|本期目录/Table of Contents|

[1]丁珏,应梦侃,邱骁,等.基于两相流模型数值研究可燃颗粒燃烧爆轰的特性[J].中国安全生产科学技术,2014,10(7):16-20.[doi:10.11731/j.issn.1673-193x.2014.07.003]
 DING Jue,YING Meng-kan,QIU Xiao,et al.Numerical study of combustion and detonation characterisitcs for bombustible particles based on two\|phase flow model[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2014,10(7):16-20.[doi:10.11731/j.issn.1673-193x.2014.07.003]
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基于两相流模型数值研究可燃颗粒燃烧爆轰的特性
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《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
10
期数:
2014年7期
页码:
16-20
栏目:
学术论著
出版日期:
2014-07-31

文章信息/Info

Title:
Numerical study of combustion and detonation characterisitcs for bombustible particles based on two\|phase flow model
作者:
丁珏应梦侃邱骁 翁培奋
(上海大学 上海市应用数学和力学研究所, 上海 200072)
Author(s):
DING JueYING Meng-kanQIU XiaoWENG Pei-fen
(Shanghai University, Shanghai Institute of Applied Mathematics and Mechanics, Shanghai 200072, China)
关键词:
粉尘爆炸非均相系统可燃颗粒粒径燃烧爆轰两相流模型
Keywords:
dust explosion heterogeneous system combustible particle diameter combustion and detonation twophase flow model
分类号:
X932
DOI:
10.11731/j.issn.1673-193x.2014.07.003
文献标志码:
A
摘要:
粉尘爆炸是工业爆炸灾害的重要形式。建立可燃颗粒非均相系统的燃烧爆轰模型,基于Eulerian\|Eulerian数值描述方法,采取有限差分方法编制非均相系统燃烧和爆轰发展的数值模拟程序,对封闭空间内两相非定常爆轰过程进行研究。数值分析可燃颗粒尺度、颗粒浓度对非均相系统燃烧、爆轰特性的影响。结果表明:在一定的范围内,当可燃颗粒的体积分数为10%,粒径05mm时,流场的燃烧爆轰效应最强。即106ms时刻,流场压力值达到28MPa,温度高达2600K,颗粒燃烧效率最高。
Abstract:
Dust explosion is an important form of industrial explosion disasters. A combustion and detonation model of heterogeneous system for combustible particle was established, and EulerianEulerian numerical method was adopted. Fortran program was developed by the finite difference method, and the development processes of combustion and detonation in the closed field were simulated numerically for heterogeneous system. Effects of fuel particle concentration, scale of particle on detonation properties were analyzed. The results showed that for the volume fraction 10% of combustible particle and 0.5mm of particle diameter, the combustion detonation properties of flow field are optimum within the discussion scope of this paper. At 10.6ms, the pressure can reach 28MPa, and the temperature can reach 2600K, so the combustion efficiency of particle is the highest.

参考文献/References:

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备注/Memo

备注/Memo:
上海市一流学科建设项目
更新日期/Last Update: 2014-07-30