 Pulliam, T. H. (Thomas H.), 1951
 Cham : Springer, c2014.
 Description
 Book — xii, 211 p. : ill. ; 24 cm.
 Summary

 Introduction. Background. Overview and Roadmap. Fundamentals. Model Equations. FiniteDifference Methods. The SemiDiscrete Approach. FiniteVolume Methods. Numerical Dissipation and Upwind Schemes. TimeMarching Methods for ODEs. Stability Analysis. Governing Equations. The Euler and NavierStokes Equations. The ReynoldsAveraged NavierStokes Equations. The QuasiOneDimensional Euler Equations and the ShockTube Problem. Exercises An Implicit FiniteDifference Algorithm. Introduction. Generalized Curvilinear Coordinate Transformation. ThinLayer Approximation. Spatial Differencing. Implicit Time Marching and the Approximate Factorization Algorithm. Boundary Conditions. ThreeDimensional Algorithm. OneDimensional Examples. Summary. Appendix: Flux Jacobian Eigensystems in Two and Three Dimensions. An Explicit FiniteVolume Algorithm with Multigrid. Introduction. Spatial Discretization: CellCentered FiniteVolume Method. Iteration to Steady State. OneDimensional Examples. Summary. Exercises. Introduction to HighResolution Upwind Schemes. Introduction. Godunov's Method. Roe's Approximate Riemann Solver. HigherOrder Reconstruction. Conservation Laws and Total Variation. Monotone and MonotonicityPreserving Schemes. TotalVariationDiminishing Conditions. TotalVariationDiminishing Schemes with Limiters. OneDimensional Examples. Summary. Exercises. References. Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
Science Library (Li and Ma)
Science Library (Li and Ma)  Status 

Stacks  
QA911 .P85 2014  Unknown 