计算流体动力学导论:有限体积法-第2版 本书特色

《计算流体动力学导论:有限体积法(第2版)(英文版)》是由世界图书出版公司出版的。

计算流体动力学导论:有限体积法-第2版 内容简介

本书是一本非常实用的计算流体动力学教材，它以简明、清晰的语言介绍了计算流体动力学的基本原理、控制方程、边界条件、湍流及其模式、有限体积法等。在保持**版基本结构和写作风格基础上，增加了一部分介绍cfd重要发展；在处理流体流方面，增加了支持les和dns的基本观点的综述，使得内容结构更加完整。重点介绍了目前在各类流行商业软件中普遍采用的基于压力求解体系的有限体积法。本书的*大特点是弥补了理论与商用软件之间的差距，使读者通过该书的学习能够掌握应用广泛的phoenics，flow-3d和star-cd等计算编码中的基本理论。目次：绪论；流体运动守恒律与边界条件；湍流及其模式；扩散问题的有限体积方法；对流－扩散问题的有限体积法；压力－速度耦合在定常问题中的算法；离散方程的求解；非定常流动的有限体积方法；边界条件提法；cfd模型的误差和不确定度；处理复几何的方法；燃烧的cfd模型；放射热传导的数值计算。

计算流体动力学导论:有限体积法-第2版 目录

preface
acknowledgements
1 introduction
1.1 what is cfd?
1.2 how does a cfd code work?
1.3 problem solving with cfd
1.4 scope of this book
2 conservation laws of fluid motion and boundary conditions
2.1 governing equations of fluid flow and heat transfer
2.2 equations of state
2.3 navier-stokes equations for a newtonian fluid
2.4 conservative form of the governing equations of fluid flow
2.5 differential and integral forms of the general transport equations
2.6 classification of physical behaviours
2.7 the role of characteristics in hyperbolic equations
2.8 classification method for simple pdes
2.9 classification of fluid flow equations
2.10 auxiliary conditions for viscous fluid flow equations
2.11 problems in transonic and supersonic compressible flows
2.12 summary
3 turbulence and its modelling
3.1 what is turbulence?
3.2 transition from laminar to turbulent }low
3.3 descriptors of turbulent flow
3.4 characteristics of simple turbulent flows
3.5 the effect of turbulent fluctuations on properties of the mean flow
3.6 turbulent flow calculations
3.7 reynolds-averaged navier-stokes equations and classical turbulence models
3.8 large eddy simulation
3.9 direct numerical simulation
3.10 summary
4 the finite volume method for diffusion problems
4.1 introduction
4.2 finite volume method for one-dimensional steady state diffusion
4.3 worked examples: one-dimensional steady state diffusion
4.4 finite volume method for two-dimensional diffusion problems
4.5 finite volume method for three-dimensional diffusion problems
4.6 summary
5 the finite volume method for convection-diffusion problems
5.1 introduction
5.2 steady one-dimensional convection and diffusion
5.3 the central differencing scheme
5.4 properties of discretisation schemes
5.5 assessment of the central differencing scheme for convectiondiffusion problems
5.6 the upwind differencing scheme
5.7 the hybrid differencing scheme
5.8 the power-law scheme
5.9 higher-order differencing schemes for convection-diffusion problems
5.10 tvd schemes
5.11 summary
6 solution algorithms for pressure-velocity
6.1 introduction
6.2 the staggered grid
6.3 the momentum equations
6.4 the simple algorithm
6.5 assembly ora complete method
6.6 the simpler algorithm
6.7 the simplec algorithm
6.8 the piso algorithm
6.9 general comments on simple, simpler, simplec and piso
6.10 worked examples of the simple algorithm
6.11 summary
7 solution of discretised equations
7.1 introduction
7.2 the tdma
7.3 application of the tdma to two-dimensional problems
7.4 application of the tdma to three-dimensional problems
7.5 examples
7.6 point4terative methods
7.7 multigrid techniques
7.8 summary

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自然科学 力学

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