新普京888.3app
研究生培养
导师风采

董平教授

发表日期:2022年07月01日 08:06 文章编辑: 浏览次数:


 

 

     董平,帝国理工学院海岸工程博士,博士生导师,鲁东大学特聘教授、国家级人才计划项目获得者、山东省外专双百计划高端专家。主要从事海岸工程、泥沙运动、海岸动力地貌、波浪-结构物-底床相互作用等方面的研究工作,30多年海外工作经历。主持EPSRCMinistry of Education, ChinaRoyal SocietyScottish EnterpriseRoyal Academy of EngineeringLeverhulme TrustFife Regional CouncilScottish Executive and Angus CouncilAngus Council资助项目20项,发表论文120多篇。主讲本科生课程《Fluid Mechanics 、《Water Resources and Treatment》、《Environmental Hydraulics》、《Sustainable Water Engineering》等4门,研究生课程《Environmental Fluid Mechanics》、《Communication and Management of Research》等2门。

邮箱4000@ldu.edu.cn

 

教育经历:

1984.01-1988.06 伦敦帝国理工学院,海岸工程专业,博士

1978.02-1982.02 大连理工大学水利工程系,海洋石油建筑工程专业,学士

工作经历:

2023-至今,鲁东大学,特聘教授

2012-2016,中国海洋大学,特聘教授

2017-2021,宁波理工大学,特聘教授

2017-2023,利物浦大学,教授

1996-2017,邓迪大学,教授

1990-1996,Babtie Group Ltd, UK,首席工程师

1987-1990,伦敦大学,博士后,助理研究员

研究方向:

· Ocean currents and sediment fluxes(海洋流和泥沙流)

· Sediment transport(泥沙运动)

· Coastal and estuarine morphodynamics (海岸动力地貌)

· Soil liquefaction and particle flows (土体液化和颗粒流)

· Wave-structure-soil bed interactions (波浪,结构物,底床相互作用)

论文发表:

1. Dong, P and K Anastasiou(1991), "The Vertical Distribution of Longshore Current on a Plane Beach", Coastal Engineering, 15, 279-29

2. Walker, D J, P Dong and K Anastasiou (1991),"Sediment Transport Near Groynes in the Nearshore Zone", J. of Coastal Research, 7(4): 1003-1010

3. Dong, P. and K. Zhang(1999), Two-phase flow modelling of wave-induced sediment transport in sheet flows,  Coastal Engineering, 36(2), 87-109

4. Dong, P and H. Chen, (1999), Probabilistic predictions of time-dependent long term beach erosion risks, Coastal Engineering, 36(3), 243-261

5. Zhang, K and P. Dong(2000), A numerical code for two-phase flow equations in simulating fluid and sediment motions, Applied Mathematical Modelling, 24(7), 495-510.

6. Dong, P. and Chen, H. (2000), A simple life-cycle method for predicting extreme shoreline erosion, Stochastic Environmental Research and Risk Assessment 14 (2), 79-89

7. Dong, P. and H. Chen (2001), Wave chronology effects on the long-term shoreline erosion predictions, J. of Coastal, Port, Harbour and Waterway Eng., ASCE, 127(3), 186-189

8. Dong, P., Davies, M. C. R. Davies, T. A. Newson and Davies, P. A (2001), Scaling laws for centrifuge modelling of soil transport by turbulent fluid flows, International Journal of Physical Modelling in Geotechnique, 1(1), 41-46

9. Dong, P. and K. Zhang (2002), Intense near-bed sediment motions in waves and currents,  Coastal Engineering,  45(2): 75-87

10. Li, L. and P. Dong and Barry A (2002), effects of bay shape on tidal water table fluctuations in a coastal aquifer, Journal of Hydraulic Engineering, ASCE , 128(10):925-933.

11. Feng, S., Dong, P., Tsutahara, M. and Takada N (2003) Simulation of shockwave propagation with a thermal Lattice Boltzmann model, International Journal for Numerical Methods in Fluids , 41(11), 1137-1146

12. Dong P., Feng S.D. and Zhao Y (2004), Numerical analysis of fluid flow through a cylinder array using a lattice Boltzmann model, Chinese Physics, 13:434-440

13. Dong, P. (2004), An assessment of groyne performance in the United Kingdom, Coastal Management, 32:201-211

14. Damgaard, J. and Dong, P. (2004), Soft cliff recession under oblique waves:  physical model  tests, J. of Coastal, Port, Harbour and Waterway Eng., 130(5): 234-242

15. Guo, Y. K., J. K.  Sveen, P. A. Davies, J. Grue, P. Dong. (2004)  Modelling of the motion of an internal solitary wave over a bottom ridge in a stratified fluid, Environmental Fluid Mechanics,  4(4) 415-441

16. Jeng, D.-S., Barry, D. A., Seymour, B. R., Dong, P. and Li, L. (2005), A Two-Dimensional approximation for tide-induced watertable fluctuations in a sloping sandy beach. Advances in Water Resources, 28:1040-1047  

17. Dong, P  and Guzzetti, F. (2005), Frequency-size statistics of coastal soft-cliff erosion, J. of Coastal, Port, Harbour and Waterway Eng., ASCE, 131(1):37-42

18. Stansell, P., Pandya,  R.V.R, Cosgrove, J.A. and Dong, P. 2006, Primary instability and fluid particle migration in transitional oscillatory stokes flow, Journal of Turbulence. 7(47):1-16

19. Feng, S. D., Dong P. and Zhong L. H. (2006), A Lattice Boltzmann model for two dimensional magnetohydrodynamics, Chinese Physics Letters, 23:2823-2826

20. She, L.Q., Li, J.F., Ying, M., Li, W.H., Chen, S.L. and Dong, P, 2006, Erosion experiments on natural sediment from the Modern Yellow River Delta, The Chinese Ocean Engineering, 24 (1): 46-54

21. Zhong, L.H., Feng, S.D., Dong, P. and Gao, S.T, 2006, “Lattice Boltzmann schemes for the Nonlinear Schrödinger equation” Phys. Rev. E 74, 036704

22. Dong, P, 2007, A two-fraction formulation of critical shear stresses for sand and silt mixtures,  J. of Coastal, Port, Harbour and Waterway Eng., 133(3): 238-241

23. Shi, L.Q, Li, J.F., Dong, P, Ying, M, Li, W.H. and Chen, S.L., 2007. An experiment study of erosion characteristics of sediment bed at the Yellow River Delta, Coastal Engineering Journal, 49(1):25-43

24. Feng SD, Zhong LH, Gao ST and Dong, P. 2007, “Equilibrium distribution boundary condition in lattice Boltzmann model and numerical simulation of Darcy-Forcheimer drag for fluid flow across a square cylinder array”, ACTA Physica Sinica, 56(3): 1238-1244

25. Dong, P, 2008, A The long-term equilibrium beach profile based on the Maximum Information Entropy concept, J. of Coastal, Port, Harbour and Waterway Eng., ASCE, 134(3): 160-165

26. Cuthbertson A, Dong, P., King, S and Davies, P.A. 2008. Hindered settling velocity of cohesive / non-cohesive sediment mixtures, Coastal Engineering, 55(12):1197-1208

27. Li W. H., Cheng H.Q., Li J.F. and Dong P., 2008. Temporal and spatial changes of dunes in the Changjiang (Yangtze) estuary, China, Estuarine, Coastal and Shelf Science, 77(1):169-174

28. Chen, X.Y., Chen, S.L., Dong, P. and Li, X.Y. 2008. Temporal and spatial evolution of the coastal profiles along the Yellow River Delta over last three decades, GeoJournal, 71(2-3):185-199

29. Feng S.D., Dong, P. and, Zhong L.H., 2008. A Conceptual Model of Somali Jet Based on the Biot--Savart Law, Chinese Physics Letters 25(12):4321-4324

30. Peng, Jun; Chen, Shenliang; Dong, Ping, 2010. Temporal variation of sediment load in the Yellow River basin, China, and its impacts on the lower reaches and the river delta. Catena  83(2-3):135-147

31. Ahmad, M.F., Dong, P. 2009. Tidally induced cross - shore sand - mud transport and long-term bed-profile evolution, Journal of Sustainability Science and Management 4 (2):125-140

32. Gao Tao; Li Guangxue; Shi Jinghao and Ping Dong. 2010. A flume test on erosion mechanism for an abandoned section of the Huanghe (Yellow) River Delta, Chinese Journal Of Oceanology and Limnology  28(3):684-692

33. Zhang, J., Wang, B. , Jeng, D-S. , Liu, P. L-F. & Dong, P. 2010. An integrated model of wave-seabed-structure interactions, Journal of Hydrodynamics series B. 22(5) SUPPL. 1: 126-131

34. Cuthbertson, Alan J. S.; Dong, Ping; Davies, Peter A, 2010. Non-equilibrium flocculation characteristics of fine-grained sediments in grid-generated turbulent flow, Coastal Engineering, 57(4):447-460

35. Xu, Jishang; Li, Guangxue; Dong, Ping; et al, 2010 Bedform evolution around a submarine pipeline and its effects on wave-induced forces under regular waves. Ocean Engineering, 37(2-3): 304-313

36. Kuang, Cuiping; Pan, Yi; Zhang, P Dong, 2011. Performance Evaluation of a Beach Nourishment Project at West Beach in Beidaihe, Journal of Coastal Research, 27(4):769-783

37. Xu, Haixia; Dong, Ping, 2011. A probabilistic analysis of random wave-induced liquefaction

38. Ocean Engineering, 38(7): 860-867

39. Wang, Y-X. , Ren, X-Z. , Dong, P. & Wang, G-Y. 2011. Three-dimensional numerical simulation of wave interaction with perforated quasi-ellipse caisson, Water Science and Engineering. 4, 1, p. 46-60

40. Zhou, Chunyan; Li, Guangxue; Dong, Ping; et al, 2011. An experimental study of seabed responses around a marine pipeline under wave and current conditions. Ocean Engineering, 38(1):226-234

41. Milne, F. D.; Dong, P.; Davidson, M., 2012. Natural Variability and Anthropogenic Effects on the Morphodynamics of a Beach-Dune System at Montrose Bay, Scotland, Journal of Coastal Research,  28(2): 375-388

42. Yin, J., Zou, Z. , Dong, P. , Zhang, H. , Wu, G. & Pan, Y. 2012. Experimental research on unstable movements of sandbars under wave actions, Water Science and Engineering. 5(2):. 175-190

43. Ren, Renxizi; Chen, Shenliang; Dong, Ping, 2012. Spatial and Temporal Variations in Grain Size of Surface Sediments in the Littoral Area of Yellow River Delta, Journal of Coastal Research, 28(1A): 44-53, 2012

44. Liu Feng; Chen Shenliang; Dong Ping. 2012. Spatial and temporal variability of water discharge in the Yellow River Basin over the past 60 years, JOURNAL OF GEOGRAPHICAL SCIENCES. 22(6): 1013-1033

45. Dong, P. and X.Z. Wu, 2013. Application of a stochastic differential equation to the prediction of shoreline evolution, STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT, 27(8): 1799-1814

46. Fang, Kezhao; Zou, Zhili; Dong, Ping; et al.2013. An efficient shock capturing algorithm to the extended Boussinesq wave equations, APPLIED OCEAN RESEARCH, 43:11-20

47. Wang, Yonghong; Dong, Ping; Oguchi, Takashi; 2013. Long-term (1842-2006) morphological change and equilibrium state of the Changjiang (Yangtze) Estuary, China,

CONTINENTAL SHELF RESEARCH, 56: 71-81  

48. Ren, B.; Wen, H.J.; Dong, P; et al. 2014. Numerical simulation of wave interaction with porous structures using an improved smoothed particle hydrodynamic method, Coastal Engineering, 88: 88-100

49. Gui, Q.Q.; Shao, S.D. and P. Dong. 2014. Wave Impact Simulations by an Improved ISPH Model, JOURNAL OF WATERWAY PORT COASTAL AND OCEAN ENGINEERING, 140(3)

50. Zhang, Lin; Ren, Renxizi; Chen, Shenliang; et al. 2014. Spatial variability of surface sediment basis on geostatistical analysis in the littoral area of Yellow River delta, China, INDIAN JOURNAL OF GEO-MARINE SCIENCES, 43(4): 463-472

51. Fang, Ke-Zhao; Yin, Ji-Wei; Zou, Zhi-Li; 2014. REPRODUCING LABORATORY-SCALE RIP CURRENTS ON A BARRED BEACH BY A BOUSSINESQ WAVE MODEL, JOURNAL OF MARINE SCIENCE AND TECHNOLOGY-TAIWAN, 22(2): 231-239

52. Wang, Yonghong; Li, Guangxue; Zhang, Weiguo; 2014. Sedimentary environment and formation mechanism of the mud deposit in the central South Yellow Sea during the past 40 kyr, MARINE GEOLOGY, 347: 123-135

53. Gui, Q.Q., P. Dong and S.D. Shao, 2015. Numerical study of PPE source term errors in the incompressible SPH models, Int. J. Numer. Meth. Fluids 2015; 77:358–379.

54. Ren, B, M. He, Dong, P.  et al. 2015. Nonlinear simulations of wave-induced motions of a freely floating body using WCSPH method, Applied Ocean Research, 50:1–12

55. Wu, X.Z. and P. Dong. 2015 Liouville Equation-Based Stochastic Model for Shoreline Evolution, Stochastic Environmental Research and Risk Assessment, 29.

56. Zhou, Chunyan, P Dong, Guangxue Li. 2015. Hydrodynamic processes and their impacts on the mud deposit in the Southern Yellow Sea, Marine Geology, 360:1-84

57. Li Jianchao, Li Guangxue*, Xu Jishang, Qiao Lulu, Dong Ping, Ding Dong, Liu Shidong,

Sun Pingkuo. 2015. Seasonal Suspended Particles Distribution Patterns in Western South

Yellow Sea Based on Acoustic Doppler Current Profiler Observation. J. Ocean Univ. China (Oceanic and Coastal Sea Research) 2015 14(3): 385-398.

58. Dong, P, Yiqiang Chen and Shenliang Chen. 2015. Sediment size effects on rip channel dynamics, Coastal Engineering, 99:124-135

59. Qui, Q, Ping Dong and Songdong Shao, Yiqiang Chen, 2015. Incompressible SPH simulation of wave interaction with porous structure, Ocean Engineering, 110: 126-139

60. Ren, Bing; Wen, Hongjie; Dong, Ping, Wang Yongxue, 2016. Improved SPH simulation of wave motions and turbulent flows through porous media, COASTAL ENGINEERING, 107: 14-27

61. Jin Yiming and Ping Dong, 2016. A novel wake oscillator model for simulation of cross-flow vortex induced vibrations of a circular cylinder close to a plane boundary. Ocean Engineering. 117; 57-62

62. Jianchao Li, Guangxue Li, Jishang Xu, Ping Dong, Lulu Qiao, Shidong Liu, Pingkuo Sun, Zhisong Fan. 2016. Seasonal evolution of the Yellow Sea Cold Water Mass and its interactions with ambient hydrodynamic system. Journal of Geophysical Research: Oceans. 121, doi:10.1002/2016JC012186.

63. Xu, Jishang; Wang, Nan; Li, Guangxue; et al.2016The dynamic responses of flow and near-bed turbidity to typhoons on the continental shelf of the East China Sea: field observations GEOLOGICAL JOURNAL, 51, Supplement:  1,  Pages:  12-21

64. Guangxue Li, Lulu Qiao, Ping Dong, Yanyan Ma, Jishang Xu, Shidong Liu, Yong Liu, Jianchao Li, Pin Li, Dong Ding, Nan Wang, Dada Olusegun A., Ling Liu. 2016. Hydrodynamic condition and suspended sediment diffusion in the Yellow Sea and East China Sea. Journal of Geophysical Research: Oceans. 121, doi: 10.1002/2015JC011442.

65. Chunyang Xu and Ping Dong, 2016. An application of two-phase 1DV model in studying sedimentary processes on an erosional mudflat at Yangtze River Delta, China, Frontiers of Earth Science, https://doi.org/10.1007/s11707-016-0604-1, pp 1–14

66. Chunyang Xu and P Dong, 2017, A time-dependent model of mud flocculation, Journal of Coastal Research, 33(1): 218 – 225

67. Mohammad H. Baba-Ahmadi and P Dong, 2017, Validation of applying Actuator Line Model to horizontal axis tidal stream turbines by comparison with detailed measurements, Journal of Renewable Energy, 113:  420-427

68. Mohammad H. Baba-Ahmadi and P Dong, 2017, Numerical simulations of wake characteristics of a horizontal axis tidal stream turbine using Actuator Line Model, Journal of Renewable Energy, 113:  669-678

69. Chunyang Xu and Dong, P. 2017, Two-phase flow modeling of sediment suspension in the EMS/ Dollard estuary, Estuarine, Coastal and Shelf Science, 191: 115-124  

70. Wang, Nan; Li, Guangxue; Qiao, Lulu; Shi, J.H., Dong, P., Xu, J.S. and Ma, Y.Y, 2017, Long-term evolution in the location, propagation, and magnitude of the tidal shear front off the Yellow River Mouth, Continental Shelf Research, 137: 1-12

71. Cuthbertson, AJS, Samsami, F., Dong, P., 2018. Model studies for flocculation of sand-clay mixtures, Coastal Engineering, 132:13-32

72. Wu, Gangfeng; Yang, Zhehao; Zhang, Kefeng; et al. 2018, A Non-Equilibrium Sediment Transport Model for Dam Break Flow over Moveable Bed Based on Non-Uniform Rectangular Mesh, WATER, 10(5), Article Number:  616

73. Zhong, Xiaojing; Dong, Ping; Chen, Shenliang, 2018,  Large-scale shoreline undulations and role of self-organization processes, Current Science,115(4):729-738

74. Zhou, Yan; Dong, Ping, 2018,  A new implementation method of sharp interface boundary conditions for particle methods in simulating wave interaction with submerged porous structure, Computers & Fluids, 177:  87-100

75. Shi, Huabin; Si, Pengfei; Dong, Ping; et al. 2019., A two-phase SPH model for massive sediment motion in free surface flows, Advances in water resources, Vol. 129:  80-98    

76. Niu, Jianwei; Xu, Jishang; Dong, Ping; et al., 2019 Pore water pressure responses in silty sediment bed under random wave action,  Scientific Reports, 9, Article Number: 11685

77. Wen, Hongjie; Ren, Bing; Dong, Ping; et al 2020, Numerical analysis of wave-induced current within the inhomogeneous coral reef using a refined SPH model, COASTAL ENGINEERING,  156, Article Number: 103616

78. Zhong, Wei; Zhu, Longhai; Dong, Ping; et al. 2020, Mechanisms of sediment trapping in coastal embayments off the Shandong Peninsula in summer-A case study in Weihai Bay, ESTUARINE COASTAL AND SHELF SCIENCE, 236, Article Number: 106623  

79. Wang, Yonghong; Xu, Congliang; Dong, P; et al. 2020, Impact of human intervention on channel shrinkage and restoration in the Huanghe Estuary, ENVIRONMENTAL EARTH SCIENCES, 79(10), Article Number: 238

80. Shi, HB; Dong, P; Yu, Xiping; Zhou, Y, 2021, A theoretical formulation of dilatation/contraction for continuum modelling of granular flows, Journal of Fluid Mechanics,  916

81. Teng, LZ; Cheng, HQ;  Dong P, Wang, YJ, 2021. On  the mechanism behind the shift of the turbidity maximum zone in  response to reclamations in the Yangtze (Changjiang) Estuary, China, Marine Geology,  440

82. Fang, Kezhao, Xiao, Li, Liu, Zhongbo, Sun, Jiawen, Dong, Ping and Wu, Hao (2022) Experiment and RANS modeling of solitary wave impact on a vertical wall mounted on a reef flat. Ocean Engineering, 244. 110384 - 110384.

83. Pan, XL; Zhou, Y; Dong, P; Shi, HB, (2022), An improved impermeable solid boundary scheme for Meshless Local Petrov-Galerkin method, |95 (94-105)

84. Xu, JS; Dong, JF; Dong, P 2022Pore-water pressure response of a silty seabed to random wave action: Importance of low-frequency wavesCoastal Engineering, 178

85. Zhu, GC; Wen, HJ; Dong, P; Ren, B 2023Experimental Investigation of Infragravity Wave Propagation on a Porous ReefJ of Waterway Port Coastal and Ocean Eng. ASCE, 149 (3)

86. Zhu, JJ; Ren, B; (...); Wang, YX, (2023) | Natural vibration characteristics of short-span submarine power cables with bending stiffness and sag, Marine Structures, 87

87. Niu, JW, Xu, JS, Zhou, Y, , Cai SQ, Dong, P (2023), Wave-supported fluid mud and sediment vertical mixing under winter storm, Applied Ocean Research, 141

 

 

 

 

 

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