04015042. DOI: 10.1061/(ASCE)HY.1943-7900.0001070. (online version)

  39. Lee, P.J., Duan, H.F.*, Tuck, J., and Ghidaoui, M.S. (2015). “Numerical and experimental study on the effect of signal bandwidth on pipe assessment using fluid transients”, Journal of Hydraulic Engineering – ASCE, 141(2), 04014074(10). DOI: 10.1061/(ASCE)HY.1943-7900.0000961. (online version)

  40. Duan, H.F.*, Lee, P.J., and Tuck, J. (2014). “Experimental investigation of wave scattering effect of pipe blockages on transient analysis”, Procedia Engineering, 89(2014), 1314-1320. DOI: 10.1016/j.proeng.2014.11.445. (online version)

  41.  Duan, H.F.*, Lee, P.J., and Ghidaoui, M.S. (2014). “Transient wave-blockage Interaction in pressurized water pipelines”, Procedia Engineering, 70(2014), 573-582. DOI: 10.1016/j.proeng.2014.02.063. (online version)

  42. Duan, H.F.*, Lee, P.J., Ghidaoui, M.S., and Tuck, J. (2014). “Transient wave-blockage Interaction and extended blockage detection in pressurized pipes”, Journal of Fluids and Structure, 46(2014), 2-16. DOI: 10.1016/j.jfluidstructs.2013.12.002. (online version)

  43. Meniconi, S., Duan, H.F., Lee, P.J., Brunone, B.*, Ghidaoui, M.S., and Ferrante, M. (2013). “Experimental investigation of coupled frequency- and time-domain transient test-based techniques for partial blockage detection in pipelines”, Journal of Hydraulic Engineering – ASCE,  139(10), 1033-1040. DOI: 10.1061/(ASCE)HY.1943-7900.0000768. (online version)

  44. Duan, H.F.*, Lee, P.J., Kashima, A., Lu, J.L., Ghidaoui, M.S., and Tung, Y.K. (2013). “Extended blockage detection in pipes using the frequency response method: analytical analysis and experimental verification”, Journal of Hydraulic Engineering – ASCE, 139(7), 763-771. DOI: 10.1061/(ASCE)HY.1943-7900.0000736. (online version)

  45. Duan, H.F.*, Lee, P.J., Ghidaoui, M.S., and Tung, Y.K. (2012). "System response function based leak detection in viscoelastic pipeline", Journal of Hydraulic Engineering – ASCE, 138(2), 143-153. DOI: 10.1061/(ASCE)HY.1943-7900.0000495. (online version)

  46. Duan, H.F.*, Lee, P.J., Ghidaoui, M.S., and Tung, Y.K. (2012). "Extended blockage detection in pipelines by using system frequency response analysis", Journal of Water Resources Planning and Management – ASCE, 138(1), 55-62. DOI: 10.1061/(ASCE)WR.1943-5452.0000145. (online version)

  47. Duan, H.F.*, Lee, P.J., Ghidaoui, M.S., and Tung, Y.K. (2011). "Leak detection in complex series pipelines by using system frequency response method", Journal of Hydraulic Research – IAHR, 49(2), 213-221. DOI: 10.1080/00221686.2011.553486. (online version)

  48. Duan, H.F.*, Lee, P.J., Ghidaoui, M.S., and Tung, Y.K. (2010). "Essential system response information for transient-based leak detection methods", Journal of Hydraulic Research – IAHR, 48(5), 650-657. DOI: 10.1080/00221686.2010.507014. (online version)             

(A-2) Research on Hydraulic Modelling & Coastal Wave Analysis

  1. Zhang, S., Duan, H.F., Lu, L.*, He, R., Gao, X., and Zhu, S. (2024). "Quantification of three-dimensional added turbulence intensity for the horizontal-axis wind turbine considering the wake anisotropy", Energy, 294, 130843. DOI: 10.1016/j.energy.2024.130843. (online version)

  2. Yang, Y., Yan, H.X.*, Li, S., Song, W., Li, F., Duan, H.F., Xin, K., and Tao, T. (2024). "Development of Pipeline Transient Mixed Flow Model with Smoothed Particle Hydrodynamics Based on Preissmann Slot Method", Water, 16(8), 1108. DOI: 10.3390/w16081108. (online version)

  3. He, J., Hou, Q.Z.*, Yang, X., Duan, H.F., and Lin, L. (2024). "Isolated slug traveling in a voided line and impacting at an end orifice." Physics of Fluids, 36(2), 027105. DOI: 10.1063/5.0187521. (online version)

  4. Yang, H.^, Duan, H.F.*, Zhu, J.B., and Zhao, Q. (2024). "Water Effects on Elastic S-Wave Propagation and Attenuation Across Single Clay-Rich Rock Fractures: Insights from Ultrasonic Measurements." Rock Mechanics and Rock Engineering, DOI: 10.1007/s00603-023-03712-6. (online version)

  5. Tjuatja, V.^, Keramat, A.*, Pan, B.*, Duan, H.F., Brunone B., and Meniconi, S. (2023). "Transient flow modelling in viscoelastic pipes: a comprehensive review of literature and analysis." Physics of Fluids, 35(8), 081302. DOI: 10.1063/5.0155708. (online version)

  6. Rahmani, A.^,  Keramat, A.*, Wang, J.H., and Duan, H.F. (2023). "Large eddy simulation of plunging solitary wave: understanding the breaking and turbulent mechanisms along shoaling region." Journal of Ocean Engineering and Science, Accepted. DOI: 10.1016/j.joes.2023.07.008. (online version)

  7. Pan, B.^, Keramat, A., and Duan, H.F.* (2023). "Energy analysis for transient-leak interaction and implication to leak detection in water pipeline systems." Journal of Hydraulic Engineering  ASCE, 149(9), 04023031. DOI: 10.1061/JHEND8.HYENG-13348. (online version)

  8. Li, F.^, Yan, J., Yan, H., Tao, T., and Duan, H.F.* (2023). "2D modelling and energy analysis of entrapped air-pocket propagation and spring-like geysering in the drainage pipeline system." Engineering Applications of Computational Fluid Mechanics, 17(1), 2227662. DOI: 10.1080/19942060.2023.2227662. (online version)

  9. Yang, H.^, Duan, H.F.*, and Zhu, J.B.* (2023). "Experimental study on the role of clay mineral and water saturation in ultrasonic P-wave behaviours across individual filled rock joints." International Journal of Rock Mechanics and Mining Sciences, 168, 105395. DOI: 10.1016/j.ijrmms.2023.105393. (online version)

  10. Song, W., Yan, H., Li, F., Tao, T., Duan, H.F., Xin, K., and Li, S. (2023). "Development of Smoothed Particle Hydrodynamics based water hammer model for water distribution systems." Engineering Applications of Computational Fluid Mechanics, 17(1), 2171139. DOI: 10.1080/19942060.2023.2171139. (online version)

  11. Zhang, Y.^, Duan, H.F.*, and Keramat, A. (2022). "CFD-aided study on transient wave-blockage interaction in a pressurized Fluid pipeline." Engineering Applications of Computational Fluid Mechanics, 16(1), 1957-1973. DOI: 10.1080/19942060.2022.2126999. (online version

  12. Pan, B.^, Keramat, A., Capponi, C., Meniconi, S., Brunone, B., and Duan, H.F.* (2022). "Transient Energy Analysis in Water-filled Viscoelastic Pipelines." Journal of Hydraulic Engineering  ASCE, 148(1), 04021051. DOI: 10.1061/(ASCE)HY.1943-7900.0001959. (online version(selected as Editor's Choice)

  13. Meniconi, S.*, Cifrodelli, M., Capponi, C., Duan, H.F., and Brunone, B. (2021). "Transient response analysis of branched pipe systems towards a reliable skeletonization." Journal of Water Resources Planning & Management ASCE, 147(2), 04020109. DOI: 10.1061/(ASCE)WR.1943-5452.0001319. (online version​)

  14. Yang, H.^, Duan, H.F., and Zhu, J.B.* (2021). "Thermal effect on compressional wave propagation across fluid-filled rock joints." Rock Mechanics and Rock Engineering, 54(1), 455-462,  DOI: 10.1007/s00603-020-02254-5. (online version)

  15. Urbanowicz, K., Bergant, A., Duan, H.F., Karadzić, U., and Sobków D. (2021). "Alternative numerical solution of transient flow in viscoelastic pipes." IOP Journal of Physics: Conference Series, 1736 012038. (online version)

  16. Duan, H.F.*, Pan, B.^, Wang, M.L.^, Chen, L., Zheng, F.F., and Zhang, Y.^ (2020). "State-of-the-art review on the transient flow modelling and utilization for urban water supply system (UWSS) management", IWA Journal of Water Supply: Research and Technology – AQUA, 69(8), 858-893, DOI: 10.2166/aqua.2020.048. (online version)

  17. Yang, H.^, Duan, H.F., and Zhu, J.B.* (2020). "Effects of filling fluid type and composition and joint orientation on acoustic wave propagation across individual fluid-filled rock joints." International Journal of Rock Mechanics and Mining Sciences, 128(4), 104248. DOI: 10.1016/j.ijrmms.2020.104248. (online version)

  18. Urbanowicz, K., Duan, H.F., and Bergant, A. (2020). "Transient flow of liquid in plastic pipes." Strojniški vestnik- Journal of Mechanical Engineering, 66(2), 77-90. DOI: 10.5545/sv-jme.2019.6324. (online version)

  19. Urbanowicz, K., Bergant, A., and Duan, H.F. (2019). "Simulation of unsteady flow with cavitation in plastic pipes using the discrete bubble cavity and Adamkowski models." IOP Conference Series: Materials Science and Engineering, 710(2019), 012013. (online version)

  20. Urbanowicz, K., Bergant, A., Duan, H.F., Stosiak, M, and Firkowski, M. (2019). "Using DGCM to predict transient flow in plastic pipe." IOP Conference Series: Earth and Environmental Science, 405(2019), 012020. (online version)

  21. Yang, H.^, Duan, H.F., and Zhu, J.B.* (2019). "Ultrasonic P-wave propagation through water-filled rock joint: An experimental investigation." Journal of Applied Geophysics, 169(2019), 1-14. DOI:10.1016/j.jappgeo.2019.06.014. (online version)

  22. Firkowski, M.*, Urbanowicz, K., and Duan, H.F. (2019). "Simulation of unsteady flow in viscoelastic pipes." Springer Nature: Applied Sciences, 1(6), 519. (online version)

  23. Che, T.C.^, Duan, H.F.*, Lee, P.J., Meniconi, S., Pan, B.^, and Brunone, B. (2018). "Radial pressure wave behavior in transient laminar pipe flows under different flow perturbations." Journal of Fluids Engineering – ASME, 140(10), 101203, DOI:10.1115/1.4039711. (online version)

  24. Duan, H.F.*, Che, T.C.^, Lee, P.J., and Ghidaoui, M.S. (2018). "Influence of nonlinear turbulent friction on the system frequency response in transient pipe flow modelling and analysis." Journal of Hydraulic Research – IAHR, 56(4), 451-463, DDOI:10.1080/00221686.2017.1399936. (online version)

  25. Zhu, Y., Duan, H.F., Li, F.^, Wu, C.G.*, Yuan, Y.X., and Shi, Z.F. (2018). "Experimental and numerical study on transient air-water mixing flows in viscoelastic pipes." Journal of Hydraulic Research – IAHR, 56(6), 877-887. DOI: 10.1080/00221686.2018.1424045. (online version)

  26. Duan, H.F.* (2017). "Transient wave scattering and its influence on transient analysis and leak detection in urban water supply systems: theoretical analysis and numerical validation." Water – MDPI, 9(10), 789. DOI: 10.3390/w9100789. (Open Access Link Here)

  27. Duan, H.F.* (2017). "Transient flow analysis and utilization in urban water supply systems." (a mini review article) Civil Engineering Research Journal, 2(1), 555576. (Open Access Link Here)

  28. Huang, Y., Duan, H.F., Zhao, M.*, Zhang, Q., Zhao, H.B., and Zhang, K. (2017). "Probabilistic analysis and evaluation of nodal demand effect on transient analysis in urban water distribution systems", Journal of Water Resources Planning & Management ASCE, 143(8), 04017041, DOI: 10.1061/(ASCE)WR.1943-5452.0000797. (online version)

  29. Huang, Y., Duan, H.F.*, Zhao, M., Zhang, Q., Zhao, H.B., and Zhang, K. (2017). "Transient influence zone based decomposition of water distribution networks for efficient transient analysis", Water Resources Management, DOI: 10.1007/s11269-017-1621-x, 31(6), 1915-1929. (online version)

  30. Duan, H.F.*, Meniconi, S., Lee, P.J., Brunone, B., and Ghidaoui, M.S. (2017). "Local and integral energy based evaluation for the unsteady friction relevance in transient pipe flows." Journal of Hydraulic Engineering – ASCE, 143(7), 04017015,  DOI: 10.1061/(ASCE)HY.1943-7900.0001304. (online version)

  31. Che, T.C.^*, and Duan, H.F. (2016). “Evaluation of plane wave assumption in transient laminar pipe flow modeling and utilization.” Procedia Engineering, 2016, 154, 959-966. DOI: 10.1016/j.proeng.2016.07.533. (online version)

  32. Meniconi, S., Duan, H.F.*, Lee, P.J., Brunone, B., Ghidaoui, M.S., and Ferrante, M. (2014). “Further developments in rapidly decelerating turbulent pipe flow modeling”, Journal of Hydraulic Engineering – ASCE, 140(7), 04014028(9). DOI: 10.1061/(ASCE)HY.1943-7900.0000880. (online version)

  33. Lee, P.J., Duan, H.F.*, Vítkovský, J.P., Zecchin, A., and Ghidaoui, M.S. (2013). “The effect of time-frequency discretization on the accuracy of the transmission line modeling of fluid transients”, Journal of Hydraulic Research – IAHR, 51(3), 273-283. DOI: 10.1080/00221686.2012.749430. (online version)

  34. Lee, P.J., Duan, H.F.*, Ghidaoui, M.S., and Karney, B.W. (2013). “Frequency domain analysis of pipe fluid transient behavoirs”, Journal of Hydraulic Research – IAHR, 51(6), 609-622. DOI: 10.1080/00221686.2013.814597. (online version)

  35. Duan, H.F.*, Ghidaoui, M.S., Lee, P.J., and Tung, Y.K. (2012). "Relevance of unsteady friction to pipe size and length in pipe fluid transients", Journal of Hydraulic Engineering – ASCE, 138(2), 154-166. DOI: 10.1061/(ASCE)HY.1943-7900.0000497. (online version)

  36. Duan, H.F.*, Ghidaoui, M.S., Lee, P.J., and Tung, Y.K. (2011). "Closure to the "discussions on ‘Unsteady friction and viscoelasticity in pipe fluid transients’ by Nucci et al.”, Journal of Hydraulic Research – IAHR, 49(3), 398-400. DOI: 10.1080/00221686.2011.568203. (online version)

  37. Duan, H.F.*, Ghidaoui, M.S., Lee, P.J., and Tung, Y.K. (2011). "Closure to the “discussions on ‘Unsteady friction and viscoelasticity in pipe fluid transients’ by Brunone et al.”, Journal of Hydraulic Research – IAHR, 49(3), 401-403. DOI: 10.1080/00221686.2011.563648. (online version)

  38. Duan, H.F.*, Ghidaoui, M.S., Lee, P.J., and Tung, Y.K. (2010). "Unsteady friction and viscoelasticity in pipe fluid transients", Journal of Hydraulic Research – IAHR, 48(3), 354-362. DOI: 10.1080/00221681003726247. (online version)

  39. Duan, H.F.* (2010). "Discussion of 'Analysis of PVC pipe-Wall viscoelasticity during water hammer'", Journal of Hydraulic Engineering – ASCE, 136(8). 547-550. DOI: 10.1061/(ASCE)HY.1943-7900.0000148. (online version)

  40. Duan, H.F.*, Ghidaoui, M.S., and Tung, Y.K. (2010). "Energy analysis of viscoelasticity effect in pipe fluid transients", Journal of Applied Mechanics – ASME, 77(4). 044503. DOI: https://doi.org/10.1115/1.4000915. (online version)

  41. Duan, H.F.*, Ghidaoui, M.S., and Tung, Y.K. (2009). "An efficient quasi-2D simulation of waterhammer in complex pipe systems", Journal of Fluids Engineering – ASME, 131(8). 081105. DOI: 10.1115/1.3176978. (online version)

  42. Duan, H.F.* (2009). "Discussion on 'A turbulent approach to unsteady friction'", Journal of Hydraulic Research – IAHR, 47(6). 824-829. DOI: 10.1080/00221686.2009.9522063. (online version)

(A-3) Research on Water Resources & Water Quality & Hydro-Environment

  1. Zhang, Y.H.^, Duan, H.F.*, Yan, X.F., and Stocchino, A. (2024). "Quantifying wake dynamics subjected to stream vegetation patch elongation: The influence of patch-edge vortices", Physics of Fluids, 36(5), 055108. DOI: 10.1063/5.0204290. (online version)

  2. Yuan, J., Zheng, F.*, Duan, H.F., Deng, Z., Kapelan, Z., Savic, D., Shao, T., Huang, W.M., Zhao, T., and Chen, X. (2024). Numerical modelling and quantification of coastal urban compound flooding, Journal of Hydrology, 630, 130716, DOI: 10.1016/j.jhydrol.2024.130716. (online version)

  3. Zheng, F.F., Yin, H.^, Ma, Y.Y.*, Duan, H.F., Gupta, H., Savic, D., and Kapelan, Z. (2023). "Towards Improved Real-Time Rainfall Intensity Estimation Using Video Surveillance Cameras", Water Resources Research, 59(8), e2023WR034831. DOI: 10.1029/2023WR034831. (online version)

  4. Yan, X.F.^, Duan, H.F., Wai, W.H.O., and Wang, X.K.* (2023). "Bed morphology adjustment under the impact of a near-bank emergent model vegetation patch", Journal of Hydraulic Research – IAHR, 61(5), 735-753. DOI: 10.1080/00221686.2023.2241844. (online version)

  5. Tansar, H.^, Duan, H.F.*, and Mark, O. (2023). "Unit-scale- and catchment-scale-based sensitivity analysis of bioretention cell for urban stormwater system management", Journal of Hydroinformatics – IWA, accepted. DOI: 10.2166/hydro.2023.049 (online version)

  6. Yan, X.F.^, Duan, H.F., Zhang, Y.H., and Wang, X.K.* (2023). "Momentum fluxes across multiple mixing interfaces subject to partially-distributed submerged canopy flows", Journal of Hydrology, 622, Part A, 129742. DOI: 110.1016/j.jhydrol.2023.129742. (online version)

  7. Zhang, Y.H.^, Duan, H.F.*, Yan, X.F., and Stocchino, A. (2023). "Experimental study on the combined effects of patch density and elongation on wake structure behind a rectangular porous patch", Journal of Fluid Mechanics, 959, A36. DOI: 10.1017/jfm.2023.156. (online version)

  8. Tansar, H.^, Duan, H.F.*, and Mark, O. (2023). "A multi-objective decision-making framework for implementing green-grey infrastructures to enhance urban drainage system resilience", Journal of Hydrology, 620, Part A, 129381. DOI: 10.1016/j.jhydrol.2023.129381 (online version)

  9. Tansar, H.^, Duan, H.F.*, and Mark, O. (2023). "Global sensitivity analysis of bioretention cell design for stormwater system: a comparison of VARS framework and Sobol method", Journal of Hydrology, 617, Part A, 128895. DOI: 10.1016/j.jhydrol.2022.128895 (online version)

  10. Yan, X.F.^, Jia, Y.Y.^, Zhang, Y., Fang, L.B.*Duan, H.F., and Wang, X.K. (2023). "Hydrodynamic adjustment subject to a submerged canopy partially obstructing a flume: implications for junction flow behaviors", Ecohydrology, 16(2), e2467. DOI: 10.1002/eco.2467. (online version)

  11. Lin, R.^, Zheng, F.F.*, Ma, Y., Duan, H.F., Chu, S., and Deng, Z. (2022). "Impact of spatial variation and uncertainty of rainfall intensity on urban flooding assessment", Water Resources Management, 36(14), 5565-5673. DOI: 10.1007/s11269-022-03325-8. (online version).

  12. Du, K., Xiao, B., Song, Z.*, Xu, Y., Tang, Z., Xu, W., and Duan, H.F. (2022). "A novel self-adaptation and sorting selection-based differential evolutionary algorithm applied to water distribution system optimization", AQUA - Water Infrastructure, Ecosystems and Society, 71(9), 1068-1082. DOI: 10.2166/aqua.2022.174. (online version)

  13. Jia, Y.Y., Yao, Z.D., Duan, H.F., Wang, X.K., and Yan, X.F.* (2022). "Numerical assessment of canopy blocking effect on partly-obstructed channel flows: from perturbations to vortices", Engineering Applications of Computational Fluid Mechanics, 16(1), 1761-1780. DOI: 10.1080/19942060.2022.2109757. (online version).

  14. Zheng, Z.^, Zheng, F.F.*, Bi, W., Du, J., Duan, H.F., Savic, D., and Kapelan, Z. (2022). "Evaluating the robustness of water quality sensor placement strategies of water distribution systems considering possible sensor failures and system changes", Journal of Water Resources Planning & Management – ASCE, 148(10), 04022050. DOI: 10.1061/(ASCE)WR.1943-5452.0001596. (online version).

  15. Singh, V.K., Panda, K.*, Sagar, A., Al-Ansari, N., Duan, H.F., Paramaguru, P.K., Vishwakarma, D., Kumar, A., Kumar, D., Kashyap, P., Singh R., and Elbeltagi, A. (2022). "Novel Genetic Algorithm (GA) based hybrid machine learning-pedotransfer Function (ML-PTF) for prediction of spatial pattern of saturated hydraulic conductivity", Engineering Applications of Computational Fluid Mechanics, 16(1), 1082-1099. DOI: 10.1080/19942060.2022.2071994. (online version(ESI Hot Paper)

  16. Yan, X.F.^, Duan, H.F., Wai, W.H.O., Li, C.W., and Wang, X.K.* (2022). "Spatial flow pattern, multi-dimensional vortices and junction momentum exchange in a partially-covered submerged canopy flume", Water Resources Research (WRR), 58(3), e2020WR029494. DOI: 10.1029/2020WR029494. (online version)

  17. Yin, H.^, Zheng, F.F.*, Duan, H.F., Savic, D., and Kapelan, Z. (2022). "Estimating rainfall intensity using an image-based deep learning model", Engineering, DOI: 10.1016/j.eng.2021.11.021. (online version)

  18. Deng, T.^, Duan, H.F.*, and Keramat, A.(2022). "Spatiotemporal characterization and forecasting of coastal water quality in the semi-enclosed Tolo Harbour based on machine learning and EKC analysis", Engineering Applications of Computational Fluid Mechanics, 16(1), 694-712. DOI: 10.1080/19942060.2022.2035257. (online version)

  19. Yan, X.F.^, Duan, H.F., Liu, T.H., Xu, Z.X., and Wang, X.K.* (2022). "Geomorphologic changes around a mid-river bar system at a meandering reach in the lower Yangtze River, China: impacts of the Three Gorges Dam (TGD) and human activities", Catena, 212, 106038. (online version)

  20. Yan, X.F.^, Duan, H.F., Yang, Q.Y., Liu, T.H., Sun Y., and Wang, X.K.* (2022). "Numerical assessments of bed morphological evolution in mountain river confluences under effects of hydro-morphological factors", Hydrological Processes, 36(2), e14488. (online version)

  21. Tansar, H.^, Duan, H.F.*, and Mark, O. (2022). "Catchment-scale and local-scale based evaluation of LID effectiveness on urban drainage system performance", Water Resources Management, 36(2), 507-526. DOI: 10.1007/s11269-021-03036-6. (online version).

  22. Jia, Y.^, Zheng, F.F.*, Zhang, Q.Z., Duan, H.F., Savic, D., and Kapelan, Z. (2021). "Foul sewer model development using geotagged information and smart water meter data", Water Research, 204, 117594, DOI: 10.1016/j.watres.2021.117594. (online version)

  23. Deng, T.^, Chau, K.W., and Duan, H.F.* (2021). "Machine learning based marine water quality prediction for coastal hydro-environment management", Journal of Environmental Management, 284, 112051. (online version(ESI Highly Cited Paper)

  24. Yin, H.^, Zheng, F.F.*, Duan, H.F., Zhang, Q.Z., and Bi, W.W. (2021). "Enhancing the effectiveness of urban drainage system design with an improved ACO-based method", Journal of Hydro-environmental Research, 38, 96-105, DOI: 10.1016/j.jher.2020.11.002. (online version)

  25. Liu, T.H., Wang, Y.K., Wang, X.K., Duan, H.F., and Yan, X.F. (2020). "Morphological environment survey and hydrodynamic modeling of a large bifurcation-confluence complex in Yangtze River, China", Science of the Total Environment, 737, 139705. DOI: 10.1016/j.scitotenv.2020.139705. (online version) (corrigendum version)

  26. Chen, L., Huang, K.D.*, Zhou, J.Z., Duan, H.F., Zhang, J.H., Wang, D.W., and Qiu, H.Y. (2020). "Multiple-risk assessment of water supply, hydropower and environment nexus in the water resources system", Journal of Cleaner Production, 268, 122057. DOI: 10.1016/j.jclepro.2020.122057. (online version)

  27. Huang, Y., Zheng, F.F.*, Duan, H.F., Zhang, Q.Z., and Shen, Y.G. (2020). "Impacts of nodal demand allocations on transient-based skeletonization of water distribution systems", Journal of Hydraulic Engineering – ASCE, 146(9), 04020058. DOI: 10.1061/(ASCE)HY.1943-7900.0001787. (online version).

  28. Huang, Y., Zheng, F.F.*, Duan, H.F., and Zhang, Q.Z. (2020). "Multi-objective optimal design of water distribution networks accounting for transient impacts", Water Resources Management, 34(4), 1517-1534. DOI: 10.1007/s11269-020-02517-4. (online version).

  29. Huang, Y., Zheng, F.F.*, Duan, H.F., and Zhang, Q.Z. (2020). "Closure to 'skeletonizing pipes in series within urban water distribution systems using a transient-based method' by Huang et al. 2019", Journal of Hydraulic Engineering – ASCE, 146(4), 07020004. DOI: 10.1061/(ASCE)HY.1943-7900.0001727. (online version)

  30. Duan, H.F.*, and Gao, X.C.^ (2019). “Flooding control and hydro-energy assessment for urban stormwater drainage systems under climate change: Framework development and case study.” Water Resources Management, 33(10), 3523-3545,  DOI: 10.1007/s11269-019-02314-8. (online version)

  31. Wang, X.K.*, Yan, X.F., Duan, H.F., Liu, X.N.,and Huang, E. (2019). "Experimental study on influence of river flow confluences to the open channel stage-discharge relation", Hydrological Sciences Journal, 64(16), 2025-2039, DOI: 10.1080/02626667.2019.1661415. (online version)

  32. Li, F.^, Yan, X.F., and Duan, H.F.* (2019). "Sustainable design of urban stormwater drainage systems by implementing detention tank and LID measures for flooding risk control and water quality management", Water Resources Management, 33(9), 3271-3288, DOI: 10.1007/s11269-019-02300-0. (online version)

  33. Huang, Y., Zheng, F.F.*, Duan, H.F., Zhang, T.Q., Guo, X.L. and Zhang, Q.Z. (2019). "Skeletonizing pipes in series within urban water distribution systems using a transient-based method", Journal of Hydraulic Engineering – ASCE, 145(2), 04018084, DOI: 10.1061/(ASCE)HY.1943-7900.0001560. (online version)

  34. Zhang, Q.Z., Zheng, F.F.*, Duan, H.F., Jia, Y.Y., Zhang, T.Q., and Guo, X.L. (2018). "Efficient numerical approach for simultaneous calibration of pipe roughness coefficients and nodal demands for water distribution systems", Journal of Water Resources Planning and Management – ASCE, 144(10), 04018063, DOI: 10.1061/(ASCE)WR.1943-5452.0000986. (online version)

  35. Duan, H.F.*, Li, F.^, and Yan, H.X. (2016). “Multi-objective optimal design of detention tanks in the urban stormwater drainage system: LID implementation and analysis.” Water Resources Management, 30(13), 4635-4648. DOI: 10.1007/s11269-016-1444-1. (online version)

  36. Duan, H.F.*, Li, F.^, and Tao, T. (2016). “Multi-objective optimal design of detention tanks in the urban stormwater drainage system: Uncertainty and sensitivity analysis.” Water Resources Management, 30(7), 2213-2226. DOI: 10.1007/s11269-016-1282-1. (online version)

  37. Li, F.^, Duan, H.F.*, Yan, H.X., and Tao, T. (2015). “Multi-objective optimal design of detention tanks in the urban stormwater drainage system: Framework development and case study”, Water Resources Management, 29(7), 2125-2137. DOI: 10.1007/s11269-015-0931-0. (online version)

  38. Duan, H.F.*, Tung, Y.K., and Ghidaoui, M.S. (2010). "Probabilistic Analysis of Transient Design for Water Supply Systems", Journal of Water Resources Planning and Management – ASCE, 136(6), 678-687. DOI: 10.1061/(ASCE)WR.1943-5452.0000074. (online version)

  39. Duan, H.F.*, and YU, G.P. (2010). "A Spanning-tree Based Algorithm for Hydraulic Simulation of Large-scale Water Supply Networks", Water Science & Engineering, 3(1), 23-35. DOI: 10.3882/j.issn.1674-2370.2010.01.003. (online version)

  40. Duan, H.F.*, and YU, G.P. (2006). "Improved hybrid genetic algorithms for optimal scheduling of urban water-supply system", Journal of Tongji University (Science Edition), (Chinese), 34(3).

  41. Duan, H.F.*, Fang, Y.Z., and YU, G.P. (2007). "Data processing techniques in urban water demand investigations", Measurement Technique, (Chinese), No.7.

  42. Duan, H.F.*, and YU, G.P. (2006). "Forecasting method of leakage and safety in water supply pipelines", Measurement Technique, (Chinese), No.1.

  43. YU, G.P., and Duan, H.F. (2006). "Probe into the optimization of forecasting model for urban water demands", Public Utilities, (Chinese), 20(2).

  44. Duan, H.F.*, and YU, G.P. (2005). "Improved genetic algorithm for calibration of pipe friction factor", Pipeline Technique and Equipment, (Chinese), No.3.

  45. Duan, H.F.*, YU, G.P., and YU, H.N. (2005). "General planning for water resource and pollution control system based on hybrid genetic algorithms", Water Conservancy and Science and Technology and Economy, (Chinese), No.6. (note: Awarded as excellent paper and included in the book: Klassics of Development of China Science and Technology, Vol. 2007(5), ISBN 7-80166-737-9: China Archives Publishing House)

  46. YU, H.N.*, YU, G.P., and Duan, H.F. (2005). "Economic methods of water resources management", Water Economics, (Chinese), 23(4).

  47. Duan, H.F.*, YU, G.P., and YU, H.N. (2005). "Evaluation methods of lake eutrophications", Journal of University of Science and Technology of Suzhou (Engineering and Technology), (Chinese), 18(2).

  48. Duan, H.F.*, and YU, G.P. (2005). "A study on the method of determining basic parameters in activated sludge models", Journal of University of Science and Technology of Suzhou (Engineering and Technology), (Chinese), 18(3).

  49. Duan, H.F.*, YU, G.P., and YU, H.N. (2005). "A Fast design and optimization method of urban water supply networks", City and Town Water Supply, (Chinese), No.6.

(B) Conference Papers / Presentations

  1. Zhang, Y.H., Duan, H.F.*, and Yan, X.F. (2023). “Formation and structure of wake flows after a rectangular vegetation patch”, The 40th IAHR World Congress, 21-25 August 2023, Vienna, Austria.

  2. Liu, S., Duan, H.F.*, and Stocchino, A. (2023). “3D-printing aided microscale experimental investigation of hydrodynamic effects on bioclogging”, The 40th IAHR World Congress, 21-25 August 2023, Vienna, Austria.

  3. Wang, M.L., Pan, B., Keramat, A., and Duan, H.F.* (2023). “Efficient two-stage ITA method for leak detection in pipe networks”, The 40th IAHR World Congress, 21-25 August 2023, Vienna, Austria.

  4. Tansar, H., Duan, H.F.*, Zheng, F.F., and Mark, O. (2023). “Implementation strategies of detention tanks for improving drainage system resilience”, The 40th IAHR World Congress, 21-25 August 2023, Vienna, Austria.

  5. Deng, T., Duan, H.F.*, Wang, Jinghua, and Keramat, A. (2023). “An integrated process-data based model for coastal algal bloom forecasting in Hong Kong”, The 33rd International Ocean and Polar Engineering Conference (ISOPE), 19-23 June 2023, Ottawa, Canada.

  6. Tansar, H., Duan, H.F.*, and Mark, O. (2023). “Sensitivity analysis of green roof design parameters in SWMM for its improved understanding of hydrological performance”, EGU General Assembly 2023, 23-28 April 2023, Vienna, Austria.

  7. Tansar, H., Duan, H.F., and Mark, O. (2022). Statistical evaluation on hydrologic performance of bioretention design parameters under different rainfall conditions. The 14th International Conference on Hydroinformatics (HIC 2022), 4-8 July 2022, Bucharest, Romania.

  8. Deng, T., Duan, H.F., Wang, J.H., and Keramat, A. (2022). Spatio-temporal analysis of wave energy capacity in the Northern South China Sea Region using the SWAN model. The 39th IAHR World Congress, June 19 - 24, 2022, in Granada, Spain.

  9. Zhang, Y., Duan, H.F., Wang, M.L., and Keramat, A. (2022). CFD Investigation of Transient Wave-Blockage Interactions in Water Pipelines. The 39th IAHR World Congress, June 19 - 24, 2022, in Granada, Spain.

  10. Wang, M.L., Duan, H.F., Zhang, Y., and Keramat, A. (2022). A holistic transient wave analysis method for multiple defects detection in water pipelines. The 39th IAHR World Congress, June 19 - 24, 2022, in Granada, Spain.

  11. Tansar, H., Babel, M., and Duan, H.F. (2021). Comparative analysis of radar and rain gauge-based runoff in urban drainage system of Damhusaen catchment, Copenhagen. The 2nd IAHR Young Professionals Congress (Online), 30 Nov - 2 Dec, 2021.

  12. Urbanowicz K., Stosiak M., Towarnicki K., Duan H.F., Bergant A. (2020). Simulation of Transient Flow in Micro-hydraulic Pipe System. In: Stryczek J., Warzyńska U. (eds), Advances in Hydraulic and Pneumatic Drives and Control 2020 (NSHP 2020), 21-23 October 2020, in Trzebieszowice, Poland. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-59509-8_18.

  13. Urbanowicz, K., Bergant, A., Duan, H.F., and Firkowski, M. (2019). Simulation of unsteady flow with cavitation in plastic pipes using discrete bubble cavity and the Adamkowski model. The 38th IAHR World Congress, 1-6 September 2019, Panama City, Panama.

  14. Pan, B., Duan, H.F., Che, T.C., Lee, P.J., Meniconi, S., and Brunone, B. (2019). Understanding effect of arterial viscoelasticity on blood hammer using multi-scale perturbation analysis. The 38th IAHR World Congress, 1-6 September 2019, Panama City, Panama.

  15. Zhang, Y., Duan, H.F., Pan, B., Zheng, F.F., and Huang, Y. (2019). Transient-based optimal decomposition of urban water distribution networks for effective pipeline condition assessment. The 38th IAHR World Congress, 1-6 September 2019, Panama City, Panama.

  16. Wang, M.L., Duan, H.F., Zheng, F.F., and Huang, Y. (2019). Transient-based characterization for different pipe defects in water supply systems. The 38th IAHR World Congress, 1-6 September 2019, Panama City, Panama.

  17. Che, T.C., Pan, B., Wang, M.L., Zhang, Y., and Duan, H.F. (2019). 2D Numerical study of transient-blockage interaction in pressurized water pipes. The 38th IAHR World Congress, 1-6 September 2019, Panama City, Panama.

  18. Pan, B., Duan, H.F., Che, T.C., Meniconi, S. and Brunone, B. (2018). A frequency-domain transient-based method for the analysis of viscoelastic parameters of plastic pipes. The 13th International Conference on Pressure Surges 2018, 14-16 November 2018, Bordeaux, France.

  19. Che, T.C., Duan, H.F., Pan, B., Lee, P.J. and Ghidaoui, M.S. (2018). Explanation for the frequency shift pattern of non-uniform blocked pipeline systems from an energy perspective. The 13th International Conference on Pressure Surges 2018, 14-16 November 2018, Bordeaux, France.

  20. Huang, Y., Zheng, F.F., Duan, H.F., Zhang, Q.Z., and He, G. (2018). An Efficient Lagrangian-Based Approach for Transient Modelling and Analysis in Urban Water Distribution Networks. The 1st WDSA-CCWI Joint Conference, July 23-25, 2018, Queen's University, Kingston, Ontario, Canada.

  21. Pan, B., Duan, H.F., Che, T.C., Zheng, F.F., Meniconi, S., and Brunone, B. (2018). Inverse Analysis of Pipe Viscoelastic Parameters Using Frequency-Domain Transient-Based Method. The 1st WDSA-CCWI Joint Conference, July 23-25, 2018, Queen's University, Kingston, Ontario, Canada.

  22. Duan, H.F. (2018). On the interaction of fluid transients with inline air pocket/blockage in water supply pipelines. The 1st International Workshop on Unsteady Two-phase Flow and Its Applications, July 4-5, 2018, Tianjin University, Tianjin, China.

  23. Che, T.C., Duan, H.F., Pan, B., Lee, P.J., and Ghidaoui, M.S. (2018). Transient-based method for non-uniform blockage detection in water pipelines. The 8th International Symposium on Environmental Hydraulics (ISEH 2018), June 4-6, 2018, University of Notre Dame, Indiana, USA.

  24. Duan, H.F., Che, T.C., and Pan, B. (2018). Transient wave scattering analysis in urban water supply systems. The 8th International Symposium on Environmental Hydraulics (ISEH 2018), June 4-6, 2018, University of Notre Dame, Indiana, USA.

  25. Hou, Q.Z., Huang, C.Y., Wang, M.L., Duan, H.F. (2017). Water hammer analysis using SPH in density summation form. The SHERIC Beijing International Workshop, October 16-20, 2017, Beijing, China.

  26. Duan, H.F., Yan, H.X., Li, F., Hou, Q.Z., Tao, T., Xin, K.L., and Li, S.P. (2017). Development and Evaluation of Meshless Particle Methods for Modelling and Analysis of Transient Pipe Flows . The 37th IAHR World Congress, August 13-18 2017, Kuala Lumpur, Malaysia.

  27. Zhu, Y., Duan, H.F., Li, F., Wu, C.G., Yuan, Y.X., and Shi, Z.F. (2017). Influence of air content on transient flow behaviors in viscoelastic pipes. The 37th IAHR World Congress, August 13-18 2017, Kuala Lumpur, Malaysia.

  28. Chen, K.Y., Duan, H.F., Yan, X.F., Wang, X.K., and Liu, X.N. (2017). On the Influence of Lateral Flows on the Uncertainty of Unsteady Open Channel Flows in Mountainous Rivers. The 37th IAHR World Congress, August 13-18 2017, Kuala Lumpur, Malaysia.

  29. Che, T.C., Duan, H.F., Lee, P.J., and Ghidaoui, M.S. (2017). Theoretical analysis of the influence of blockage irregularities on transient waves in water supply pipelines. The 37th IAHR World Congress, August 13-18 2017, Kuala Lumpur, Malaysia.

  30. Wang, X.K, Huang, E., Liu, X.N., Yan, X.F., and Duan, H.F. (2016). Characteristics of sediment movement and river-bed morphology at mountainous stream confluence region. Proceedings of the 13th International Symposium on River Sedimentation (ISRS 2016), 19-22 September, 2016, Stuttgart; Germany.

  31. Duan, H.F. (2016). On the transient wave-roughness-blockage interaction in fluid piping systems.The 2nd Conference of Global Chinese Scholars on Hydrodynamics (CCSH),11-14 November, 2016, Wuxi, Jiangsu, China. 

  32. Duan, H.F., Huang, C.Y., Wei, J.G., Zhou, L., and Hou, Q.Z.. (2016). “Meshless particle methods for solving waterhammer equations”, The 2nd Conference of Global Chinese Scholars on Hydrodynamics (CCSH), 11-14 November, 2016, Wuxi, Jiangsu, China 

  33. Duan, H.F., and Che, T.C.. (2016). Evaluation of plane wave assumption in transient laminar pipe flow modeling and utilization. The 12th International Conference on Hydroinformatics (HIC 2016), 21-26 August, 2016, Inchon, South Korea 

  34. Duan, H.F.. and Li, F. (2016). “LID-based optimal design of urban water drainage systems”, The International LID Conference,, 26–29 June, 2016, Beijing, China. (oral presentation)

  35. Duan, H.F., and Li, F..(2016). “Transient analysis of air cavity advancing in drainage pipelines”, The 20th Congress of the IAHR-APD, 28-31 August, 2016, Colombo, Sri Lanka. (oral presentation) 

  36. Duan, H.F., Yan, H.X.. Li, F., Tao, T., Liu, S., Xin, K., and Li, S. (2016). “Extension of the SPH-based water hammer model to complex series-pipe systems”, The 20th Congress of the IAHR-APD, , 28-30 August, 2016, Colombo, Siri Lanka. (oral presentation)

  37. Duan, H.F.. and Lee, P.J. (2015). “Study on the transient wave-blockage interaction in fluid piping systems”, Proceedings of the 7th International Conference on Fluid Mechanics,, 24–27 May, 2015, Qingdao, China. (oral presentation)

  38. Duan, H.F., Lee, P.J., and Tuck, J. (2014). “Experimental investigation of wave scattering effect of pipe blockages on transient analysis”, Proceedings of the 16h WDSA Conference, 14–17 July, 2014, Bari, Italy. (oral presentation)

  39. Duan, H.F.. Lu, J.L., and Ghidaoui, M.S. (2013). “A modified Vardy-Brown unsteady friction model for transient pipe flow simulations”, Proceedings of the 35th IAHR Congress,, 9–13 Sept, 2013, Chengdu, China. (oral presentation)

  40. Duan, H.F., Lee, P.J., and Ghidaoui, M.S. (2013). “On transient wave-blockage interaction in pressurized water pipelines”, The 12th CCWI-2013 Conference,, 4–6 Sept, 2013, University of Perugia, Italy. (oral presentation) 

  41. Lu, J.L., Duan, H.F., Kolyshkin, A.A., and Ghidaoui, M.S. (2011). “The effect of random inhomogeneities on wave propagation in pipes”, Proceedings of the 34th IAHR Congress, June 26 – July 02, 2011, Brisbane Australia. (oral presentation)

  42. Duan, H.F., Tung, Y.K., and Ghidaoui, M.S. (2010). “Uncertainty propagation in pipe fluid transients”, The 17th IAHR–APD Congress, , Auckland, New Zealand. (oral presentation)

  43. Duan, H.F., Ghidaoui, M.S., and Tung, Y.K. (2009). “Probabilistic analysis of transients in water supply system design”, Proceedings of the 33rd IAHR Congress, Vancouver, BC, Canada. (oral presentation)

  44. Duan, H.F.. (2009). “Relative importance of unsteady friction and viscoelasticity in pipe fluid transients", Proceedings of the 33rd IAHR Congress , August 2009, Vancouver, BC, Canada. (selected paper for IAHR J.F.K. awards competition) (oral presentation)

  45. Duan, H.F., Ghidaoui, M.S., and Tung, Y.K. (2008). “Extension of the efficient quasi-2D water hammer model to complex pipe system”, Proceedings of the 16th IAHR–APD Congress and 3rd Symposium of IAHR–ISHS, Nanjing, China (oral presentation)

 

 

(C) Technical Reports & Books

 

  1. 郑飞飞,黄源,段焕丰。城市供水管网瞬变流水力模拟技术及工程应用,中国水利水电出版社,2021.07,224页,ISBN:978-7-5170-9819-5.  【Zheng, F.F., Huang, Y., and Duan, H.F. (2021). Hydraulic Simulation Technology and Engineering Applications of Transient Flows in Urban Water Supply Networks. China Water & Power Press, pp. 224, ISBN:978-7-5170-9819-5.】

  2. Tung, Y.K., Duan, H.F., and Lu Z.H., (2010). “Uncertainty Analysis and Sensitivity Analysis on the Mike-11 Model for Shenzhen River and Northern New Territories Basins”, Drainage Services Department (DSD), Hong Kong SAR, PP: 292

 

 

(D) Copyright & Patent

 

  1. 软件著作权 #1: “压力管网系统综合水力模拟设计软件(WSD1.0)”, Reg. No. 2015SR101727 (Granted; 已授权;唯一版权所有人).

  2. 发明专利 #1: “基于水力波分析的供水管道多功能在线无损检测技术方法与装置”, 专利号: 201510314262.X (Licensed; 已授权;排名第一).

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