Overview

1. 1 Scope of the Study The detailed and reasonably accurate computation of large scale turbulent flows has become increasingly important in geophysical and engi­ neering applications in recent years. The definition of water quality management policies for reservoirs, lakes, estuaries, and coastal waters, as well as the design of cooling ponds and solar ponds, requires an ade­ quate quantitative description of turbulent flows. When the diffusion of some tracer (be it active, such as temperature or salinity, or passive, such as dissolved oxygen) is of relevance to a specific application, the proper determination of the effects of turbulent transport processes has paramount importance. Thus, for instance, the proper understanding of lake and reservoir dynamics requires, as a first step, the ability to simulate turbulent flows. Applications in other areas of geophysical research, such as meteorology and oceanography are easily identified and large in number. It should be stressed that, in this context, the analyst seeks predictive ability to a certain extent. Accordingly, the need for simulation models that closely resemble the natural processes to be repre­ sented has recently become more evident. Since the late 1960s considerable effort has been devoted to the development of models for the simulation of complex turbulent flows. This has resulted in the establishment of two approaches which have been, or 2 have the potential for being, applied to problems of engineering and geophysical interest.

Full Product Details

Author:   Alvaro A. Aldama
Publisher:   Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Imprint:   Springer-Verlag Berlin and Heidelberg GmbH & Co. K
Edition:   Softcover reprint of the original 1st ed. 1990
Volume:   56
Dimensions:   Width: 17.00cm , Height: 2.10cm , Length: 24.20cm
Weight:   0.702kg
ISBN:  

9783540521372

ISBN 10:   3540521372
Pages:   397
Publication Date:   16 January 1990
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Paperback
Publisher's Status:   Active
Availability:   Out of stock  
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Table of Contents

1 Introduction.- 1.1 Scope of the Study.- 1.2 Report Outline.- 2 Turbulence Modeling.- 2.1 The Nature of Turbulent Flows.- 2.2 Conventional Turbulence Modeling.- 2.3 Large Eddy Simulation.- 2.4 Summary.- 3 Two-Scale Filtering Approach Theory.- 3.1 Introduction.- 3.2 Space-Time Filtering Approach.- 3.3 The Leonard Approximation in the STF Context.- 3.4 The Approximation of the Cross Terms.- 3.5 The Asymptotic Nature of the Leonard Approximation.- 3.6 The Asymptotic Nature of the Approximation of the Cross Terms.- 3.7 Fourier Space Theory.- 3.8 Filtering Effect of Discrete Approximations.- 3.9 Closure Model.- 3.10 Summary.- 4 Three-Scale Filtering Approach Theory.- 4.1 Introduction.- 4.2 Three-Scale Approach.- 4.3 Macroscale Dynamics.- 4.4 Mesoscale Dynamics.- 4.5 Relationship between Two- and Three-Scale Approaches.- 4.6 Closure Model.- 4.7 Summary.- 5 Direct Simulations of Periodic Burgers' Flow.- 5.1 Introduction.- 5.2 Burgers' Equation as a Mathematical Model of Turbulence.- 5.3 Shock Development and Energy Equation for Free Burgers' Flow.- 5.4 Design of Numerical Experiment for Free and Periodic Burgers' Flow.- 5.5 Computation of Spectral Statistics.- 5.6 Filtering of Instantaneous Variables.- 5.7 Generation of Initial Conditions.- 5.8 Numerical Scheme.- 5.9 Numerical Stability Analysis.- 5.10 Results for Free and Periodic Burgers' Flow.- 5.10.1 Statistical Significance and Spatial Resolution.- 5.10.2 Sensitivity to Time Step Magnitude.- 5.10.3 Time Filtering Effect.- 5.10.4 Velocity Fields.- 5.10.5 Spectral Dynamics and Energy Evolution.- 5.11 Forced and Periodic Burgers' Problem.- 5.12 Generation of Random Forcing.- 5.13 Results for Forced and Periodic Burgers' Flow.- 5.13.1 Statistical Significance and Spatial Resolution.- 5.13.2 Time Filtering Effect.- 5.13.3 Velocity Fields.- 5.13.4 Spectral Dynamics and Energy Evolution.- 5.14 Summary.- 6 Numerical Experiments with Two-Scale Filtering Approaches Applied to Periodic Burgers' Flow.- 6.1 Introduction.- 6.2 LES Approach for Free Burgers' Flow.- 6.3 STF Approach for Forced Burgers' Flow.- 6.4 Relationship between LES and STF Approaches.- 6.5 Numerical Scheme.- 6.5.1 Accuracy Requirements.- 6.5.2 Quasi-Implicit Factored Time Stepping Scheme with Richardson Extrapolation.- 6.5.3 Quadratic Finite Element Spatial Discretization.- 6.5.4 Green's Function Solution Algorithm.- 6.5.5 Accuracy Properties.- 6.6 Simulation of Space-Filtered (LS) Free Burgers' Flow.- 6.6.1 Choice of Grid Size and Time Step.- 6.6.2 Calibration of Closure Models.- 6.6.3 LS Spectral Dynamics.- 6.7 Simulation of Space-Time Filtered (STF) Forced Burgers' Flow.- 6.7.1 Choice of Grid Size and Time Step.- 6.7.2 Energy Evolution.- 6.7.3 STF Spectral Dynamics.- 6.7.4 Sensitivity Analyses.- 6.8 Summary.- 7 Numerical Experiments with Three-Scale Filtering Approach Applied to Periodic Burgers' Flow.- 7.1 Introduction.- 7.2 Space-Filtered Macroscale Dynamics.- 7.3 Space-Filtered Mesoscale Dynamics.- 7.4 Numerical Scheme.- 7.5 Simulation of Space-Filtered (Free) Mesoscale Burgers' Flow.- 7.5.1 Mesoscale Spectral Dynamics.- 7.5.2 Reconstruction of LS Spectral Statistics.- 7.6 Summary.- 8 Discussion, Conclusion and Recommendations.- 8.1 Conventional Averaging Procedures Versus Filtering.- 8.2 Discussion of Results and Summary of Contributions.- 8.3 Recommendations for Future Research.- Appendix A Implicit Factored - Quadratic Finite Element Formulation of Stf Forced Burgers' Equation.- Appendix B Implicit Factored - Quadratic Finite Element Formulation of Les-Mesoscale Equation.- References.

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