Spring analogy method for generating of 2D unstructured dynamic meshes

Shi Hui Huo; Fu Sheng Wang; Zhu Feng Yue

Spring analogy method for generating of 2D unstructured dynamic meshes

Shi Hui Huo, Fu Sheng Wang, Zhu Feng Yue

School of Mechanics,Civil Engineering and Architecture

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Spring analogy method (SAM) was improved through controlling mesh quality here. Then, its results were compared with those obtained through the traditional SAM. It was shown from numerical simulations that mesh quality declines with increase in rotation angle in the unstructured dynamic meshes based on SAM; the quality of the mesh generated with the improved SAM is better than that generated with the traditional SAM for the same rotation angles; mesh deformation capability of the improved SAM is larger than that of the traditional SAM; the max rotation angle of the model boundary is about 13° with the traditional SAM and 27° with the improved SAM. Finally, numerical simulations of a two-dimensional airfoil using the improved SAM were conducted. It was found that the results of the improved SAM show a better agreement with the experiment ones; the improved SAM can be used in real numerical simulations effectively.

Original language	English
Pages (from-to)	177-182
Number of pages	6
Journal	Zhendong yu Chongji/Journal of Vibration and Shock
Volume	30
Issue number	10
State	Published - Oct 2011

Keywords

Dynamic meshes
Maximum pitching angle
Mesh quality
Spring analogy method (SAM)
Unstructured grids

Cite this

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abstract = "Spring analogy method (SAM) was improved through controlling mesh quality here. Then, its results were compared with those obtained through the traditional SAM. It was shown from numerical simulations that mesh quality declines with increase in rotation angle in the unstructured dynamic meshes based on SAM; the quality of the mesh generated with the improved SAM is better than that generated with the traditional SAM for the same rotation angles; mesh deformation capability of the improved SAM is larger than that of the traditional SAM; the max rotation angle of the model boundary is about 13° with the traditional SAM and 27° with the improved SAM. Finally, numerical simulations of a two-dimensional airfoil using the improved SAM were conducted. It was found that the results of the improved SAM show a better agreement with the experiment ones; the improved SAM can be used in real numerical simulations effectively.",

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author = "Huo, {Shi Hui} and Wang, {Fu Sheng} and Yue, {Zhu Feng}",

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T1 - Spring analogy method for generating of 2D unstructured dynamic meshes

AU - Huo, Shi Hui

AU - Wang, Fu Sheng

AU - Yue, Zhu Feng

PY - 2011/10

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N2 - Spring analogy method (SAM) was improved through controlling mesh quality here. Then, its results were compared with those obtained through the traditional SAM. It was shown from numerical simulations that mesh quality declines with increase in rotation angle in the unstructured dynamic meshes based on SAM; the quality of the mesh generated with the improved SAM is better than that generated with the traditional SAM for the same rotation angles; mesh deformation capability of the improved SAM is larger than that of the traditional SAM; the max rotation angle of the model boundary is about 13° with the traditional SAM and 27° with the improved SAM. Finally, numerical simulations of a two-dimensional airfoil using the improved SAM were conducted. It was found that the results of the improved SAM show a better agreement with the experiment ones; the improved SAM can be used in real numerical simulations effectively.

AB - Spring analogy method (SAM) was improved through controlling mesh quality here. Then, its results were compared with those obtained through the traditional SAM. It was shown from numerical simulations that mesh quality declines with increase in rotation angle in the unstructured dynamic meshes based on SAM; the quality of the mesh generated with the improved SAM is better than that generated with the traditional SAM for the same rotation angles; mesh deformation capability of the improved SAM is larger than that of the traditional SAM; the max rotation angle of the model boundary is about 13° with the traditional SAM and 27° with the improved SAM. Finally, numerical simulations of a two-dimensional airfoil using the improved SAM were conducted. It was found that the results of the improved SAM show a better agreement with the experiment ones; the improved SAM can be used in real numerical simulations effectively.

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KW - Mesh quality

KW - Spring analogy method (SAM)

KW - Unstructured grids

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JF - Zhendong yu Chongji/Journal of Vibration and Shock

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Spring analogy method for generating of 2D unstructured dynamic meshes

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