餘錫平

餘錫平

餘錫平,博士,清華大學水利系教授,教育部長江學者獎勵計畫特聘教授,2003年-2008年任水利系系主任。

  • 中文名稱
    餘錫平
  • 國籍
    中國
  • 職業
    清華大學水利系教授,教育部長江學者獎勵計畫特聘教授
  • 主要成就
    2001年10月受聘教育部長江學者獎勵計畫特聘教授

人物履歷

1984年畢業于清華大學水利工程系

1986年獲清華大學水力學與河流動力學專業碩士學位

1990年獲日本東京大學海岸工程專業博士學位

1992年在香港大學工學院機械工程系作博士後研究

1993年任日本長崎大學土木工程系副教授,兼任研究生院海洋產業技術科學學科副教授

1997年調任日本東京大學土木工程系副教授

1999年回國服務,任上海交通大學工程力學系教授,博士生導師

2001年初入選清華大學百人計畫,調任清華大學水利水電工程系教授

2001年10月受聘教育部長江學者獎勵計畫特聘教授

2003年-2008年任水利系系主任

學術兼職

海岸及近海工程國家重點實驗室(大連理工大學)學術委員會委員

海洋工程學會 常務理事

力學學會流體力學專業委員會水動力學 組副組長

全國水利學科教學指導委員會 副主任委員

APAC(亞太海岸)系列國際會議策劃指導委員會 委員

《Coastal Engineering》編委

《科學通報》編委

《水利學報》編委

《水科學進展》編委

《海洋工程》編委

《水動力學研究與進展》編委

水沙科學與水利水電工程國家重點實驗室(清華大學)學術委員會委員

海洋工程山東省重點實驗室(中國海洋大學)學術委員會委員

Coastal Structures 2011 (美國土木工程學會主辦) 國際學術委員委員

研究領域

海岸水動力學

海岸泥沙動力學

海岸工程建築物先進設計理論

海岸環境的安全性及舒適性評價

獎勵與榮譽

2001年10月受聘教育部長江學者獎勵計畫特聘教授

2000年度國家傑出青年科學基金得主

2007年度新世紀百千萬人才工程國家級人選

2009年度教育部自然科學一等獎

學術成果

[1] Yu, X., M. Isobe, and A. Watanabe (1992). Numerical computation of wave transformation on beaches. Coastal Engineering in Japan, JSCE, Vol. 35, 1-19.

[2] Yu, X., M. Isobe, and A. Watanabe (1992). Finite element solution of wave field around structures in nearshore zone. Coastal Engineering in Japan, JSCE, Vol. 35, 21-33.

[3] Yu, X., M. Isobe, and A. Watanabe (1992). A numerical model for nonlinear wave transformation in nearshore zone by multi-step finite characteristic method. Coastal Engineering in Japan, JSCE, Vol. 35, 35-48

[4] Yu, X. and A. T. Chwang (1993). Analysis of wave scattering by submerged circular disk. Journal of Engineering Mechanics, ASCE, Vol. 119, No. 9, 1804-1917.

[5] Yu, X. and A. T. Chwang (1994). Wave induced oscillation in harbor with porous breakwaters. Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, Vol. 120, No. 2 125-144.

[6] Yu, X. and A. T. Chwang (1994). Water waves above submerged porous plate. Journal of Engineering Mechanics, ASCE, Vol. 120, No. 6, 1270-1282.

[7] Yu, X. and A. T. Chwang (1994). Wave motion through porous structures. Journal of Engineering Mechanics, ASCE, Vol. 120, No. 5, 989-1008.

[8] Yu, X., M. Isobe, and A. Watanabe (1995). Wave breaking over submerged horizontal plate, Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, Vol. 121, No. 2, 105-113.

[9] Yu, X. (1995). Diffraction of water waves by porous breakwaters. Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, Vol. 121, No. 6, 275-282.

[10] Yu, X. (1996). Finite analytic method for the mild slope wave equation. Journal of Engineering Mechanics, ASCE, Vol.122, No.2, 109-115.

[11] Yu, X. (1996). Oscillations in a coupled bay-river system. 1. Analytic solution. Coastal Engineering, Vol. 28, Nos.1-4, 147-164.

[12] Yu, X. and H. Togashi (1996). Oscillations in a coupled bay-river system. 2. Numerical method. Coastal Engineering, Vol. 28, Nos.1-4, 165-182.

[13] Yu, X. (1998). Finite difference methods for the reduced water wave equation. Computer Methods in Applied Mechanics and Engineering, Vol. 154, 265-280.

[14] Yu, X., M. Isobe, and A. Watanabe (1998). A nonlinear model of monochromatic waves on steady currents over gradually-varying bottoms. Coastal Engineering Journal, JSCE, Vol. 40, No. 3, 1-26.

[15] Yu, X. (2002), Functional performance of a submerged and essentially horizontal plate for offshore wave control: a review, Coastal Engineering, Vol.44, No.2, 127-147.

[16] Yu, X. and B. Zhang (2003), An extended analytic solution for combined diffraction and diffraction of long waves over a circular shoal, Ocean Engineering, 30(10), 1253-1267.

[17] Yu, X. and A. Watanabe (2003), New trends in numerical study of coastal sedimentary processes, International Journal of Sediment Research, 18(2), 192-198.

[18] B. Li, X. Yu, and Y. Yu (2005), A 2-D Numerical irregular wave tank and its verification, Journal of Hydrodynamics, 17(2): 222-227.

[19] B. Li, X. Yu, and Y. Yu (2006), 3-D numerical simulation of oblique wave action on vertical walls, Acta Oceanologica Sinica.

[20] Yu, X., M. Isobe, and A. Watanabe (1990). Numerical simulation of nonlinear wave transformation over a submerged plate. Proceedings of the 22nd International Conference on Coastal Engineering (ICCE'90), ASCE, Vol. 1, 136-149.

[21] Yu, X., M. Isobe, and A. Watanabe (1991). Analysis of wave motion over a submerged plate by boundary element method. Proceedings of the International Conference on Boundary Element Methods (IABEM'91 Kyoto), 393-402.

[22] Yu, X. and A. T. Chwang (1993). Scattered waves around a submerged circular disk. Proceedings of the 3rd Conference of International Society on Offshore and Polar Engineering (ISOPE'93), Vol. 3, 254-259.

[23] Yu, X. and A. T. Chwang (1993). Wave oscillation in a porous harbor. Proceedings of the 2nd International Conference on Fluid Mechanics (ICFM'93), 761-766.

[24] Yu, X. (1994). Wave height distribution around a porous breakwaters. Proceedings of the Joint Symposium of Nagasaki University and National Cheju University on High Technology, 21-26.

[25] Yu, X. and H. Togashi (1995). Irregular waves over an elliptic shoal. Proceedings of the 24th International Conference on Coastal Engineering (ICCE'94), ASCE, 746 - 760.

[26] Yu, X. and H. Togashi (1995). A sinusoidal shape function for finite element analysis of wave motion. Proceedings of the 2nd Conference on Hydro-Science and Engineering (ICHE'95), 1460-1467.

[27] Togashi, H., Md. H. Zaman, and X. Yu (1995). Wave-current interaction over a mound with trapezoidal cross section. Proceedings of the 2nd Conference on Hydro-Science and Engineering (ICHE'95), 1452-1459.

[28] Yu, X. and H. Togashi (1996). Dynamic effects of river geometry on resonance in nearly-closed bays. Proceedings of the 2nd International Conference on Hydrodynamics (ICHD'96), 673-678.

[29] Yu, X. (1997). Combined diffraction and transmission of water waves around a porous breakwater gap. Proceedings of the 25th International Conference on Coastal Engineering (ICCE'96), ASCE, 2063-2076.

[30] Yu, X., Liu, H., and Dong, Z. (2000). A numerical method for oil spreading on water, Proceedings of Korea-China Conference on Port and Coastal Engineering, 353-363.

[31] Yu, X. and Dong, Z. (2001). Direct computation of wave motion around submerged plates, Proceedings of 29 IAHR Congress, Beijing.

[32] Yu, X. and Chen, Y. (2001). A new analytic solution of mild slope wave equation, Proceedings of the First Asian and Pacific Coastal Engineering Conference, Dalian.

[33] Yu, X. (2001) Design of a submerged, horizontal plate for wave control, Proceedings of International Workshop on Advanced Design of Maritime Structures in the 21st Century (ADMS21), Ministry of Land, Infrastructure, and Transport, Japan, 206-213.

[34] M. Isobe, Y. Hanahara, X. Yu, and S. Takahashi, A VOF-based numerical model for wave transformation in shallow water, Proceedings of International Workshop on Advanced Design of Maritime Structures in the 21st Century (ADMS21), Ministry of Land, Infrastructure, and Transport, Japan, 2001, 200-205.

[35] Isobe, M., Y. Hanahara, X. Yu, and S. Takahashi (2002), Numerical Study on Waves Overtopping a Breakwater, 28th Internation Conference on Coastal Engineering, ASCE, Cardiff.

[36] Yu, X. (2003). A high-resolution numerical scheme for Boussinesq equations, Proceedings of the Second Asian and Pacific Coastal Engineering Conference, Yokohama.

[37] Yu, X. and Li, B.-X. (2005). The condition of wave fission, Proceedings of the Third Asian and Pacific Coastal Engineering Conference, Pusan

[38] Yu, X. and M. Isobe (2000). Numerical Solution of Coastal Water Wave Equations, Chapter 1, Handbook of Coastal Engineering (ed. J. B. Herbich), McGraw Hill, 1-71.

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