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Adjoint-based Error Estimation and Grid Adaptation for Functional Outputs from CFD Simulations

2005 Computational grids (Computer systems)
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Release : 2005
Genre : Computational grids (Computer systems)
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Book Synopsis Adjoint-based Error Estimation and Grid Adaptation for Functional Outputs from CFD Simulations by : Ravishankar Balasubramanian

Download or read book Adjoint-based Error Estimation and Grid Adaptation for Functional Outputs from CFD Simulations written by Ravishankar Balasubramanian. This book was released on 2005. Available in PDF, EPUB and Kindle. Book excerpt: This study seeks to reduce the degree of uncertainty that often arises in computational fluid dynamics simulations about the computed accuracy of functional outputs. An error estimation methodology based on discrete adjoint sensitivity analysis is developed to provide a quantitative measure of the error in computed outputs. The developed procedure relates the local residual errors to the global error in output function via adjoint variables as weight functions. The three major steps in the error estimation methodology are: (1) development of adjoint sensitivity analysis capabilities; (2) development of an efficient error estimation procedure; (3) implementation of an output-based grid adaptive scheme. Each of these steps are investigated. For the first step, parallel discrete adjoint capabilities are developed for the variable Mach version of the U2NCLE flow solver. To compare and validate the implementation of adjoint solver, this study also develops direct sensitivity capabilities. A modification is proposed to the commonly used unstructured flux-limiters, specifically, those of Barth-Jespersen and Venkatakrishnan, to make them piecewise continuous and suitable for sensitivity analysis. A distributed-memory message-passing model is employed for the parallelization of sensitivity analysis solver and the consistency of linearization is demonstrated in sequential and parallel environments. In the second step, to compute the error estimates, the flow and adjoint solutions are prolongated from a coarse-mesh to a fine-mesh using the meshless Moving Least Squares (MLS) approximation. These error estimates are used as a correction to obtain highly-accurate functional outputs and as adaptive indicators in an iterative grid adaptive scheme to enhance the accuracy of the chosen output to a prescribed tolerance. For the third step, an output-based adaptive strategy that takes into account the error in both the primal (flow) and dual (adjoint) solutions is implemented. A second adaptive strategy based on physics-based feature detection is implemented to compare and demonstrate the robustness and effectiveness of the output-based adaptive approach. As part of the study, a general-element unstructured mesh adaptor employing h-refinement is developed using Python and C++. Error estimation and grid adaptation results are presented for inviscid, laminar and turbulent flows.

ADJOINT-BASED ERROR ESTIMATION AND GRID ADAPTATION FOR FUNCTIONAL OUTPUTS FROM CFD SIMULATIONS.

2005
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Release : 2005
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Book Synopsis ADJOINT-BASED ERROR ESTIMATION AND GRID ADAPTATION FOR FUNCTIONAL OUTPUTS FROM CFD SIMULATIONS. by :

Download or read book ADJOINT-BASED ERROR ESTIMATION AND GRID ADAPTATION FOR FUNCTIONAL OUTPUTS FROM CFD SIMULATIONS. written by . This book was released on 2005. Available in PDF, EPUB and Kindle. Book excerpt: This study seeks to reduce the degree of uncertainty that often arises in computational fluid dynamics simulations about the computed accuracy of functional outputs. An error estimation methodology based on discrete adjoint sensitivity analysis is developed to provide a quantitative measure of the error in computed outputs. The developed procedure relates the local residual errors to the global error in output function via adjoint variables as weight functions. The three major steps in the error estimation methodology are: (1) development of adjoint sensitivity analysis capabilities; (2) development of an efficient error estimation procedure; (3) implementation of an output-based grid adaptive scheme. Each of these steps are investigated. For the first step, parallel discrete adjoint capabilities are developed for the variable Mach version of the U2NCLE flow solver. To compare and validate the implementation of adjoint solver, this study also develops direct sensitivity capabilities. A modification is proposed to the commonly used unstructured flux-limiters, specifically, those of Barth-Jespersen and Venkatakrishnan, to make them piecewise continuous and suitable for sensitivity analysis. A distributed-memory message-passing model is employed for the parallelization of sensitivity analysis solver and the consistency of linearization is demonstrated in sequential and parallel environments. In the second step, to compute the error estimates, the flow and adjoint solutions are prolongated from a coarse-mesh to a fine-mesh using the meshless Moving Least Squares (MLS) approximation. These error estimates are used as a correction to obtain highly-accurate functional outputs and as adaptive indicators in an iterative grid adaptive scheme to enhance the accuracy of the chosen output to a prescribed tolerance. For the third step, an output-based adaptive strategy that takes into account the error in both the primal (flow) and dual (adjoint) solutions is implemented. A secon.

Error Estimation and Grid Adaptation for Functional Outputs Using Discrete-adjoint Sensitivity Analysis

2002 Boundary value problems
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Release : 2002
Genre : Boundary value problems
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Book Synopsis Error Estimation and Grid Adaptation for Functional Outputs Using Discrete-adjoint Sensitivity Analysis by : Ravishankar Balsubramanian

Download or read book Error Estimation and Grid Adaptation for Functional Outputs Using Discrete-adjoint Sensitivity Analysis written by Ravishankar Balsubramanian. This book was released on 2002. Available in PDF, EPUB and Kindle. Book excerpt: Within the design process, computational fluid dynamics is typically used to compute specific quantities that assess the performance of the apparatus under investigation. These quantities are usually integral output functions such as force and moment coefficients. However, to accurately model the configuration, the geometric features and the resulting physical phenomena must be adequately resolved. Due to limited computational resources a compromise must be made between the fidelity of the solution obtained and the available resources. This creates a degree of uncertainty about the error in the computed output functions. To this end, the current study attempts to address this problem for two-dimensional inviscid, incompressible flows on unstructured grids. The objective is to develop an error estimation and grid adaptive strategy for improving the accuracy of output functions from computational fluid dynamic codes. The present study employs a discrete adjoint formulation to arrive at the error estimates in which the global error in the output function is related to the local residual errors in the flow solution via adjoint variables as weighting functions. This procedure requires prolongation of the flow solution and adjoint solution from coarse to finer grids and, thus, different prolongation operators are studied to evaluate their influence on the accuracy of the error correction terms. Using this error correction procedure, two different adaptive strategies may be employed to enhance the accuracy of the chosen output to a prescribed tolerance. While both strategies strive to improve the accuracy of the computed output, the means by which the adaptation parameters are formed differ. The first strategy improves the computable error estimates by forming adaptation parameters based on the level of error in the computable error estimates. A grid adaptive scheme is then implemented that takes into account the error in both the primal and dual solutions. The second strategy uses the computable error estimates as indicators in an iterative grid adaptive scheme to generate grids that produce accurate estimates of the chosen output. Several test cases are provided to demonstrate the effectiveness and robustness of the error correction procedure and the grid adaptive methods.

ERROR ESTIMATION AND GRID ADAPTATION FOR FUNCTIONAL OUTPUTS USING DISCRETE-ADJOINT SENSITIVITY ANALYSIS.

2002
Download ERROR ESTIMATION AND GRID ADAPTATION FOR FUNCTIONAL OUTPUTS USING DISCRETE-ADJOINT SENSITIVITY ANALYSIS. PDF Online Free

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Release : 2002
Genre :
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Book Synopsis ERROR ESTIMATION AND GRID ADAPTATION FOR FUNCTIONAL OUTPUTS USING DISCRETE-ADJOINT SENSITIVITY ANALYSIS. by :

Download or read book ERROR ESTIMATION AND GRID ADAPTATION FOR FUNCTIONAL OUTPUTS USING DISCRETE-ADJOINT SENSITIVITY ANALYSIS. written by . This book was released on 2002. Available in PDF, EPUB and Kindle. Book excerpt: Within the design process, computational fluid dynamics is typically used to compute specific quantities that assess the performance of the apparatus under investigation. These quantities are usually integral output functions such as force and moment coefficients. However, to accurately model the configuration, the geometric features and the resulting physical phenomena must be adequately resolved. Due to limited computational resources a compromise must be made between the fidelity of the solution obtained and the available resources. This creates a degree of uncertainty about the error in the computed output functions. To this end, the current study attempts to address this problem for two-dimensional inviscid, incompressible flows on unstructured grids. The objective is to develop an error estimation and grid adaptive strategy for improving the accuracy of output functions from computational fluid dynamic codes. The present study employs a discrete adjoint formulation to arrive at the error estimates in which the global error in the output function is related to the local residual errors in the flow solution via adjoint variables as weighting functions. This procedure requires prolongation of the flow solution and adjoint solution from coarse to finer grids and, thus, different prolongation operators are studied to evaluate their influence on the accuracy of the error correction terms. Using this error correction procedure, two different adaptive strategies may be employed to enhance the accuracy of the chosen output to a prescribed tolerance. While both strategies strive to improve the accuracy of the computed output, the means by which the adaptation parameters are formed differ. The first strategy improves the computable error estimates by forming adaptation parameters based on the level of error in the computable error estimates. A grid adaptive scheme is then implemented that takes into account the error in both the primal and dual solutions. The second stra.

Opportunities for Breakthroughs in Large-Scale Computational Simulation and Design

2002 Geometrical models
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Release : 2002
Genre : Geometrical models
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Book Synopsis Opportunities for Breakthroughs in Large-Scale Computational Simulation and Design by :

Download or read book Opportunities for Breakthroughs in Large-Scale Computational Simulation and Design written by . This book was released on 2002. Available in PDF, EPUB and Kindle. Book excerpt: Opportunities for breakthroughs in the large-scale computational simulation and design of aerospace vehicles are presented. Computational fluid dynamics tools to be used within multidisciplinary analysis and design methods are emphasized. The opportunities stem from speedups and robustness improvements in the underlying unit operations associated with simulation (geometry modeling, grid generation, physical modeling, analysis, etc.). Further, an improved programming environment can synergistically integrate these unit operations to leverage the gains. The speedups result from reducing the problem setup time through geometry modeling and grid generation operations, and reducing the solution time through the operation counts associated with solving the discretized equations to a sufficient accuracy. The opportunities are addressed only at a general level here, but an extensive list of references containing further details is included.

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