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工程科学的践行者————纪念童秉纲院士

余永亮 孙德军 陆夕云

余永亮, 孙德军, 陆夕云. 工程科学的践行者————纪念童秉纲院士[J]. 力学进展, 2021, 51(1): 145-154. doi: 10.6052/1000-0992-21-004
引用本文: 余永亮, 孙德军, 陆夕云. 工程科学的践行者————纪念童秉纲院士[J]. 力学进展, 2021, 51(1): 145-154. doi: 10.6052/1000-0992-21-004
Yu Yongliang, SUN Dejun, LU Xiyun. Tong Binggang: A pioneer in the practice of engineering science[J]. Advances in Mechanics, 2021, 51(1): 145-154. doi: 10.6052/1000-0992-21-004
Citation: Yu Yongliang, SUN Dejun, LU Xiyun. Tong Binggang: A pioneer in the practice of engineering science[J]. Advances in Mechanics, 2021, 51(1): 145-154. doi: 10.6052/1000-0992-21-004

工程科学的践行者————纪念童秉纲院士

doi: 10.6052/1000-0992-21-004
详细信息
    作者简介:

    *E-mail: xlu@ustc.edu.cn
    余永亮, 男, 1976年12月生, 中国科学院大学教授. 分别于1999年和2004年在中国科学技术大学本科和博士毕业, 随后一直在中国科学院大学工作. 主要从事非定常流动与涡运动、旋涡控制、动物飞行和游动的生物运动力学与仿生技术、空气动力学和 气动热力学等流体力学基础理论和应用基础研究. 在国内外学术期刊上发表论文40余篇, 曾获中国力学自然科学二等奖. 现任空气动力学学会理事, 《力学学报》《气体物理》《空气动力学学报》和《实验流体力学》编委.

    通讯作者:

    陆夕云

  • 中图分类号: O354,Q66

Tong Binggang: A pioneer in the practice of engineering science

More Information
    Corresponding author: LU Xiyun
  • 摘要: 中国科学院院士童秉纲教授(1927——2020)是流体力学家、教育家, 工程科学的践行者. 文中简要介绍了童秉纲先生的生平, 着重回顾了童先生在非定常流与涡运动、生物运动力学、气动热力学等流体力学3个分支学科领域对工程科学思想的实践, 最后介绍了童先生对我国力学教育的杰出贡献.

     

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    (Ai B C. 2006. Study on thermal environment characteristics of non-ablative thermal protection for hypersonic vehicle. [PhD Thesis]. Beijing: Beijing Institute of Aerodynamics).
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    (Cao S S. 1991. Finite element method for computational aerothermodynamics. [PhD Thesis]. Beijing: Graduate School of Chinese Academy of Sciences).
    [3] 段占元, 1998. 有限差分--有限元杂交算法及其应用. [博士论文]. 北京: 中国科学院研究生院

    (Duan Z Y. 1998. Finite difference--finite element hybrid algorithm and its application. [PhD Thesis]. Beijing: Graduate School of Chinese Academy of Sciences).
    [4] 国家自然科学基金委员会. 1999. 基金重大项目"复杂气体流动中旋涡、分离的流动机理与控制" 四年成果的简要总结. 力学进展, 29(2):271-275

    (NSFC. 1999. Summary of the four years' achievements of the major project "Flow mechanism and control of vortex and separation in complex flows". Advances in Mechanics, 29(2):271-275).
    [5] 柯辛. 1993. 我国高超声速飞行器复杂流动研究进入新阶段. 科技导报, 8:32-32

    (Ke X. 1993. Research on complex flow of hypersonic vehicle in China has entered a new stage. Science & Technology Review, 8:32-32).
    [6] 陆夕云. 1992. 非定常流动的数值模拟研究. [博士论文]. 合肥: 中国科学技术大学

    (Lu X Y. 1992. Studies on the numerical simulation of unsteady flows. [PhD Thesis]. Hefei: University of Science and Technology of China).
    [7] 孙德军. 1995. 钝体尾迹的稳定性分析及控制. [博士论文]. 合肥: 中国科学技术大学

    (Sun D J. 1995. Stability analysis and control of wakes behind bluff bodies. [PhD Thesis]. Hefei: University of Science and Technology of China).
    [8] 童秉纲, 余永亮. 2018. 流体力学研究要创造应用理论. 空气动力学学报, 36(1):1-3

    (Tong B G, Yu Y L. 2018. Constructing applied theories is the aim of fluid dynamics research. Acta Aerodynamica Sinica, 36(1):1-3).
    [9] 汪前喜. 1989. 运动物体极端曲地面效应的非线性理论. [博士论文]. 合肥: 中国科学技术大学

    (Wang Q X. 1989. The nonlinear theory of extreme curved-ground effects on wings and boies of revolution. [PhD Thesis]. Hefei: University of Science and Technology of China).
    [10] 王岩. 1996. 可压缩涡旋流动结构及高分辨率有限元数值模拟. [博士论文]. 北京: 中国科学院研究生院

    (Wang Y. 1996. Compressible vortex flow structure and high resolution finite element numerical simulation. [PhD Thesis]. Beijing: Graduate School of Chinese Academy of Sciences).
    [11] 余永亮, 童秉纲, 马晖扬. 2005. 昆虫拍翼方式的非定常流动物理再探讨. 力学学报, 37(3):257-265

    (Yu Y L, Tong B G, Ma H Y. 2005. Unsteady flow mechanisms revisited in insect flapping flight. Acta Mechanica Sinica, 37(3):257-265).
    [12] Cheng J Y, Zhuang L X, Tong B G. 1991. Analysis of swimming three-dimensional waving plates. Journal of Fluid Mechanics, 232:341-355.
    [13] East R A, Hutt G R. 1988. Comparison of predictions and experimental data for hypersonic pitching motion stability. Journal of Spacecraft and Rockets, 25(3):225-233.
    [14] Liu G, Yu Y L, Tong B G. 2011. Flow control by means of a traveling curvature wave in fishlike escape responses. Phys. Rev. E, 84:056312.
    [15] Liu G, Yu Y L, Tong B G. 2012. Optimal energy utilization ratio for long-distance cruising of a model fish. Phys. Rev. E, 86:016308.
    [16] Tong B G, Zhuang L X, Cheng J Y. 1993. The hydrodynamic analysis of fish propulsion performance and its morphological adaptation. Sadhana, 18(3):719-728.
    [17] Wang Z H, Bao L, Tong B G. 2010. Rarefaction criterion and non-Fourier heat transfer in hypersonic rarefied flows. Phys Fluids, 22:126103.
    [18] Wang Z H, Bao L, Tong B G. 2013. An analytical study on nonequilibrium dissociating gas flow behind a strong bow shockwave under rarefied conditions. Science China: Physics, Mechanics &Astronomy, 56(4):671-679.
    [19] Wang Z W, Yu Y L, Tong B G. 2018. An energetics analysis of fish self-propelled swimming. Science China: Physics, Mechanics & Astronomy, 61(7):74721.
    [20] Wu T Y. 2011. Fish swimming and bird/insect flight. Annual Review of Fluid Mechanics, 43(1):25-58.
    [21] Yang Y, Wu G H, Yu Y L, Tong B G. 2008. Two-dimensional self-propelled fish motion in medium: An integrated method for deforming body dynamics and unsteady fluid dynamics. Chin. Phys. Lett., 25(2):597-600.
    [22] Yu Y L, Tong B G, Ma H Y. 2003. An analytic approach to theoretical modeling of highly unsteady viscous flow excited by wing flapping in small insects. Acta Mechanica Sinica, 19(6):508-516.
    [23] Zhang W, Yu Y L, Tong B G. 2014. Prediction of fish body's passive visco-elastic properties and related muscle mechanical performance in vivo during steady swimming. Science China: Physics, Mechanics & Astronomy, 57(2):354-364.
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出版历程
  • 收稿日期:  2021-01-28
  • 刊出日期:  2021-03-25

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