Implementation of a robust weighted compact nonlinear scheme for modeling of hydrogen/air detonation

Ryohei Iida; Makoto Asahara; A. Koichi Hayashi; Nobuyuki Tsuboi; Taku Nonomura

doi:10.1080/00102202.2014.935646

Implementation of a robust weighted compact nonlinear scheme for modeling of hydrogen/air detonation

Ryohei Iida, Makoto Asahara, A. Koichi Hayashi, Nobuyuki Tsuboi, Taku Nonomura

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

5 Citations (Scopus)

Abstract

In order to simulate detonation, a high-order shock-capturing scheme that models chemical reactions is implemented, and its resolution is examined by testing it on several numerical problems. A robust weighted compact nonlinear scheme (RWCNS) is adopted to take advantage of its robustness and ability to handle different flux types. This study shows the high resolution of the RWCNS compared with the conventional scheme. The results show that the RWCNS predicts the detailed vortex structure behind the detonation wavefront. ©

Original language	English
Pages (from-to)	1736-1757
Number of pages	22
Journal	Combustion science and technology
Volume	186
Issue number	10-11
DOIs	https://doi.org/10.1080/00102202.2014.935646
Publication status	Published - 2014 Nov 2
Externally published	Yes

Keywords

Detonation
High-order scheme
RWCNS
WCNS

ASJC Scopus subject areas

Chemistry(all)
Chemical Engineering(all)
Fuel Technology
Energy Engineering and Power Technology
Physics and Astronomy(all)

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10.1080/00102202.2014.935646

Cite this

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title = "Implementation of a robust weighted compact nonlinear scheme for modeling of hydrogen/air detonation",

abstract = "In order to simulate detonation, a high-order shock-capturing scheme that models chemical reactions is implemented, and its resolution is examined by testing it on several numerical problems. A robust weighted compact nonlinear scheme (RWCNS) is adopted to take advantage of its robustness and ability to handle different flux types. This study shows the high resolution of the RWCNS compared with the conventional scheme. The results show that the RWCNS predicts the detailed vortex structure behind the detonation wavefront. {\textcopyright}",

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author = "Ryohei Iida and Makoto Asahara and Hayashi, {A. Koichi} and Nobuyuki Tsuboi and Taku Nonomura",

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T1 - Implementation of a robust weighted compact nonlinear scheme for modeling of hydrogen/air detonation

AU - Iida, Ryohei

AU - Asahara, Makoto

AU - Hayashi, A. Koichi

AU - Tsuboi, Nobuyuki

AU - Nonomura, Taku

PY - 2014/11/2

Y1 - 2014/11/2

N2 - In order to simulate detonation, a high-order shock-capturing scheme that models chemical reactions is implemented, and its resolution is examined by testing it on several numerical problems. A robust weighted compact nonlinear scheme (RWCNS) is adopted to take advantage of its robustness and ability to handle different flux types. This study shows the high resolution of the RWCNS compared with the conventional scheme. The results show that the RWCNS predicts the detailed vortex structure behind the detonation wavefront. ©

AB - In order to simulate detonation, a high-order shock-capturing scheme that models chemical reactions is implemented, and its resolution is examined by testing it on several numerical problems. A robust weighted compact nonlinear scheme (RWCNS) is adopted to take advantage of its robustness and ability to handle different flux types. This study shows the high resolution of the RWCNS compared with the conventional scheme. The results show that the RWCNS predicts the detailed vortex structure behind the detonation wavefront. ©

KW - Detonation

KW - High-order scheme

KW - RWCNS

KW - WCNS

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JO - Combustion Science and Technology

JF - Combustion Science and Technology

IS - 10-11

ER -

Implementation of a robust weighted compact nonlinear scheme for modeling of hydrogen/air detonation

Abstract

Keywords

ASJC Scopus subject areas

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