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流体力学通论(英文版)
  • 书号:9787030673787
    作者:刘沛清
  • 外文书名:
  • 装帧:圆脊精装
    开本:B5
  • 页数:649
    字数:
    语种:en
  • 出版社:科学出版社
    出版时间:2021-04-01
  • 所属分类:
  • 定价: ¥298.00元
    售价: ¥235.42元
  • 图书介质:
    纸质书

  • 购买数量: 件  可供
  • 商品总价:

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本书是一本主要以传记形式和科普特色编著的流体力学通论。作者结合自己多年教学体

会和经验,尝试一种将自然科学与人文历史相结合、知识传承与认知规律相结合的编纂模式,

将抽象深奥的流体力学知识点打碎,从直观易懂的物理概念入手,以由浅入深、由表及里的

方式,将流体力学发展史和基本知识点有机结合起来,分八章将流体力学基础、空气动力学、

液体动力学、计算流体力学、实验流体力学、风洞和水洞设备、飞行奥妙与空气动力学原理

和流体力学人物志等基本知识和发展历史介绍给读者,以便为初学者激发兴趣点、全面了解

流体力学的发展和进一步深入学习提供参考。

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目录

  • Contents
    1 Foundation of Fluid Mechanics 1
    1.1 Combination of Early Development of Fluid Dynamics with Calculus 1
    1.2 Methods of Describing Fluid Motion 6
    1.3 Establishment and Application of Differential Equations for Ideal Fluid Motion 13
    1.4 Differential Equation of Viscous Fluid Motion and Vortex Transport Equation 26
    1.5 Establishment and Application of Boundary Layer Theory 32
    1.6 Laminar Flow Transition Phenomenon and Stability Theory 39
    1.7 Turbulence Phenomenon and Its Characteristics 44
    1.8 Statistical Theory of Turbulence 51
    1.9 Engineering Turbulence Theory 57
    1.10 Turbulence Model 61
    1.11 Turbulence Advanced Numerical Simulation Technology 67
    1.12 Multi-scale Discussions of Turbulent Eddies 69
    2 Aerodynamics 79
    2.1 Development of Aerodynamics 79
    2.2 Low-Speed Airfoil Flow 84
    2.3 Development and Influence Mechanism of Boundary Layer Near Airfoil Surface 97
    2.4 Low-Speed FlowAround Wing 108
    2.5 Basic Theory of Compressible Flow 117
    2.6 Solution of Compressible Flow 135
    2.7 Hypersonic Aerodynamics 138
    2.8 Principle of Aeroacoustics 144
    2.9 Stall Characteristics of Low-Speed Airfoil and Wing 153
    2.10 Interaction Between Shock Wave and Boundary Layer in Supersonic Flow 161
    2.11 The Leading Role of Aerodynamics in the Development of Modern Aircraft 171
    3 Hydrodynamics 175
    3.1 Development of Hydrodynamics 175
    3.2 Liquid Motion 180
    3.2.1 Ideal Liquid Motion 180
    3.2.2 Viscous Liquid Motion 180
    3.2.3 Cavitation and Cavitation Erosion 181
    3.2.4 Multiphase Flow 181
    3.2.5 Non-newtonian Fluid Flow 182
    3.2.6 Non Pressure Flow (Open Flow) 183
    3.2.7 Pressure Flow 183
    3.2.8 Flow Induced Vibration (Hydroelastic Problem) 184
    3.3 One-Dimensional Flow Theory and Mechanical Energy Loss 184
    3.3.1 Theory of One-Dimensional Flow 184
    3.3.2 Mechanical Energy Loss 187
    3.4 Steady Flow Along a Pressure Pipeline 192
    3.4.1 Simple Pipe Flow 192
    3.4.2 Water Pump System 194
    3.4.3 Water Turbine System 196
    3.5 Steady Flowin Open Channel 197
    3.5.10 verview 197
    3.5.2 Steady Uniform Flow in Open Channel 199
    3.5.3 Steady Nonuniform Gradually Varied Flow 201
    3.5.4 Water Surface Curves for the Steady Gradually Varied Flow 206
    3.5.5 Rapidly Varied Flow in the Open Channel 208
    3.6 Unsteady Flow in a Pressure Pipeline 228
    3.6.1 Overview 228
    3.6.2 Basic Equation of One-Dimensional Unsteady Flow 231
    3.6.3Water Hammer and Its Governing Equations 233
    3.6.4 Water Oscillating Flow 236
    3.7 Unsteady Gradually Varied Flow in Open Channel 238
    3.7.1 Overview 238
    3.7.2 Differential Equation of Unsteady Gradually Varied Flow 239
    3.8 Fundamentals of Water Wave Hydrodynamics 242
    3.8.1 Overview 242
    3.8.2 Basic Characteristics of Wave Motion 245
    3.8.3 Types of Waves 248
    3.8.4 Linear Wave Theory (Micro Amplitude Wave Theory) 252
    3.8.5 Wave with Finite Amplitude 264
    3.8.6 SolitaryWave 275
    3.9 Applications in Hydraulics 282
    3.9.1 Water Resources and Hydropower Engineering 282
    3.9.2 Ship Engineering 284
    3.9.3 Lubrication and Hydraulic Transmission 286
    3.9.4 Marine and Coastal Engineering 288
    4 Computational Fluid Dynamics 297
    4.1 Derivation of Computational Fluid Dynamics 297
    4.2 Discrete Techniques and Iterative Methods 300
    4.3 Application of Computational Fluid Dynamics 304
    4.3.1 Numerical Solution of Low Velociry Flow 304
    4.3.2 Numerical Solution of Transonic Flow 309
    4.3.3 Numerical Solution of Supersonic Flow 310
    4.4 Commercial Sof tware for Computational Fluid Dynamics 312
    4.5 Numerical Simulation of Flow Field for a Large Axial Flow Fan 316
    4.5.1 Problem Description 316
    4.5.2 The Physical Model316 4.5.3Mesh Generation and Boundary Conditions 317
    4.5.4 Results 318
    4.6 Numerical Simulation of Flow-Field in a Large Lowspeed Closed-Circuit Aeroacoustics Wind Tunnel 321
    4.6.1 Problem Description 321
    4.6.2 The Physical Model 323
    4.6.3 Mesh Generation and Boundary Conditions 325
    4.6.4 Results 325
    5 Experimental Fluid Mechanics 333
    5.1 Classical Fluid Mechanics Experiment 333
    5.2 Similarity Principle 339
    5.3 Application of Similarity Theory 344
    5.4 Flow Visualization Measurement Technique 349
    5.5 Flow Velocimetry Technique 361
    5.6 Experimental Measurement Method for Dynamic Forces 369
    5.7 Test ErrorAnalysis 373
    6 Wind and Water Tunnel Equipment 381
    6.1 Development of Wind Tunnel Equipment 381
    6.2 Wind TunneI Type 386
    6.3 Low-Speed Wind Tunnel 392
    6.4 Introduction to Typical Low-Speed Wind Tunnels 401
    6.5 Supersonic Wind Tunnel 417
    6.6 Transonic Wind Tunnel 420
    6.7 Hypersonic Wind Tunnel 431
    6.8 Variable Density Wind Tunnel 436
    6.9 Water Tunnel (or Channel) Equipment 441
    7 Flight Mystery and Aerodynamic Principles 445
    7.1 FlyingFantasy 445
    7.2 Exploratory Cognition of Flight 450
    7.3 Rapid Development of Aircraft 454
    7.4 Flight Principle 460
    7.5 Wing Shape and Aerodynamic Coeffiaent 476
    7.6 SupercriticaIWing 484
    7.7 Winglet 495
    7.8 SlenderFuselage 498
    7.9 Moment in Stable Flight and Tail 501
    7.10 Demand of Aircraft Power (Engine) 507
    7.11 High-Lift Device of an Aircraft 514
    7.12 Aircraft Landing Gear 527
    7.13 Aircraft Aerodynamic Noise 537
    7.14 SupersonicAircraft 548
    7.15 Drag Reduction Technology for Large Transport Aircraft 555
    8 Introduction to Celebrities in Fluid Mechanics 581
    8.1 Archimedes (287-212 B.C.) 581
    8.2 Leonardo Da Vinci (1451-1519) 582
    8.3 Galileo (1564-1642) 583
    8.4 Pascal (1623-1662) 585
    8.5 Newton (1643-1727) 586
    8.6 Leibniz (1646-1716) 587
    8.7 Bernoulli (1700-1782) 588
    8.8 Euler (1707-1783) 589
    8.9 D'Alembert (1717-1783) 590
    8.10 Lagrange (1736-1813) 591
    8.11 Laplace (1749-1827) 592
    8.12 Kelly (1773-1857) 593
    8.13 Gauss (1777-1855) 594
    8.14 Poisson (1781-1840) 596
    8.15 Navier (1785-1836) 597
    8.16 Cauchy(1789-1857) 598
    8.17 Saint-Venant (1797-1886) 600
    8.18 Poiseuille (1799-1869) 601
    8.19 Darcy (1803-1858) 602
    8.20 Froude (1810-1879) 603
    8.21 Stokes (1819-1903) 604
    8.22 Helmholtz (1821-1894) 604
    8.23 Kelvin (1824-1907) 606
    8.24 Riemann (1826-1866) 607
    8.25 Langley(1834-1906) 609
    8.26 Mach (1838-1916) 610
    8.27 Reynolds (1842-1912) 611
    8.28 Rayleigh (1842-1919) 612
    8.29 Boussinesq (1842-1929) 613
    8.30 Laval(1845-1913) 614
    8.31 Joukowski(1847-1921) 615
    8.32 Lilienthal(1848-1996) 616
    8.33 Lamb (1849-1934) 617
    8.34 Lorentz (1853-1928) 618
    8.35 The Wright Brothers (1867-1912, 1871-1948) 620
    8.36 Lanchester (1868-1946) 621
    8.37 Prandtl (1875-1953) 622
    8.38 Karman (1881-1963) 622
    8.39 Taylor (1886-1975) 624
    8.40 Zhou Peiyuan (1902-1993) 625
    8.41 Kolmogorov(1903-1987) 626
    8.42 Whittle (1907-1996) 628
    8.43 Schlichting(1907-1982) 629
    8.44 Landau (1908-1968) 630
    8.45 Guo Yonghuai (1909-1968) 631
    8.46 Qian Xuesen (1911-2009) 632
    8.47 Lu Shijia (1911-1986) 634
    8.48 Shen Yuan (1916-2004) 636
    8.49 Batchelor (1920-2000) 636
    8.50 Whitcomb (1921-2009) 637
    8.51 Lighthi11(1924-1998) 638
    8.52 Zhuang Fenggan (1925-2010) 639
    Bibliography 643
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