环境温度对多相混合物爆炸特性影响的实验研究

白春华 张成均 刘楠 姚宁

白春华, 张成均, 刘楠, 姚宁. 环境温度对多相混合物爆炸特性影响的实验研究[J]. 高压物理学报, 2019, 33(4): 045202. doi: 10.11858/gywlxb.20180648
引用本文: 白春华, 张成均, 刘楠, 姚宁. 环境温度对多相混合物爆炸特性影响的实验研究[J]. 高压物理学报, 2019, 33(4): 045202. doi: 10.11858/gywlxb.20180648
BAI Chunhua, ZHANG Chengjun, LIU Nan, YAO Ning. Experimental Study on the Effects of Ambient Temperature on Explosion Characteristics of Multiphase Mixtures[J]. Chinese Journal of High Pressure Physics, 2019, 33(4): 045202. doi: 10.11858/gywlxb.20180648
Citation: BAI Chunhua, ZHANG Chengjun, LIU Nan, YAO Ning. Experimental Study on the Effects of Ambient Temperature on Explosion Characteristics of Multiphase Mixtures[J]. Chinese Journal of High Pressure Physics, 2019, 33(4): 045202. doi: 10.11858/gywlxb.20180648

环境温度对多相混合物爆炸特性影响的实验研究

doi: 10.11858/gywlxb.20180648
基金项目: 国家自然科学基金(11732003)
详细信息
    作者简介:

    白春华(1959-),男,博士,教授,主要从事多相云雾爆轰理论研究与应用. E-mail:chbai@bit.edu.cn

    通讯作者:

    张成均(1993-),男,硕士研究生,主要从事多相爆轰理论基础研究. E-mail:874523657@qq.com

  • 中图分类号: X932

Experimental Study on the Effects of Ambient Temperature on Explosion Characteristics of Multiphase Mixtures

  • 摘要: 为了研究环境温度对以铝粉、乙醚、硝基甲烷为原料的气液固多相混合物爆炸特性的影响,利用20 L球型爆炸罐,在不同环境温度(20~50 ℃)下,实验研究了温度变化对混合物的爆炸超压、最大爆炸压力上升速率和爆炸下限的影响。结果表明:实验工况下,乙醚的爆炸特性参数随温度升高而降低;铝粉的爆炸特性参数受温度影响较小;气液固多相混合物的爆炸压力随温度升高略微下降,最大爆炸压力上升速率先升后降,存在一个最佳浓度配比使爆炸威力最佳;气液固多相混合物的爆炸下限随温度升高而下降,在绝大部分易挥发物质汽化后,混合物下限趋于稳定。

     

  • 图  20 L球罐爆炸系统

    Figure  1.  20 L spherical explosion system

    图  最大爆炸压力随温度变化曲线

    Figure  2.  Maximum explosion pressure vs. temperature

    图  爆炸上升速率随温度变化曲线

    Figure  3.  Explosion pressure rise rate vs. temperature

    图  爆炸下限随温度变化曲线

    Figure  4.  Lower explosion limit vs. temperature

    表  1  铝粉/空气混合物爆炸参数

    Table  1.   Explosion parameters of aluminum powder/air mixture

    Temperature/℃ Ignition energy/J pmax/MPa (dp/dt)max/(MPa·s–1) Kst
    21.7 90 0.858 62.659 17.008
    24.4 90 0.817 65.625 17.813
    31.0 90 0.861 62.705 17.020
    35.0 90 0.856 68.205 18.513
    37.2 90 0.912 71.910 19.519
    40.0 90 0.791 67.469 18.314
    45.0 90 0.812 75.292 20.437
    50.0 90 0.773 71.381 19.375
    下载: 导出CSV

    表  2  铝粉/乙醚混合物爆炸参数

    Table  2.   Explosion parameters of aluminum powder/ether mixture

    Temperature/℃ Ignition energy/J pmax/MPa (dp/dt)max/(MPa·s–1) Kst
    21.7 90 0.971 106.616 28.939
    25.0 90 0.943 109.204 29.642
    30.0 90 0.946 120.792 32.788
    32.9 90 0.924 124.851 33.889
    34.0 90 0.919 126.464 34.327
    35.0 90 0.918 127.204 34.528
    40.0 90 0.914 124.704 33.849
    48.0 90 0.910 113.233 30.736
    50.0 90 0.923 106.087 28.796
    下载: 导出CSV

    表  3  铝粉/乙醚/硝基甲烷混合物爆炸参数

    Table  3.   Explosion parameters of aluminum powder/ether/nitromethane mixture

    Temperature/℃ Ignition energy/J pmax/MPa (dp/dt)max/(MPa·s–1) Kst
    21.7 90 1.114 108.675 29.498
    25.0 90 1.199 105.969 28.764
    30.2 90 1.189 112.852 30.632
    35.0 90 1.161 134.557 36.524
    41.6 90 1.129 132.174 35.877
    45.4 90 1.090 116.910 31.734
    50.0 90 0.996 110.454 29.948
    下载: 导出CSV

    表  4  乙醚/空气爆炸参数

    Table  4.   Explosion parameters of ether/air mixture

    Temperature/℃ Ignition energy/J pmax/MPa (dp/dt)max/(MPa·s–1)
    21.7 90 1.140 107.351
    25.0 90 0.975 51.469
    26.4 90 0.957 76.469
    33.0 90 0.856 73.528
    35.0 90 0.862 61.763
    40.0 90 0.801 30.881
    50.0 90 0.777 33.087
    下载: 导出CSV

    表  5  爆炸下限数据

    Table  5.   Lower explosion limit data

    Temperature/℃ LEL/(g∙m–3
    21.7 180
    24.3 175
    27.8 160
    33.2 155
    37.5 150
    42.5 150
    51.0 150
    下载: 导出CSV
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出版历程
  • 收稿日期:  2018-10-10
  • 修回日期:  2019-01-02

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