离散分布多火源燃烧速率计算模型研究
发布时间:2018-12-20 10:59
【摘要】:针对可燃物离散分布燃烧现象,基于外加辐射热流对火源燃烧速率的增长理论,考虑离散可燃物燃烧时环境气压对燃烧速率增长系数k的影响,提出针对任意离散分布火源i的修正无量纲增长系数K_i,K_i值与离散分布条件(火源中心间距D和火源数目n~2)有关,建立了离散火源燃烧速率计算模型.根据离散多火源自由燃烧燃尽时间数据获得Ki经验式,对比分析多种离散分布条件下各火源燃烧速率的模型计算值和实验值,结果表明,该计算模型结果比较合理.
[Abstract]:In view of the combustion phenomenon of discrete distribution of combustible matter, the effect of ambient pressure on the coefficient k of combustion rate is considered based on the increase theory of external radiation heat flux on the combustion rate of fire source, and the effect of ambient pressure on the combustion rate coefficient k of discrete combustible combustion is considered. The modified dimensionless growth coefficient K _ S _ I _ I for arbitrarily discrete fire source I is related to the discrete distribution condition (fire source center spacing D and number of fire sources n ~ 2), and a model for calculating the combustion rate of discrete fire source is established. The Ki empirical formula is obtained based on the combustion time data of discrete multi-source free combustion. The calculated and experimental values of the combustion rate of each fire source under various discrete distribution conditions are compared and analyzed. The results show that the calculated results are reasonable.
【作者单位】: 中南大学资源与安全工程学院;
【基金】:国家自然科学基金资助项目(51206191)
【分类号】:X932
本文编号:2387901
[Abstract]:In view of the combustion phenomenon of discrete distribution of combustible matter, the effect of ambient pressure on the coefficient k of combustion rate is considered based on the increase theory of external radiation heat flux on the combustion rate of fire source, and the effect of ambient pressure on the combustion rate coefficient k of discrete combustible combustion is considered. The modified dimensionless growth coefficient K _ S _ I _ I for arbitrarily discrete fire source I is related to the discrete distribution condition (fire source center spacing D and number of fire sources n ~ 2), and a model for calculating the combustion rate of discrete fire source is established. The Ki empirical formula is obtained based on the combustion time data of discrete multi-source free combustion. The calculated and experimental values of the combustion rate of each fire source under various discrete distribution conditions are compared and analyzed. The results show that the calculated results are reasonable.
【作者单位】: 中南大学资源与安全工程学院;
【基金】:国家自然科学基金资助项目(51206191)
【分类号】:X932
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