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Main Authors: Ma, Qihang, Chong, Kai Leong, Feng, Feng, Zhang, Jianhua, and, Bofu Wang, Zhou, Quan
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.17042
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author Ma, Qihang
Chong, Kai Leong
Feng, Feng
Zhang, Jianhua
and, Bofu Wang
Zhou, Quan
author_facet Ma, Qihang
Chong, Kai Leong
Feng, Feng
Zhang, Jianhua
and, Bofu Wang
Zhou, Quan
contents The high-order Target ENO (TENO) scheme, known for its innovative weighting strategy, has demonstrated strong potential for complex flow predictions. This study extends the TENO weighting approach to develop non-oscillatory central TENO (CTENO and CTENOZ) family schemes for unstructured meshes. The CTENO schemes employ compact directional stencils, which increase the likelihood of finding stencils within smooth regions. The design is intentionally compact to simplify the implementation of directional stencils. An effective scale separation strategy is adopted using an ENO-like stencil selection method, which employs large central stencils in smooth regions to achieve high-order accuracy, and smaller directional stencils near discontinuities to improve shock-capturing capabilities. Extensive tests involving CWENO, TENO, CTENO, and CTENOZ schemes were conducted to assess their performance in terms of accuracy, robustness, parallel scalability, and computational efficiency. The findings indicate that the proposed CTENO and CTENOZ schemes deliver high-order precision, lower numerical dissipation, and excellent shock-capturing performance.
format Preprint
id arxiv_https___arxiv_org_abs_2312_17042
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle High-order Finite-Volume Central Targeted ENO Family Scheme for Compressible Flows in Unstructured Meshes
Ma, Qihang
Chong, Kai Leong
Feng, Feng
Zhang, Jianhua
and, Bofu Wang
Zhou, Quan
Fluid Dynamics
The high-order Target ENO (TENO) scheme, known for its innovative weighting strategy, has demonstrated strong potential for complex flow predictions. This study extends the TENO weighting approach to develop non-oscillatory central TENO (CTENO and CTENOZ) family schemes for unstructured meshes. The CTENO schemes employ compact directional stencils, which increase the likelihood of finding stencils within smooth regions. The design is intentionally compact to simplify the implementation of directional stencils. An effective scale separation strategy is adopted using an ENO-like stencil selection method, which employs large central stencils in smooth regions to achieve high-order accuracy, and smaller directional stencils near discontinuities to improve shock-capturing capabilities. Extensive tests involving CWENO, TENO, CTENO, and CTENOZ schemes were conducted to assess their performance in terms of accuracy, robustness, parallel scalability, and computational efficiency. The findings indicate that the proposed CTENO and CTENOZ schemes deliver high-order precision, lower numerical dissipation, and excellent shock-capturing performance.
title High-order Finite-Volume Central Targeted ENO Family Scheme for Compressible Flows in Unstructured Meshes
topic Fluid Dynamics
url https://arxiv.org/abs/2312.17042