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Incompressible flow
High-Order Methods for Incompressible Fluid Flow
不可压缩流体流动的高阶方法
Cambridge University Press M O Deville P F Fischer E H Mund
ISBN:9780511037603,出版年:2002,中图分类号:O1

Preface 1. Fluid mechanics and computation: an introduction 2. Approximation methods for elliptic problems 3. Parabolic and hyperbolic problems 4. Mutidimensional problems 5. Steady Stokes and Navier-Stokes equations 6. Unsteady Stokes and Navier-Stokes equations 7. Domain decomposition 8. Vector and parallel implementations Appendix A. Preliminary mathematical concepts Appendix B. Orthogonal polynomials and discrete transforms.

Stokes' law Fluid mechanics Stokes flow Pressure-correction method Incompressible flow Domain decomposition methods Orthogonal polynomials Parabola Mathematical analysis
Incompressible Computational Fluid Dynamics: Trends and Advances
不可压缩计算流体动力学
Cambridge University Press Max D Gunzburger Roy A Nicolaides
ISBN:9780521096225,出版年:1993,中图分类号:O1 被引 90次

1. A few tools for turbulence models in Navier-Stokes equations B. Cardot, B. Mohammadi and O. Pironneau 2. On some finite element methods for the numerical simulation of incompressible viscous flow Edward J. Dean and Roland Glowinski 3. CFD - an industrial perspective Michael S. Engelman 4. Stabilized finite element methods Leopoldo P. Franca, Thomas J. R. Hughes and Rolf Stenberg 5. Optimal control and optimization of viscous, incompressible flows Max D. Gunzburger, L. Steven Hou and Thomas P. Svobodny 6. A fully-coupled finite element algorithm, using direct and iterative solvers, for the incompressible Navier-Stokes equations W. G. Habashi, M. F. Peeters, M. P. Robichaud and V-N. Nguyen 7. Numerical solution of the incompressible Navier-Stokes equations in primitive variables on unstaggered grids M. Hafez and M. Soliman 8. Spectral element and lattice gas methods for incompressible fluid dynamics George Em Karniadakis, Steven A. Orszag, Einar M Ronquist and Anthony T. Patera 9. Design of incompressible flow solvers: practical aspects Rainald Loehner 10. The covolume approach to computing incompressible flows R. A. Nicolaides 11. Vortex methods: an introduction and survey of selected research topics Elbridge Gerry Puckett 12. New emerging methods in numerical analysis: applications to fluid mechanics Roger Temam 13. The finite element method for three-dimensional incompressible flow R. W. Thatcher 14. A posteriori error estimators and adaptive mesh-refinement techniques for the Navier-Stokes equation R. Verfurth.

Pressure-correction method Mixed finite element method Incompressible flow Smoothed finite element method Reynolds stress Fluid mechanics Finite element method Computational fluid dynamics Applied mathematics Classical mechanics
Simulation of Industrial Processes for Control Engineers
面向控制工程师的工业过程仿真
Butterworth-Heinemann_RM Thomas, Philip J
ISBN:9780750641616,出版年:1999,中图分类号:TB 被引 146次

Introduction Fundamental Concepts of Dynamic Simulation Thermodynamics and the conservation equations Steady state incompressible flow Flow through ideal nozzles Control valve flow Steady-state compressible flow Control valve liquid flow Liquid flow through the installed control valve Gas flow through the installed control valve Accumulation of liquids and gases in process vessels Two-phase systems - boiling, condensation and distillation Chemical reactions Turbine nozzles Steam and gas turbines Steam and gas turbines - simplified model Turbo pumps and compressors Flow networks Pipeline dynamics Distributed components: heat exchangers and tubular reactors Nuclear reactors Process controllers and control valve dynamics Linearization Model Validation Appendices: Comparative size of energy terms Explicit calculation of compressible flow using approximating functions Equations for control valve flow in SI units Comparison of Fisher Universal Gas Sizing Equation, FUGSE, with the nozzle-based model for control valve gas flow Measurement of the internal energy of reaction and the enthalpy of reaction using calorimeters Approximations used in modelling turbine reaction stages in off-design conditions Fuel pin average temperature and effective heat transfer coefficient Conditions for emergence from saturation for P + I controllers with integral desaturation.

Flow measurement Control valves Turbine Compressible flow Incompressible flow Flow (mathematics) Gas compressor Nozzle Mechanical engineering Engineering
Stable Numerical Schemes for Fluids, Structures and their Interactions
对不可压缩流体、弹性结构和流体-结构相互作用的稳定数值方案
ISTE Press - Elsevier_RM Murea, Cornel Marius
ISBN:9781785482731,出版年:2017,中图分类号:TB

This book presents numerical algorithms for solving incompressible fluids, elastic structures and fluid-structure interactions. It collects some of the fundamental finite element methods as well as new approaches. For Stokes and Navier-Stokes equations, the mixed finite element method is employed. An arbitrary Lagrangian Eulerian framework is used for fluids in a moving domain. Schemes for linear and St Venant-Kirchhoff non-linear dynamic elasticity are presented. For fluid-structure interaction, two schemes are analyzed: the first is fully implicit and the second is semi-implicit, where the fluid domain is computed explicitly and consequently the computational time is considerably reduced. The stability of the schemes is proven in this self-contained book. Every chapter is supplied with numerical tests for the reader. These are aimed at Masters students in Mathematics or Mechanical Engineering.Presents a self-contained monograph of schemes for fluid and elastic structures, including their interactionsProvides a numerical analysis of schemes for Stokes and Navier-Stokes equationsCovers dynamic linear and non-linear elasticity and fluid-structure interaction

Mixed finite element method Finite element method Numerical analysis Incompressible flow Applied mathematics Elasticity (economics) Computer science Arbitrary lagrangian eulerian Dynamic elasticity Numerical tests
Free and Moving Boundaries -- Analysis, Simulation and Control
自由边界
CRC Press
ISBN:9781584886068,出版年:2007,中图分类号:O17 被引 5次

Optimal Tubes: Geodesic Metric, Euler Flow, Moving Domain J.P. Zolesio Numerical Simulation of Pattern Formation in a Rotating Suspension of Non-Brownian Settling Particles Tsorg-Whay Pan and Roland Glowinski On the Homogenization of Optimal Control Problems on Periodic Graphs P.I. Kogut and G. Leugering Lift and Sedimentation of Particles in the Flow of a Viscoelastic Liquid in a Channel G.P. Galdi and V. Heuveline Modeling and Simulation of Liquid-Gas Free Surface Flows A. Caboussat, M. Picasso, and J. Rappaz Transonic Regular Reflection for the Unsteady Transonic Small Disturbance Equation Detail of the Subsonic Solution K. Jegdic, B.L. Keyfitz, and S. Canic Shape Optimization for 3D Electrical Impedance Tomography K. Eppler and H. Harbrecht Analysis of the Shape Gradient in Inverse Scattering P. Dubois and J.P. Zolesio Array Antenna Optimization L. Blanchard and J.P. Zolesio The Stokes Basis for 3D Incompressible Flow Fields G. Auchmuty Nonlinear Aeroelasticity: Continuum Theory-Flutter/Divergence Speed, Plate Wing Model A.V. Balakrishnan Differential Riccati Equations for the Bolza Problem Associated with Point Boundary Control of Singular Estimate Control Systems I. Lasiecka and A. Tuffaha Energy Decay Rates for the Semilinear Wave Equation with Nonlinear Localized Damping and Source Terms-An Intrinsic Approach I. Lasiecka and D. Toundykov Electromagnetic 3D Reconstruction by Level-Set with Zero Capacity Connecting Sets C. Dedeban, P. Dubois, and J.P. Zolesio Shape and Geometric Methods in Image Processing M. Dehaes and M. Delfour Topological Derivatives for Contact Problems J. Sokolowski and A. Zochowski The Computing Zoom J. Henry An Optimization Approach for the Delamination of a Composite Material with Non-Penetration M. Hintermuller, V.A. Kovtunenko, and K. Kunish Adaptive Refinement Techniques in Homogenization Design Method R.H.W. Hoppe and S.I. Petrova Nonlinear Stability of the Flat-Surface State in Faraday Experiment G. Guidoboni A Dynamical Programming Approach in Hilbert Spaces for a Family of Applied Delay Optimal Control Problems Giorgio Fabbri A Posteriori Error Estimates of Recovery Type for Parameter Estimation Problem in Linear Elastic Problem T. Feng, M. Gulliksson, and W. Liu Tube Derivative of Non-Cylindrical Shape Functionals and Variational Formulations R. Dziri and J.P. Zolesio A Stochastic Riccati Equation for a Hyperbolic-Like System with Point and/or Boundary Control C. Hafizoglu

Shape optimization Riccati equation Inverse scattering problem Optimal control Incompressible flow Nonlinear system Wave equation Geodesic Mathematical analysis Mathematics
Hydrodynamics, Mass and Heat Transfer in Chemical Engineering
化学工程中的流体力学、质量和传热
CRC Press Polyanin, Andrei D Kutepov, A M Kazenin, D A
ISBN:9780415272377,出版年:2001,中图分类号:O6 被引 225次

Fluid Flows in Films, Jets, Tubes and Boundary Layers. Hydrodynamic Equations and Boundary Conditions. Hydrodynamics of Thin Films. Laminar Flows in Tubes. Hydrodynamic Boundary Layer on a Flat Plate. Transient and Pulsating Flows Motion of Particles, Drops and Bubbles in Fluid Exact. Solutions of the Stokes Equations. Spherical Particles in Translational Flow at Various Reynolds Numbers. Spherical Particles, Drops and Bubbles in Shear Flows. Flow Past a Cylinder (the Plane Problem). Mass and Heat Transfer in Liquid Films, Tubes, and Boundary Layers. Convective Mass and Heat Transfer Equations and Boundary Conditions. Heat Transfer to a Flat Plate. Heat and Mass Transfer in a Laminar Flow in a Circular Tube. Turbulent Heat Transfer in Circular Tube and Plane Channel. Mass and Heat Exchange Between Flow and Particles, Drops, or Bubbles. The Method of Asymptotic Analogies in Theory of Mass and Heat Transfer. Mass and Heat Exchange Between Particles of Various Shapes and a Stagnant Medium. Mass Transfer in Linear Shear Flows at Low Peclet. Numbers, Particles, Drops and Bubbles in Translational Flow. Various Peclet and Reynolds Numbers. Mass Transfer in a Translational-Shear Flow with Flow Parabolic. Profile Mass and Heat Transfer Between Cylinders and Translational of Shear Flows. Qualitative Features of Mass Transfer Inside a Drop at High Peclet Numbers. Mass and Heat Transfer Under Constrained Flow Past Particle, Drops, or Bubbles. Mass and Heat Transfer Under Complicating Factors. Mass Transfer Complicated by a Surface Chemical Reaction. Mass Transfer Between Particles, Drops or Bubbles and Flows with Volume Reactions. Film Condensation, Thermogravitational and Thermocapillary Effect in the Drop Motion. Hydrodynamics and Mass and Heat Transfer in Non-Newtonian Fluids. Rheological Models of Non-Newtonian Incompressible Fluids. Mass Transfer in Channels and Tubes. Account of Dissipation. Hydrodynamic and Diffusion Boundary Layers in Power-Law Fluids. Motion and Mass Exchange of Particle, Drops and Bubbles in Non-Newtonian Fluids. Foam: Structures and Some Properties. Fundamental Parameters. Models of Foams. Kinetics of Surfactant Adsorption in Liquid Solutions. Rheological Properties of Foams.

Heat transfer Laminar flow Mass transfer Convection Boundary layer Reynolds number Incompressible flow Heat exchanger Mechanics Materials science
Large-Eddy Simulation in Hydraulics
水力学中的大涡模拟
CRC Press Rodi, Wolfgang Constantinescu, George Stoesser, Thorsten
ISBN:9781138000247,出版年:2013,中图分类号:TV 被引 177次

Preface 1 Introduction 1.1 The role and importance of turbulence in hydraulics 1.2 Characteristics of turbulence 1.3 Calculation approaches for turbulent flows 1.4 Scope and outline of the book 2 Basic methodology of LES 2.1 Navier-Stokes equations and Reynolds Averaging (RANS) 2.2 The idea of LES 2.3 Spatial filtering/averaging and resulting equations 2.4 Implicit filtering and Schumann's approach 2.5 Relation of LES to DNS and RANS 3 Subgrid-Scale (SGS) models 3.1 Role and desired qualities of an SGS-model 3.2 Smagorinsky model 3.3 Improved versions of eddy viscosity models 3.4 SGS models not based on the eddy viscosity concept 3.5 SGS models for the scalar transport equation 4 Numerical methods 4.1 Introduction 4.2 Discretization methods 4.3 Numerical accuracy in LES 4.4 Numerical errors 4.5 Solution methods for incompressible flow equations 4.6 LES grids 5 Implicit LES (ILES) 5.1 Introduction 5.2 Rationale for ILES and connection with LES using explicit SGS models 5.3 Adaptive Local Deconvolution Model (ALDM) 5.4 Monotonically Integrated LES (MILES) 6 Boundary and initial conditions 6.1 Periodic boundary conditions 6.2 Outflow boundary conditions 6.3 Inflow boundary conditions 6.4 Free surface boundary conditions 6.5 Smooth-wall boundary conditions 6.6 Rough-wall boundary conditions 6.7 Initial conditions 7 Hybrid RANS-LES methods 7.1 Introduction 7.2 Two-layer models 7.3 Embedded LES 7.4 Detached Eddy Simulation (DES) models 7.5 Scale-Adaptive Simulation (SAS) model 7.6 Final comments on hybrid RANS-LES models and future trends 8 Eduction of turbulence structures 8.1 Structure eduction from point signals: Two-point correlations and velocity spectra 8.2 Structure eduction from instantaneous quantities in 2D planes 8.3 Structure eduction from isosurfaces of instantaneous quantities in 3D space 9 Application examples of LES in hydraulics 9.1 Developed straight open channel flow 9.2 Flow over rough and permeable beds 9.3 Flow over bedforms 9.4 Flow through vegetation 9.5 Flow in compound channels 9.6 Flow in curved open channels 9.7 Shallow merging flows 9.8 Flow past in-stream hydraulic structures 9.9 Flow and mass exchange processes around a channel-bottom cavity 9.10 Gravity currents 9.11 Eco-hydraulics: Flow past an array of freshwater mussels 9.12 Flow in a water pump intake Appendix A - Introduction to tensor notation References Index

Large eddy simulation Detached eddy simulation Turbulence modeling Open-channel flow Reynolds-averaged Navier–Stokes equations Turbulence Boundary value problem Incompressible flow Mechanics Calculus Mathematics Mechanics
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