液氧/ 液氮储能筒反应输出载荷特性研究

金属矿山 ›› 2026, Vol. 55 ›› Issue (2): 147-156.

液氧/ 液氮储能筒反应输出载荷特性研究

张　娟^1,2,3　李运潮³　向拓宇³　谢全民^1,2　姜　楠⁴　丁　建⁴

1. 江汉大学精细爆破全国重点实验室,湖北武汉 430056;2. 江汉大学爆破工程湖北省重点实验室,湖北武汉 430056;
3. 中材(南京)矿山研究院有限公司,江苏南京 210000;4. 南京君缘科爆工程技术有限公司,江苏南京 211135

出版日期:2026-02-15 发布日期:2026-03-03
通讯作者: 谢全民(1983—),男,教授,博士,博士研究生导师。
作者简介:张　娟(1992—),女,工程师,博士。
基金资助:
江汉大学省部共建精细爆破国家重点实验室、江汉大学爆破工程湖北省重点实验室联合开放基金资助项目(编号:PBSKL2023B8)。

Research on the Load Characteristics of LO2 / LN2 Energy Storage Cylinder Reaction Output

ZHANG Juan^1,2,3　LI Yunchao³　XIANG Tuoyu³　XIE Quanmin^1,2　JIANG Nan⁴　Ding Jian⁴

1. State Key Laboratory of Precision Blasting,Jianghan University,Wuhan 430056,China;
2. Hubei Key Laboratory of Blasting Engineering,Jianghan University,Wuhan 430056,China;
3. Sinoma (Nanjing) Mining Research Institute Co. ,Ltd. ,Nanjing 210000,China;
4. Nanjing Jun Yuan Scientiic Blasting Engineering Technology Co. ,Ltd. ,Nanjing 211135,China

Online:2026-02-15 Published:2026-03-03

摘要/Abstract

摘要： 为研究液氧/ 液氮储能筒反应产生的压力载荷特性,基于液氧/ 液氮储能筒开展了其反应输出作用过程
试验和空气冲击波测试试验。根据试验结果,可将作用过程分为低速燃烧阶段、爆燃—相变阶段和持续—衰减阶段;
一定范围内,空气冲击波超压峰值和正压时间均随充液量的增加而增大,即空气冲击波能量随充液量的增加而增大。
结合理论计算和数值模拟等方法,将液氧/ 液氮储能筒的燃烧—相变冲击波实测数据与球状、条状TNT 炸药爆炸产生
的冲击波进行对比分析,重点研究了能量释放速度、空气冲击波超压峰值及正压持时等载荷特征参数。结果表明:与
采用超压判据等效反推的条形TNT 装药相比,相同距离(2 m 或3 m)下条形TNT 装药产生的冲击波超压峰值比对应
当量的储能筒大34. 9%~80. 8%,且冲击波正压持时比储能筒小7. 9%~25. 8%。液氧/ 液氮储能筒反应产生的冲击波
具有“低峰值、高能量”的特性,与TNT 炸药爆炸相比,相同距离下其冲击波超压峰值较小,正压持续时间较长,能量衰
减较慢;储能筒的释能速率和做功过程与TNT 炸药有本质区别。研究结果可为液氧/ 液氮储能筒的基础研究及工程
应用提供重要参考。

Abstract: To investigate the pressure load characteristics generated by the reaction of liquid oxygen/ liquid nitrogen
(LO2 / LN2) energy storage cylinders,experiments on the reaction output process and air shock wave tests were conducted
based on LO2 / LN2 energy storage cylinders. According to the test results,the action process can be divided into three stages:
low-speed combustion stage,deflagration-phase transition stage,and continuous-decay stage. Within a certain range,both the
peak overpressure and positive pressure duration of the air shock wave increase with the increase of liquid filling amount,indicating
that the energy of the air shock wave enhances as the liquid filling amount increases. By combining theoretical calculations,
numerical simulations,and other methods,the measured data of combustion-phase transition shock waves from LO2 / LN2
energy storage cylinders were compared with the shock waves generated by spherical and strip-shaped TNT explosions. The load
characteristic parameters,such as energy release rate,peak overpressure of air shock waves,and positive pressure duration,
were focused on. The results show that compared with the strip-shaped TNT charge deduced by the overpressure criterion equivalence,
at distances of 2 m and 3 m,the peak overpressure of the shock wave generated by the strip-shaped TNT charge is
34. 9% to 80. 8% higher than that of the energy storage cylinder,while the positive pressure duration of the shock wave is
7. 9% to 25. 8% shorter. The shock wave generated by the reaction of LO2 / LN2 energy storage cylinders exhibits the characteristics
of "low peak value and high energy". Compared with TNT explosions,at the same distance,its shock wave has a smaller
peak overpressure,a longer positive pressure duration,and slower energy decay. The energy release rate and work process of the
energy storage cylinder are fundamentally different from those of TNT. These results can provide important references for the basic research and engineering applications of LO2 / LN2 energy storage cylinders.

中图分类号:

TD235

张　娟, 　李运潮　向拓宇　谢全民, 　姜　楠　丁　建. 液氧/ 液氮储能筒反应输出载荷特性研究[J]. 金属矿山, 2026, 55(2): 147-156.

ZHANG Juan, 　LI Yunchao　XIANG Tuoyu　XIE Quanmin, 　JIANG Nan　Ding Jian. Research on the Load Characteristics of LO2 / LN2 Energy Storage Cylinder Reaction Output[J]. Metal Mine, 2026, 55(2): 147-156.

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