大尺度开敞空间油料蒸气云爆炸超压与火焰传播机制研究  被引量：1

作　　者：李静野 蒋新生 余彬彬 王春辉 王子拓 LI Jingye;JIANG Xinsheng;YU Binbin;WANG Chunhui;WANG Zituo(Department of Oil,Army Logistical University,Chongqing 401331,China)

机构地区：[1]中国人民解放军陆军勤务学院油料系,重庆401331

出　　处：《爆炸与冲击》2022年第3期157-172,共16页Explosion and Shock Waves

基　　金：国家自然科学基金(51574254);国家重点研发计划(2018YFC0809500);湖南省自然科学基金(2018JJ3174)。

摘　　要：为探究大尺度开敞空间油气爆燃动态发展过程,利用自行设计并搭建的大尺度开敞空间油气爆燃模拟实验条件测试系统,通过可视化监测手段及对压力与火焰信号的采集获得了油气爆燃过程中关键参数的变化规律。结果表明:在不同的初始油气浓度下引燃预混油气混合物将形成三类主要的燃烧模式;油气浓度接近爆炸极限范围内时火焰主要分布于台架的内场、点火面后方及正上方,根据动态超压时序发展曲线可将爆燃过程划分为3个子阶段;爆燃火焰传播速度呈波动性下降趋势,并可与超压发展阶段相互耦合;随着初始油气浓度的增加,超压峰值呈现出先减后增的趋势,形成峰值耗时则呈现相反规律;爆燃火焰的温度梯度与火焰行进方向相关,火焰峰面温度梯度通常小于尾端火焰;爆燃辐射峰值形成时间与火焰强度相比具有一定的延时性,爆燃传播末期更易于形成高强度辐射。An oil-gas deflagration simulation experimental condition system in the large-scale unconfined space was independently designed and built against the theoretical requirements for safety monitoring and controlling of oil-gas mixture explosions in large-scale unconfined spaces. To begin with, pressure and flame signals, variations in global temperature and radiation indicators in various areas of the system were accurately collected through sensors, thermal imagers and radiometers.Also, high-speed cameras were adopted to capture the dynamic development of flames during deflagration, acquiring specific behavior characteristics of flame shape. The results show that the oil-gas combustion modes in the unconfined space can be divided into fireless gas cloud firing, oil-gas combustion with open flame, and oil-gas deflagration with compression wave,according to the differences in initial oil-gas concentration. To be specific, the flame generated from oil-gas deflagration is in the mirror-image shape of “L”, which can be found in the infield of the bench as well as behind and right above the ignition surface. Moreover, several peaks can be found in the dynamic overpressure sequence development curve. Based on the peak type, the whole deflagration process can be partitioned into stable spread, flame bleeding, and burning collapse. Specifically,the high-intensity area of deflagration flame could be primarily observed at the 1/3 to 2/3 of the bench, with the peak reaching up to 4 816.03 mV. It can be observed that the flame is principally presented in blue and orange, and the flame speed is downward in fluctuation along with the deflagration process. It can also be coupled with the overpressure development stage.After that, the overpressure peak is presented in a trend of first decreasing and then increasing along with the increase in the initial oil-gas concentration, whereas time consumed in peak forming is displayed in an opposite law. Note that both can fitted using the cubic polynomial. Besides, temperature gradient

关 键 词：大尺度开敞空间 油气混合物爆燃 爆燃超压 火焰传播速度 油气爆燃演化机制 

分 类 号：O381[理学—流体力学] X932[理学—力学]