Numerical simulation for explosion wave propagation of combustible mixture gas

Numerical simulation for explosion wave propagation of combustible mixture gas

WANG Cheng;NING Jian-guo;MA Tian-bao

【期刊名称】《中南大学学报（英文版）》 【年(卷),期】2008(015)003

【摘要】A two-dimensional multi-material code was indigenously developed to investigate the effects of duct boundary conditions and ignition positions on the propagation law of explosion wave for hydrogen and methane-based combustible mixture gas. In the code, Young's technique was employed to track the interface between the explosion products and air, and combustible function model was adopted to simulate ignition process. The code was employed to study explosion flow field inside and outside the duct and to obtain peak pressures in different boundary conditions and ignition positions. Numerical results suggest that during the propagation in a duct, for point initiation, the curvature of spherical wave front gradually decreases and evolves into plane wave. Due to the multiple reflections on the duct wall, multi-peak values appear on pressure-time curve, and peak pressure strongly relies on the duct boundary conditions and ignition position. When explosive wave reaches the exit of the duct, explosion products expand outward and forms shock wave in air. Multiple rarefaction waves also occur and propagate upstream along

the duct to decrease the pressure in the duct. The results are in agreement with one-dimensional isentropic gas flow theory of the explosion products, and indicate that the ignition model and multi-material interface treatment method are feasible. 【总页数】7页(361-367)

【关键词】combustible mixture gas; explosion wave; interface treatment; combustion function mode

【作者】WANG Cheng;NING Jian-guo;MA Tian-bao

【作者单位】State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China;State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China;State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China

【正文语种】中文 【中图分类】TD7 【文献来源】

https://www.zhangqiaokeyan.com/academic-journal-cn_journal-central-south-university_thesis/020128295434.html 【相关文献】

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