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爱彩乐-爱彩乐官网

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    重慶大學土木工程學院歡迎您爱彩乐-爱彩乐官网! English 教師登錄
    簡介

    田村幸雄(Yukio Tamura),男,畢業于日本早稻田大學。田村幸雄教授在建筑結構抗風設計鏈的各個環節爱彩乐-爱彩乐官网,包括結構空氣動力學基礎理論爱彩乐-爱彩乐官网、設計風速的確定、結構風荷載以及等效靜風荷載的計算、結構氣動穩定性的評價爱彩乐-爱彩乐官网、建筑結構抗風設計規范的編制與修訂、以及風災防治等多方面進行了長期、系統和深入的研究。其突出性學術成就和貢獻集中在建筑結構風荷載的數學模型、量化和分析,為實現合理的建筑結構抗風設計做出了創造性貢獻,是建筑結構抗風研究和應用領域的國際著名專家爱彩乐-爱彩乐官网爱彩乐-爱彩乐官网。田村幸雄教授是中國工程院外籍院士、日本工程院院士、印度工程院外籍院士爱彩乐-爱彩乐官网、歐洲科學院院士。2007-2015連續兩屆連任國際風工程協會主席,2007-2015任世界風能協會執委,2009年與聯合國防災署的合作,發起成立了強風關聯災害防治國際組織,并擔任主席至今。

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    ·研究方向
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    結構空氣動力學基礎理論、結構風荷載以及等效靜風荷載的計算、結構氣動穩定性的評價、建筑結構抗風設計規范的編制與修訂、風災防治等。

    ·主講課程

    ·學術兼職

    國際、日本等各類學術研究組織主席爱彩乐-爱彩乐官网、執委等。

    代表性學術兼職如下:

    國際風工程學會主席(2007-2015

    世界風能協會執委(2007-2015

    強風關聯災害防治國際組織主席(2009-至今)

    日本風工程學會主席(2004-2008

    美國土木學會風效應專委會和高層建筑專委會以及結構抗風設計IS標準委員會等多項國際專業委員會委員

    加拿大自然科學與工程研究基金會、香港大學教育資助委員會、澳大利亞科學研究基金會等科研管理機構的評審專家

    香港理工大學等多所國際大學的評議專家

    美國圣母大學等15所國內外大學的名譽/顧問/客座教授

    ·主要成果

    共發表學術論文300余篇爱彩乐-爱彩乐官网、著作近40部。SCI總引用超過3300次,單篇最高SCI引用次數達346。

    代表性研究論文及著作:

    1. Y.C. Kim, W. Shan, Q. Yang, Y. Tamura, A. Yoshida, T. Itoh, 2020. Effect of panel shapes on wind-induced vibrations of solar wing system under various wind environments, Journal of Structural Engineering, ASCE, 146(6), 04020104

    2. J.X. Wang, Q.S. Yang, P.V. Phuc, Y. Tamura, 2020. Characteristics of conical vortices and their effects on wind pressures on flat-roof-mounted solar arrays by LES. Journal of wind Engineering and Industrial Aerodynamics, 200, 104146.

    3. X.L. Zhang, A.U. Weerasuriya, B. Lu, K.T. Tse, C.H. Liu, Y. Tamura, 2020. Pedestrian-level wind environment near a super-tall building with unconventional configurations in a regular urban area. Building Simulation, 13(2), 439-456.

    4. J.X. Wang, P.V. Phuc, Q.S. Yang, Y. Tamura, 2020. LES study of wind pressure and flow characteristics of flat-roof-mounted solar arrays. Journal of wind Engineering and Industrial Aerodynamics, 198, 104096.

    5. S. Behera, D. Ghosh, A.K. Mittal, Y. Tamura, W. Kim, 2020. The effect of plan ratios on wind interference of two tall buildings. Structural Design of Tall and Special Buildings, 29(1), e1680.

    6. Y. Tamura, X.D. Xu, Q.S. Yang, 2019. Characteristics of pedestrian-level Mean wind speed around square buildings: Effects of height, width, size and approaching flow profile. J Journal of wind Engineering and Industrial Aerodynamics, 192, 74-87.

    7. G.R. Sabareesh, M. Matsui, Y. Tamura, 2019. Vulnerability of roof and building walls under a translating tornado like vortex, Frontiers in Built Environment, 5, 1-9.

    8. B. Kim, K.T. Tse,. A. Yoshida, Y. Tamura, Z.S. Chen, P.V. Phuc, H.S. Park, 2019. Statistical analysis of wind-induced pressure fields and PIV measurements on two buildings. Journal of wind Engineering and Industrial Aerodynamics, 188, 161-174.

    9. Y.C. Kim, X. Xu, Q. Yang, Y. Tamura, 2019. Shape effects on aerodynamic and pedestrian-level wind characteristics and optimization for tall and super-tall building design, International Journal of High-Rise Buildings, 8(4), 235-253.

    10. W. Kim, A. Yoshida, Y. Tamura, 2019. Wind-induced aerodynamic instability of super-tall buildings with various cross-sectional shapes, International Journal of High-Rise Buildings, 8(4), 303-311.

    11. H. Wang, S.T. Ke, Y.J. Ge, Y. Tamura, 2019. Extreme and spectrum characteristics of wind loads on super-large cooling tower under different four-tower combinations. Advances in Structural Engineering, 22(5), 1238-1250.

    12. W. Shan, Y. Tamura, Q.S. Yang, B. Li, 2018 Effects of curved slopes, high ridges and double eaves on wind pressures on traditional Chinese hip roofs. Journal of wind Engineering and Industrial Aerodynamics, 183, 68-87.

    13. Y.C. Kim, Y. Tamura, A. Yoshida, T. Ito, W. Shan, Q. Yang, 2018. Experimental investigation of aerodynamic vibrations of solar wing system. Advances in Structural Engineering, 21(15), 2217-2226.

    14. B. Kim, K.T. Tse, Y. Tamura, 2018. POD analysis for aerodynamic characteristics of tall linked buildings. Journal of wind Engineering and Industrial Aerodynamics, 181, 126-140.

    15. Y. Qiu, Y. Sun, Y. Wu, B.B. San, Y. Tamura, 2018. Surface Roughness and Reynolds Number Effects on the Aerodynamic Forces and Pressures Acting on a Semicylindrical Roof in Smooth Flow. Journal of Structural Engineering, ASCE, 144(9), 04018140.

    16. P.K. Saha, A. Yoshida, R. Okada, Y. Tamura, 2018. Reduction of Mean Wind Forces on Photovoltaic System using Aerodynamic Appendages. KSCE Journal of Civil Engineering, 22(9), 3395-3400.

    17. S.T. Ke, L.Y. Du, Y.J. Ge, Y. Tamura, 2018. Multi-dimensional wind vibration coefficients under suction for ultra-large cooling towers considering ventilation rates of louvers, Structural Engineering and Mechanics, 66(2), 273 – 283

    18. G.R. Sabareesh, S.Y. Cao, J. Wang, M. Matsui, Y. Tamura, 2018. Effects of building proximity on external and internal pressure under tornado-like flow, Wind and Structures, 26(3), 163 – 177.

    19. S.T. Ke, W. Yu, L. Xu, Y.J. Ge, Y. Tamura, 2018. Identification of damping ratio and its influences on wind- and earthquake-induced effects for large cooling towers. Structural Design of Tall and Special Buildings,27(12), e1488.

    20. Q.S. Yang, R. Gao, F. Bai, T. Li, Y. Tamura, 2018. Damage to buildings and structures due to recent devastating wind hazards in East Asia. Natural Hazards, 92(3), 1321-1353.


    15. Kim, W, Tamura, Y, Yoshida, A, Yi, JH, Interference effects of an adjacent tall building with various sizes on local wind forces acting on a tall building. ADVANCES IN STRUCTURAL ENGINEERING, 21(10), 1469-1481.

    16. Ke, ST, Du, LY, Ge, YJ, Yang, Q, Wang, H, Tamura, Y, A study on the action mechanism of internal pressures in straight-cone steel cooling tower under two-way coupling between wind and rain. WIND AND STRUCTURES, 27(1), 11-27.

    17. Phuc, PV, Nozu, T, Kikuchi, H, Hibi, K, Tamura, Y, Wind Pressure Distributions on Buildings Using the Coherent Structure Smagorinsky Model for LES. COMPUTATION, 6(2), 32.

    18. Ke, ST, Du, LY, Ge, YJ, Tamura, Y, Multi-dimensional wind vibration coefficients under suction for ultra-large cooling towers considering ventilation rates of louvers. STRUCTURAL ENGINEERING AND MECHANICS, 66(2), 273-283.

    19. Wang, JX, Yang, QS, Tamura, Y, Effects of building parameters on wind loads on flat-roof-mounted solar arrays. JOURNAL OF WIND ENGINEERING AND INDUSTRIAL AERODYNAMICS, 174, 210-224.

    20. Ke, ST, Du, LY, Ge, YJ, Zhao, L, Tamura, Y, A study on the average wind load characteristics and wind-induced responses of a super-large straight-cone steel cooling tower. WIND AND STRUCTURES, 25(5), 433-457.

    ·獲獎情況

    代表性獲獎經歷:

    2016 年獲國際風工程學會 Alan G. Davenport
    2016 年獲美國土木工程師學會 Robert H. Scanlan
    2016 年獲日本風工程學會杰出貢獻獎
    2015 年獲日本風工程學會抗風設計獎(表彰東京天空樹的抗風設計)
    2014 年獲日本風工程學會出版獎(表彰風工程領域著作)
    2004 年獲美國土木工程師學會 Jack E. Cermak
    1994 年獲日本風工程學會獎
    1993 年獲日本建筑學會獎
    1969 年早稻田大學 Tachu-Naito

    ·研究生培養
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    ·聯系方式
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    yukio@arch.t-kougei.ac.jp

     

     

    "爱彩乐-爱彩乐官网
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