本套教材第1版是普通高等教育“九五”国家级重点教材,为了适应众多不同专业的教学需要,将教材的内容分编为以下三册。本次修订出版的是流体力学(Ⅰ)和流体力学(Ⅱ)两册。
流体力学(Ⅰ)(第2版):基础理论和一维定常流动。内容包括:绪论,流体静力学,流体运动学和动力学基础,相似原理和量纲分析,管流损失和水力计算,气体的一维定常流动。本册教材可以作为能源动力类、机械类专业以及建筑环境与设备工程、给水排水工程、油气储运工程、船舶与海洋工程、安全工程等专业基础流体力学课程的教材。
流体力学(Ⅱ)(第2版):多维流动基础和气体的一维非定常流动。内容包括:理想流体多维流动基础,粘性流体多维流动基础,气体的二维定常流动,气体的一维非定常流动。本册教材可以作为能源动力类专业、船舶与海洋工程专业以及需要上述教学内容的相近专业流体力学课程的教材。
两相流体力学:两相流动基础。内容包括:气(汽)体-液体混合物在管内的流动,气体-固体颗粒混合物在管内的流动。本册教材可以作为能源动力类专业以及需要上述教学内容的相近专业两相流体力学课程的教材。
这三册教材又都可以作为与上述专业对应的设计部门、工厂技术人员的参考书。
- 前辅文
- Chapter 7 Fundamentals of Multidimensional Flow of Ideal Fluid
- 7.1 Differential continuity equations
- 7.2 Kinematical analysis of micro fluid group
- 7.3 Kinematical differential equations of ideal fluid
- 7.4 Initial conditions Boundary conditions
- 7.5 Integration of kinematical differential equations of ideal fluid
- 7.6 Vortex line Vortex tube Vortex bundle Vortex flux
- 7.7 Velocity circulation Stokes theorem
- 7.8 Thompson theorem Helmholtz theorem
- 7.9 Twodimensional vortex flow
- 7.10 Velocity potential Stream function Flow nets
- 7.11 Simple plane potential flow
- 7.12 Superposition of simple plane potential flow
- 7.13 Plane flow of uniform equal velocity flow around a circular cylinder
- 7.14 Plane flow of uniform equal velocity flow around acircular cylinder with circulation
- 7.15 KuttaJoukowsky formula of cascade
- 7.16 Kutta condition
- Problems
- Chapter 8 Fundamentals of Multidimensional Flow of Viscous Fluid
- 8.1 Kinematical differential equations of viscous fluid (NavierStokesequations)
- 8.2 Laminar flow of incompressible viscous fluid
- 8.3 Concepts and characteristics of boundary layer
- 8.4 Differential equations of laminar boundary layer
- 8.5 Integral relation of boundary layer momentum
- 8.6 Displacement thickness and momentum loss thickness ofboundary layer
- 8.7 Approximate calculation of boundary layer flow of plate
- 8.8 Separation of boundary layer flow Karman vortex street
- 8.9 Drag of bodies Free fall velocity
- 8.10 Free submerged jet
- Problems
- Chapter 9 TwoDimensional Steady Flow of Gas
- 9.1 Propagation of weak pressure wave in space Mach cone
- 9.2 Stationary weak pressure wave Turning angle of gas flowHodograph
- 9.3 Reflection and intersection of stationary weak pressure waves
- 9.4 Stationary oblique shock wave Polar curve of velocity ofshock wave
- 9.5 Reflection and intersection of stationary shock waves
- 9.6 Mutual disturbance of stationary shock wave and boundary layer
- Problems
- Chapter 10 OneDimensional Unsteady Flow of Gas
- 10.1 Relation of gasflow parameters before and after moving weakpressure wave Network chart of characteristics on state plane
- 10.2 Reflection and intersection of moving weak pressure waves
- 10.3 Moving,finitely strengthened pressure wave Method ofcharacteristics
- 10.4 Relation of gasflow parameters before and after moving shock wave Polar curve of velocity of shock wave
- 10.5 Reflection and intersection of moving shock waves
- 10.6 Shock wave tube
- Problems
- Appendix C Equation of Continuity and Motional Differential Equation ofIdeal Fluid in Normal Curved Coordinate Systems
- Appendix D Functions of Compressible Fluid Flow
- Table D1 Standard atmosphere
- Table D2 Isoentropic change numbers of twodimensional supersonicgas flow
- Table D3 Parameters of gasflow before and after stationary obliqueshock wave(γ=14)
- References
- Index
- Synopsis