Finite elements and flow problems
Author(s)
Bibliographic Information
Finite elements and flow problems
(Wiley series in numerical methods in engineering, . Finite elements in fluids / edited by R.H. Gallagher ... [et al.] ; v. 6)
J. Wiley, c1985
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Note
"A Wiley-Interscience publication"
Includes bibliographies and index
Description and Table of Contents
Description
This book consists of chapters written by experts in the field of fluid mechanics, and covers new developments in the theory, formulation, implementation and application of finite element methods to flow problems. It gives an overview of the most recent developments in the area of finite elements in fluids, and consists of some chapters which are broadly descriptive, and others which are devoted to specific research applications and to developments in methodology.
Table of Contents
- Numerical Methods for Incompressible and Compressible Navier-Stokes Problems
- High-Speed Compressible Flow and Other Advection-dominated Problems of Fluid Dynamics
- Finite Element Solution of Viscous Flow Problems
- Time-split Finite Element Methods in Physical and Generalized Coordinates
- Finite Element Algorithms for Compressible Flow Computation on a Supercomputer
- A Vectorizable Variant of a Block Incomplete Factorization Method
- Newer and Newer Elements for Incompressible Flow
- Penalty Approximation, Iteration, and Continuation for Navier-Stokes Problems
- A Three-dimensional Two-step Explicit Finite Element Method for High Reynolds Number Viscous Fluid Flow
- Spin-up of an Unstratified Rotating Fluid
- Mixed Finite Element Methods for Accurate Fluid Velocities
- Streamline Diffusion Methods for Problems in Fluid Mechanics
- Streamlined Finite Elements and Transit Times
- Self-adaptive Local Grid Refinement for Time Dependent Two-dimensional Simulation
- An Adaptive p-Version Finite Element Method for Transient Flow Problems with Moving Boundaries
- Nonlinear Analysis of Rigid Body - Viscous Flow Interaction
- Finite Element Method for Calculating the Horizontal Bridgman Growth of Semi-Conductor Crystals
- A High-precision Finite Element Method for Shock-Tube Calculations.
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