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Bibliography

Published online by Cambridge University Press:  16 March 2023

Hongwei Wang
Hongwei Wang
Affiliation:
Beihang University, Beijing
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A Guide to Fluid Mechanics , pp. 303 - 305
Publisher: Cambridge University Press
Print publication year: 2023

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References

Primary Sources

Anderson, JD. Modern Compressible Flow. McGraw-Hill, 1982.Google Scholar
Anderson, JD. Fundamentals of Aerodynamics. McGraw-Hill, 1984.Google Scholar
Anderson, JD. Computational Fluid Dynamics: The Basic with Applications. Photocopy ed. Tsinghua University Press, Beijing, 2002.Google Scholar
Chen, Maozhang. Fundamentals of Viscous Fluid Dynamics. Higher Education Press, Beijing, 2002.Google Scholar
Cumpsty, NA. Compressor Aerodynamics. Krieger, Malabar, FL, 2004.Google Scholar
Currie, IG. Fundamental Mechanics of Fluids. 3rd ed. Marcel Dekker Inc., New York, 2003.Google Scholar
Ding, Zurong. Fluid Mechanics. 2nd edition. Higher Education Press, Beijing, 2013.Google Scholar
Dong, Zengnan, Zhang, Zixiong. Inviscid Hydrodynamics. Tsinghua University Press, Beijing, 2003.Google Scholar
Dyke, MV. An Album of Fluid Motion. Parabolic Press, Stanford, CA, 1982.Google Scholar
Elger, DF. Engineering Fluid Mechanics. 10th ed. Wiley, New York, 2012.Google Scholar
Feng, Qing, Li, Shiwu, Zhang, Li et al. Engineering Thermodynamics. Northwest University of Technology Press, Xi’an, 2012.Google Scholar
Fenn, JB. Short History of Heat. Translated by Naixin Li. Oriental Press, Beijing, 2009. (Chinese translation.)Google Scholar
Greitzer, EM, Tan, CS, Graf, MB. Internal Flow: Concepts and Applications, Cambridge University Press, Cambridge, 2004.CrossRefGoogle Scholar
Hewitt, PG. Conceptual Physics. 11th ed., photocopy ed. Machinery Industry Press, Beijing, 2012.Google Scholar
Hughes, WF, Brighton, JA. Fluid Dynamics. Translated by Yanhou Xu et al. Science Press, Beijing, 2002. (Chinese translation.)Google Scholar
Incropera, FP, DeWitt, DP, Bergman, T, et al. Fundamentals of Heat and Mass Transfer. Chemical Industry Press, Beijing, 2014.Google Scholar
Krause, E. Fluid Mechanics with Problems and Solutions, and an Aerodynamic Laboratory. Springer, New York, 2005.Google Scholar
Kuethe, AM. Foundations of Aerodynamics. 5th ed. Wiley, New York, 1998.Google Scholar
Kundu, PK, Cohen, I, Dowling, DR. Fluid Mechanics. 5th ed. Academic Press, New York, 2012.Google Scholar
Landau, LD, Lifshitz, EM. Fluid Mechanics. 2nd ed., photocopy ed. World Book Publishing Company, Beijing, 1989.Google Scholar
Li, Suxun. Complex Flow Dominated by Shock Wave and Boundary Layer. Science Press, Beijing, 2007.Google Scholar
Liu, Peiqing. The Theory of Free Turbulent Jets. Beihang University Press, Beijing, 2008.Google Scholar
Liu, Yuxin. Thermology. Peking University Press, Beijing, 2004.Google Scholar
Mao, Genhai. Wonderful Fluid Sports Science. Zhejiang University Press, Hangzhou, 2012.Google Scholar
Masahiro, Takei. Fluid Dynamics Cartoons. Translated by Pijuan Gao. Science Press, Beijing, 2010. (Chinese translation.)Google Scholar
Munson, BR, Rothmayer, AP, Okiishi, TH, et al. Fundamentals of Fluid Mechanics. 6th ed. Wiley, New York, 2009.Google Scholar
Oertel, H. Prandtl’s Essentials of Fluid Mechanics. Translated by Ziqiang Zhu et al. Science Press, Beijing, 2008. (Chinese translation.)Google Scholar
Pan, Jinshan. Fundamentals of Aerodynamics. Rev. ed. Northwest University of Technology Press, Xi’an, 1995.Google Scholar
Pan, Jinshan, Shan, Peng, Liu, Huoxing, et al. Fundamentals of Aerodynamics. Rev. ed. National Defense Industry Press, Beijing, 1989.Google Scholar
Peng, Zeyan, Liu, Gang, Gui, Xingmin, et al. Principles of Aviation Gas Turbine. National Defense Industry Press, Beijing, 2008.Google Scholar
Perelman, YI. Physics for Entertainment. Harbin Press, Harbin, 2012.Google Scholar
Perelman, YI. Mechanics for Entertainment. Harbin Press, Harbin, 2012.Google Scholar
Pope, SB. Turbulent Flows. Cambridge University Press, Cambridge, 2000.Google Scholar
Qian, Yiji. Aerodynamics. Beihang University Press, Beijing, 2004.Google Scholar
Schetz, JA. Boundary Layer Analysis. Prentice-Hall, Hoboken, NJ, 1993.Google Scholar
Tennekes, H, Lumley, JL. A First Course in Turbulence. MIT Press, Cambridge, MA, 1972Google Scholar
Walker, J. The Flying Circus of Physics: Thermodynamics and Fluid problems. Translated by Na Luo et al. Electronic Industry Press, Beijing, 2012. (Chinese translation.)Google Scholar
Wang, Baoguo, Liu, Shuyan, Huang, Weiguang, et al. Gas Dynamics. Beijing Institute of Technology Press, Beijing, 2005.Google Scholar
Wang, Xianfu, Xiong, Aokui. Advanced Fluid Mechanics. Huazhong University of Science and Technology Press, Wuhan, 2003.Google Scholar
Wang, Xinyue. Fundamentals of Gas Dynamics. Northwest University of Technology Press, Xi’an, 2006.Google Scholar
White, FM. Fluid Mechanics. 4th ed. McGraw-Hill, New York, 1998.Google Scholar
White, FM. Viscous Fluid Flow. 3rd ed. McGraw-Hill, New York, 2005.Google Scholar
Wu, Ziniu. Aerodynamics, vol. 1. Tsinghua University Press, Beijing, 2007.Google Scholar
Wyngaard, JC. Turbulence in the Atmosphere. Cambridge University Press, Cambridge, 2010.Google Scholar
Xia, Xueyu, Deng, Xueying. Engineering Separation Dynamics. Beihang University Press, Beijing, 1991.Google Scholar
Yoshio, Komine. Graphic Fluid Mechanics. Translated by Pijuan Gao. Science Press, Beijing, 2012. (Chinese translation.)Google Scholar
Xu, Zhilun. A Concise Course in Elasticity. Higher Education Press, Beijing, 1980.Google Scholar
Zhang, Sanhui. Thermology. Tsinghua University Press, Beijing, 2004.Google Scholar
Zhang, Zhaoshun. Turbulence. National Defense Industry Press, Beijing, 2002.Google Scholar
Zhang, Zhaoshun, Cui, Guixiang, Xu, Chunxiao, et al. Theory and Modeling of Turbulence. Tsinghua University Press, Beijing, 2005.Google Scholar
Zhang, Zixiong, Dong, Zengnan. Viscous Fluid Mechanics. Tsinghua University Press, Beijing, 1999.Google Scholar
Zhou, Guangdi. The Prehistoric with Today’s Fluid Mechanics Problems. Peking University Press, Beijing, 2002.Google Scholar
Zhu, Mingshan, Liu, Ying, Lin, Zhaozhuang, et al. Engineering Thermodynamics. Tsinghua University Press, Beijing, 2001.Google Scholar

Secondary Sources

Bernard, SF Laplace and the speed of sound. ISIS 1964, Vol. 55, No. 179.Google Scholar
Blasius, H. Grenzschichten in flüssigkeiten mit kleiner reibung. Journal of Math and Physics, 1908, Vol. 56. (English translation.)Google Scholar
Fowler, M. Viscosity. University of Virginia, 2006.Google Scholar
Gandemer, J. Discomfort due to wind near buildings: aerodynamic concepts. NBS, 1978.Google Scholar
Hodson, HP, Hynes, TP, Greitzer, EM, et al. A physical interpretation of stagnation pressure and enthalpy changes in unsteady flow. Journal of Turbomachinery, 2012, Vol. 134, No. 6.Google Scholar
Hunt, JCR. Lewis Fry Richardson and his contributions to mathematics, meteorology, and models of conflict. Annual Review of Fluid Mechanics, 1998, Vol. 30, No. 1.Google Scholar
Hunt, JCR, Abell, CJ, Peterka, JA, et al. Kinematical studies of the flows around free or surface-mounted obstacles: applying topology to flow visualization. Journal of Fluid Mechanics, 1978, Vol. 86, No. 1.Google Scholar
Jimenez, J. The physics of wall turbulence. Physica A, 1999, Vol. 263.Google Scholar
Joseph, DD. Potential flow of viscous fluids: historical notes. International Journal of Multiphase Flow, 2006, Vol. 32.Google Scholar
Jovan, J, Frohnapfel, B, Jovanovic, M, et al. Persistence of the laminar regime in a flat plate boundary layer at very high Reynolds number. Thermal Science, 2006, Vol. 10, No. 2.Google Scholar
Oke, TR. Street design and urban canopy layer climate. Energy and Buildings, 1988, Vol. 11.Google Scholar
Panton, RL. Overview of the self-sustaining mechanisms of wall turbulence. Progress in Aerospace Sciences, 2001, Vol. 37.Google Scholar
Purcell, EM. Life at low Reynolds number. American Journal of Physics, 1997, Vol. 45, No. 1.Google Scholar
Reneau, LR, Johnston, P, Kline, SJ. Performance and design of straight two-dimensional diffusers. Journal of Fluids Engineering: Series D, 1967, Vol. 89, No. 1.Google Scholar
Simpson, RL. Aspects of turbulent boundary-layer separation. Progress of Aerospace Science, 1996, Vol. 32.Google Scholar
Wood, RM. Aerodynamic drag and drag reduction: energy and energy savings.41st Aerospace Sciences Meeting and Exhibit, Reno, 2003.Google Scholar
Youschkevitch, AP. A. N. Kolmogorov: historian and philosopher of mathematics on the occasion of his 80th birthday. Historia Mathematica, 1983, Vol. 10.Google Scholar
Zhu, Keqin. Magical superfluid. Mechanics and Engineering, 2010, Vol. 32, No. 1.Google Scholar

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  • Bibliography
  • Hongwei Wang, Beihang University, Beijing
  • Book: A Guide to Fluid Mechanics
  • Online publication: 16 March 2023
  • Chapter DOI: https://doi.org/10.1017/9781108671149.011
Available formats
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  • Bibliography
  • Hongwei Wang, Beihang University, Beijing
  • Book: A Guide to Fluid Mechanics
  • Online publication: 16 March 2023
  • Chapter DOI: https://doi.org/10.1017/9781108671149.011
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Bibliography
  • Hongwei Wang, Beihang University, Beijing
  • Book: A Guide to Fluid Mechanics
  • Online publication: 16 March 2023
  • Chapter DOI: https://doi.org/10.1017/9781108671149.011
Available formats
×