必赢线路检测3003 必赢线路检测3003no1 欢迎您!

团队队伍

高福平

  • 时间:2018-06-07
  • 作者:
  • 点击:
  • 来源:

个人简介

 

 

基本信息

高福平(19735月),汉族,研究员、博士生导师。

研究领域及研究内容

学科领域:海洋土力学、海洋工程;研究方向:流固土耦合力学(波流-结构-海床相互作用)。

主要科研成果

Selected Publications

1.Qi,W.G., *Gao, F.P. (2018): Wave induced instantaneously-liquefied soil depth in a non-cohesive seabed. Ocean Engineering, 153: 412-423. (SCI/EI)

2.Shi,Y.M., *Gao, F.P. (2017): Lateral instability and tunnel erosion of a submarine pipeline: Competition mechanism. Bulletin of Engineering Geology and the Environment, DOI 10.1007/s10064-017-1073-9. (SCI/EI)

3.*Gao, F.P. (2017): Flow-pipe-soil coupling mechanisms and predictions for submarine pipeline instability. Journal of Hydrodynamics, 29 (5): 763-773. (SCI/EI)

4.Li, L., Li, J., Huang, J., Gao, F.P. (2017): Bearing capacity of spudcan foundations in a spatially varying clayey seabed. Ocean Engineering, 143: 97-105. (SCI/EI)

5.*Gao, F.P., Wang,N., Li, J. H., Han, X.T. (2016): Pipe-soil interaction model for current-induced pipeline instability on a sloping sandy seabed. Canadian Geotechnical Journal, 53(11): 1822-1830. (SCI/EI)

6.Qi, W.G., Gao, F.P., Randolph, M.F., Lehane, B.M. (2016): Scour effects on py curves for shallowly embedded piles in sand. Géotechnique, 66(8): 648-660. (SCI/EI)

7.Li, Y.X., Qi, W.G., *Gao, F.P. (2016): Physical modelling of pile-group effect on the local scour in submarine environments. Procedia Engineering, 166: 212-220. (EI)

8.*Gao, F.P.Li, J.H., Qi, W.G., Hu, C. (2015): On the instability of offshore foundations: theory and mechanism. Science China-Physics, Mechanics & Astronomy, 58 (12): 124701. (SCI/EI)

9.*Gao, F.P., Wang, N., Zhao, B. (2015): A general slip-line field solution for the ultimate bearing capacity of a pipeline on drained soils. Ocean Engineering, 104: 405-413. (SCI/EI)

10.*Gao, F.P., Cassidy, M. (2015): Editorial: Special issue on offshore structure-soil interaction. Theoretical and Applied Mechanics Letters, 5: 63.

11.Hu, C., Gao, F.P. (2015). Elasto-plasticity and pore-pressure coupled analysis on the pullout behaviors of a plate anchor. Theoretical and Applied Mechanics Letters, 5: 89-92.

12.Qi, W G, *Gao, F.P. (2015): A modified criterion for wave-induced momentary liquefaction of sandy seabed. Theoretical and Applied Mechanics Letters, 5: 20-23.

13.Qi, W G, *Gao, F.P. (2014): Equilibrium scour depth at offshore monopile foundation in combined waves and current. Science China, Technological Sciences, 57(5): 1030-1039. (SCI/EI)

14.Qi, W.G. and *Gao, F.P. (2014): Physical modeling of local scour development around a large-diameter monopile in combined waves and current. Coastal Engineering, 83: 72-81. (SCI/EI)

15.Zang, Z.P., *Gao, F.P. (2014): Steady current induced vibration of near-bed piggyback pipelines: Configuration effects on VIV suppression. Applied Ocean Research, 46: 62-69. (SCI/EI)

16.Wang, Y.F., *Gao, F.P., Qi, W.G. (2014): Cyclic pore pressure generation in silty soils under the action of combined waves and current. Geotechnical Engineering Journal, 45(4): 40-45. (EI)

17.*Gao, F.P.Wang, N., Zhao, B. (2013): Ultimate bearing capacity of a pipeline on clayey soils: Slip-line field solution and FEM simulation. Ocean Engineering, 73: 159-167. (SCI/EI)

18.Zang, Z.P., *Gao, F.P., Cui, J.S. (2013): Physical modeling and swirling strength analysis of vortex shedding from near-bed piggyback pipelines. Applied Ocean Research, 40: 50-59. (SCI/EI)

19.Zhang, Y., Jeng, D.-S., Gao, F.P., Zhang, J.-S. (2013): An analytical solution for response of a porous seabed to combined wave and current loading. Ocean Engineering, 57: 240-247. (SCI/EI)

20.*Gao, F.P. & Zhao, B. (2012): Slip-line field solution for ultimate bearing capacity of a pipeline on clayey soils. Theoretical & Applied Mechanics Letters, 2: 051004.

21.*Gao, F.P., Han, X.T., Cao, J., Sha, Y., Cui, J.S. (2012): Submarine pipeline lateral instability on a sloping sandy seabed. Ocean Engineering, 50: 44-52. (SCI/EI)

22.*Gao, F.P., Han, X.T., Yan, S.M. (2012): A numerical model for ultimate soil resistance to an untrenched pipeline under ocean currents. China Ocean Engineering, 26(2): 185-194. (SCI/EI)

23.*Gao, F.P., Yan, S.M., Yang, B., Luo, C.C. (2011): Steady flow-induced instability of a partially embedded pipeline: Pipesoil interaction mechanism. Ocean Engineering, 38: 934-942. (SCI/EI)

24.Li, X.J., *Gao, F.P., Yang, B., Zang, J. (2011): Wave-induced pore pressure responses and soil liquefaction around pile foundation. International Journal of Offshore and Polar Engineering, 21(3): 233-239. (SCI/EI)

25.Yan, W.J. & *Gao, F.P. (2010): Numerical analysis of interfacial shear degradation effects on axial uplift bearing capacity of a tension pile. Procedia Engineering, 4: 273-281. (EI)

26.*Gao, F.P. & Luo, C.C. (2010): Flow-pipe-seepage coupling analysis on spanning initiation of a partially-embedded pipeline. Journal of Hydrodynamics, 22(4): 478-487. (SCI)

27.Zhao, C.G., Liu, Y., Gao F.P. (2010): Work and energy equations and the principle of generalized effective stress for unsaturated soils. International Journal for Numerical and Analytical Method in Geomechanics, 34: 920-936. (SCI, EI)

28.Jeng, D.S., Zhou, X.L., Luo, X.D., Wang, J.H., Zhang, J. and Gao, F. P. (2010): Response of porous seabed to dynamic loadings. Geotechnical Engineering Journal, 41(4): 1-10.EI

29.Yang, B., *Gao, F. P., Li, D.H., Wu, Y. X. (2009): Physical modelling and parametric study on two-degree-of-freedom VIV of a cylinder near rigid wall. China Ocean Engineering, 23(1): 119132. (SCI, EI)

30.Yang, B., Gao, F. P., Jeng, D.S., Wu, Y. X. (2009): Experimental study of vortex-induced vibrations of a cylinder near a rigid plane boundary in steady flow. Acta Mechanica Sinica, 25: 51-63. (SCI, EI)

31.Yang, B., *Gao, F. P., Wu, Y. X. (2008): Flow-induced vibrations of a cylinder with two degrees of freedom near rigid plane boundary. International Journal of Offshore and Polar Engineering, 18 (4): 302-307. (SCI, EI)

32.Yang, B., *Gao, F. P., Jeng, D.S., Wu, Y. X. (2008): Experimental study of vortex-induced vibrations of a pipeline near an erodible sandy seabed. Ocean Engineering, 35(3-4): 301-309. (SCI, EI)

33.*Gao, F. P., Yan, S.M., Yang, B., Wu, Y. X. (2007): Ocean currents-induced pipeline lateral stability. Journal of Engineering Mechanics, ASCE, 133(10): 1086-1092. (SCI, EI)

34.Jeng, D.S., Seymour, B., *Gao, F.P., Wu, Y.X. (2007): Ocean waves propagating over a porous seabed: residual and oscillatory mechanisms. Science in China, Series E Technological Sciences, 50(1): 81-89. (SCI, EI)

35.*Gao, F. P., Yang, B., Wu, Y. X., Yan, S.M. (2006): Steady currents induced seabed scour around a vibrating pipeline. Applied Ocean Research, 28(5): 291-298. (SCI, EI)

36.*Gao, F. P., Jeng, D. S., Wu, Y. X (2006): An improved analysis method for wave-induced pipeline stability on sandy seabed. Journal of Transportation Engineering, ASCE, 132(7): 590-596 (SCI, EI)

37.Yang, B., Gao, F.P., Wu, Y.X. (2006): Dimensional analysis and experimental apparatus on interaction between ocean current-pipeline and seabed. Journal of Ship Mechanics, 10(3): 130-141 (EI)

38.Zhao, C.G., Dong, J., *Gao, F.P. (2006). An analytical solution for three-dimensional diffraction of plane p-waves by a hemispherical alluvial valley with saturated soil deposits. Acta Mechanica Solida Sinica, 19(2):141-151 (SCI, EI)

39.Yang, B., *Gao, F. P., Wu, Y.X., Li, D.H. (2006): Experimental study on vortex-induced vibrations of submarine pipeline near seabed boundary in ocean currents. China Ocean Engineering, 20(1):113-121 (SCI, EI)

40.Zhao, C.G., Dong, J., *Gao, F.P., Jeng, D.S. (2006): Seismic responses of a hemispherical alluvial valley subjected to SV waves: A three-dimensional analytical approximation. Acta Mechanica Sinica, 22(6): 547-557. (SCI, EI)

41.*Gao, F. P., Wu, Y. X. (2006): Non-linear wave induced transient response of soil around a trenched pipeline. Ocean Engineering, 33: 311-330 (SCI, EI)

42.Zhao C.G., Yang Z.M., Gao F.P. and Zhang Y.N. (2005). Influential factors of loess liquefaction and pore pressure development. Acta Mechanica Sinica, 21(2): 129-132. (SCI, EI)

43.Gao, F. P., Jeng, D. S. and Sekiguchi, H. (2003): Numerical study on the interaction between non-linear wave, buried pipeline and non-homogenous porous seabed. Computers and Geotechnics, 30 (6): 535-547. (SCI, EI)

44.Gao, F. P., Gu, X. Y. and Jeng, D.S. 2003: Physical modeling of untrenched submarine pipeline instability. Ocean Engineering, 30 (10): 1283-1304.(SCI, EI)

45.Gao, F. P., Gu, X. Y., Jeng, D.S. and Teo H.T. (2002): An experimental study for wave-induced instability of pipelines: The breakout of pipelines. Applied Ocean Research, 24(2): 83-90. (SCI, EI)

46.Jeng, D. S., Gao, F. P. and Sekiguchi, H. (2002): Effects of wave non-linearity on the wave-induced responses of soil and buried pipeline: Application of GFEM-WSSI. Journal of Engineering, 13(2): 77-90.

47.Gu, X.Y., Gao, F.P. and Pu, Q. (2001): Wave-soil-pipe coupling effect upon submarine pipeline on-bottom stability. Acta Mechanica Sinica, 17(1): 86-96. (SCI, EI).

48.Pu, Q., Li, K., Gao F.P (2001): Scour of the seabed under a pipeline in oscillating flow. China Ocean Engineering, 15(1)129-137. (SCI, EI).

49.Gao, F. P. & Randolph, M. F.: Progressive ocean wave modeling in drum centrifuge. Frontiers in Offshore Geotechnics (ISFOG), London: Taylor & Francis, 2005, pp. 583-588. (EI)

50.高福平.海洋工程结构与海床土体相互作用机理及分析方法中国学科发展战略研究 — 水利科学与工程前沿北京:科学出版社,2017pp. 877-888.

主要学术及社会兼职

Ocean Engineering”副主编(Deputy Editor); “Theoretical & Applied Mechanics Letters, Journal of Hydrodynamics, Journal of Marine Science and Application, 《应用数学和力学》, 《岩土工程学报》等期刊编委。“国际海洋与极地工程学会(ISOPE)”技术理事会成员(TPC Member);“国际土力学与岩土工程学会 (ISSMGE)”第四届冲刷技术委员会Vice-Chair、海洋土力学专业委员会委员;“国际工程地质学会(IAEG)”海洋工程地质委员会执行委员。“中国力学学会”理事; “中国振动工程学会”土动力学专业委员会理事; “中国造船工程学会”近海工程学术委员会委员。

科研成果获奖情况

中国高被引学者 (Most Cited Chinese Researcher, Elsevier)

2016年,入选中科院“青年创新促进会—优秀会员”

2011年,获中国力学学会“青年科技奖”

2009年,获中科院“卢嘉锡青年人才奖”

2007年,入选北京市“科技新星”计划

上一条:邹建华 下一条:龚文璞

关闭

联系电话:

023-58102281

版权信息:

地址:重庆市万州区天星路666号

版权所有·必赢·bwin(中国)线路检测中心-www.3003no1.com

Copyright © http://www.skydivingforums.com/ All Rights Reserved