近临界马赫数条件下楔形诱导斜爆轰数值模拟

Cheng Wang; Jing Chang Wu; Wen Hu Han; Tong Hui Yang

doi:10.15918/j.tbit1001-0645.2019.143

近临界马赫数条件下楔形诱导斜爆轰数值模拟

Translated title of the contribution: Numerical Simulation of Wedge Induced Oblique Detonation at Near Critical Mach Number

Cheng Wang, Jing Chang Wu, Wen Hu Han, Tong Hui Yang

School of Mechatronical Engineering

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

In the study of detonation propulsion technology, it is very important to form stable detonation waves for the detonation engine to produce stable thrust. The curvilinear relationship between the angle of oblique detonation and the incoming flow Mach number was determined and the critical Mach number was obtained. The one-step reaction model was used to simulate the oblique detonation with and without viscous diffusion at the near critical Mach number on a large scale. For oblique detonation with a critical Mach number close to C-J characteristics, the simulation results under both viscid and inviscid conditions show that the C-J detonation translates upward in the oblique detonation at critical Mach number.As the oblique detonation stands, its propagation behaves globally oscialltions.

Translated title of the contribution	Numerical Simulation of Wedge Induced Oblique Detonation at Near Critical Mach Number
Original language	Chinese (Traditional)
Pages (from-to)	803-809
Number of pages	7
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	40
Issue number	8
DOIs	https://doi.org/10.15918/j.tbit1001-0645.2019.143
Publication status	Published - 1 Aug 2020

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title = "近临界马赫数条件下楔形诱导斜爆轰数值模拟",

abstract = "In the study of detonation propulsion technology, it is very important to form stable detonation waves for the detonation engine to produce stable thrust. The curvilinear relationship between the angle of oblique detonation and the incoming flow Mach number was determined and the critical Mach number was obtained. The one-step reaction model was used to simulate the oblique detonation with and without viscous diffusion at the near critical Mach number on a large scale. For oblique detonation with a critical Mach number close to C-J characteristics, the simulation results under both viscid and inviscid conditions show that the C-J detonation translates upward in the oblique detonation at critical Mach number.As the oblique detonation stands, its propagation behaves globally oscialltions.",

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author = "Cheng Wang and Wu, {Jing Chang} and Han, {Wen Hu} and Yang, {Tong Hui}",

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T1 - 近临界马赫数条件下楔形诱导斜爆轰数值模拟

AU - Wang, Cheng

AU - Wu, Jing Chang

AU - Han, Wen Hu

AU - Yang, Tong Hui

PY - 2020/8/1

Y1 - 2020/8/1

N2 - In the study of detonation propulsion technology, it is very important to form stable detonation waves for the detonation engine to produce stable thrust. The curvilinear relationship between the angle of oblique detonation and the incoming flow Mach number was determined and the critical Mach number was obtained. The one-step reaction model was used to simulate the oblique detonation with and without viscous diffusion at the near critical Mach number on a large scale. For oblique detonation with a critical Mach number close to C-J characteristics, the simulation results under both viscid and inviscid conditions show that the C-J detonation translates upward in the oblique detonation at critical Mach number.As the oblique detonation stands, its propagation behaves globally oscialltions.

AB - In the study of detonation propulsion technology, it is very important to form stable detonation waves for the detonation engine to produce stable thrust. The curvilinear relationship between the angle of oblique detonation and the incoming flow Mach number was determined and the critical Mach number was obtained. The one-step reaction model was used to simulate the oblique detonation with and without viscous diffusion at the near critical Mach number on a large scale. For oblique detonation with a critical Mach number close to C-J characteristics, the simulation results under both viscid and inviscid conditions show that the C-J detonation translates upward in the oblique detonation at critical Mach number.As the oblique detonation stands, its propagation behaves globally oscialltions.

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KW - Upward fluctuation of detonation

KW - Viscous diffusion effect

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近临界马赫数条件下楔形诱导斜爆轰数值模拟

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