• 全部
主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
我国煤矿瓦斯爆炸抑爆减灾技术的研究进展及发展趋势
  • Title

    Progress and development of coal mine gas explosion suppression and disaster reduction technology in China

  • 作者

    余明高阳旭峰郑凯栾鹏鹏

  • Author

    YU Minggao,YANG Xufeng,ZHENG Kai,LUAN Pengpeng

  • 单位

    重庆大学 煤矿灾害动力学与控制国家重点实验室河南理工大学 安全科学与工程学院

  • Organization
    State Key Laboratory of Coal Mine Disaster Dynamics Control,Chongqing University; School of Safety Science Engineering, Henan Polytechnic University
  • 摘要

    瓦斯爆炸严重威胁着矿井安全开采,瓦斯爆炸防治一直是煤矿安全工作的重点之一。我国相关研究机构、学者在瓦斯爆炸防治领域开展了较广泛的研究,开发了一系列的瓦斯爆炸抑爆减灾技术及装备。本文从文献研究的角度出发,从基础研究、材料开发、装备研制3个方面对我国瓦斯抑爆减灾技术及装备的研究现状进行了综述与讨论。瓦斯爆炸及抑爆方面,国内学者主要基于实验手段,采用宏观的参数(如最大爆炸压力和最大压力上升速率等)表征瓦斯爆炸在障碍物激励或者抑爆剂抑制作用下的最终结果,缺乏对瓦斯爆炸过程中详细的爆炸或抑制过程的理论认识。瓦斯爆炸火焰传播过程中爆炸火焰-湍流-压力波的多场耦合作用下的火焰传播理论仍需完善,抑爆过程中抑爆介质对瓦斯爆炸反应的详细作用机制仍需明确。抑爆装置研制方面,近年发生的重(特)大瓦斯爆炸事故表明现有的瓦斯抑爆、控爆装备较难在矿井发生瓦斯爆炸时对瓦斯爆炸火焰实现精准探测、快速响应和高效抑爆,致使瓦斯爆炸抑爆装备在防控瓦斯爆炸过程中作用较为有限。对于瓦斯爆炸抑爆、控爆装置的配置方式及如何高效的实现抑爆、控爆功能仍需要进一步研究。减灾装备研制方面,国内学者主要考虑改变风井防爆门的结构以实现快速开启、复位功能。在这些设计中缺乏对风井防爆门在瞬时(ms)冲击作用下的破坏动态力学特征与动作响应特征的考虑。在未来,瓦斯爆炸抑爆减灾技术体系的研究以瓦斯爆炸机理及火焰传播特性理论为基础,打破以实验为主的研究手段,发展数值模拟理论模型,深入基础理论的研究;以瓦斯抑爆介质及其抑爆机理为核心,探寻具有物理和化学抑爆耦合作用机制的高效复合抑爆材料;以瓦斯抑爆装备和减灾技术为保障,发展兼顾快速、高精确度、高稳定性的瓦斯爆炸火焰探测技术,优化各抑爆、控爆设备的配置方式,研制具有抗冲击、多次泄压、快速复位、锁扣密封及自动控制功能的主-备一体化智能风井防爆门。加快数字矿山和矿井灾变智慧系统建设对瓦斯爆炸防治具有重要意义。

  • Abstract

    Gas explosion seriously threatens the safety of coal mining. The prevention of gas explosion has always been one of the key points in the safety work of coal mine. Chinese relevant research institutions and scholars have carried out extensive studies in preventing and controlling gas explosion,and developed a series of gas explosion suppression and mitigation techniques and equipment. Based on the perspective of literature research,this paper reviewed the re- search status of China’s gas explosion suppression and disaster reduction technologies from fundamental research of gas explosion,material development,equipment research and development. For gas ex-plosion and suppression,the pa- rameters,such as maximum explosion pressure and maximum pressure rise rate,are mainly attained through employing experimental method,which are used to characterize the results of gas explosion that is motivated by obstacles or sup- pressed by the inhibitor. However,the detailed information about explosion and suppression process has not been fully understood. With the coupling effect of explosion flame,turbulence and pressure wave,the gas explosion flame propa- gation model still needs to be improved. The detained action mechanism of explosion suppression medium on gas explo- sion reaction during the gas explosion suppression process still needs to be clarified. For gas explosion suppression e- quipment,the (extremely) large gas explosion accidents in recent years indicate that the existing gas explosion sup- pression and control equipment are more difficult to accurately detect,quickly respond and effectively suppress the gas explosion flame,resulting in the techniques and equipments playing a limited role to prevent and control the gas explo- sion. Both the arrangement of gas explosion suppression and control equipment and the improvement of gas explosion suppression and control equipment’s efficiency still need to be further researched. For disaster reduction equipment, the scholars mainly consider to change the structure of blast proof-door to realize quick opening and resetting. In these designs,there is a lack of consideration of failure dynamic mechanical characteristics and action response characteris- tics of blast shaft doors under instantaneous ( millisecond) impact. In the future,the developing gas suppression and mitigation techniques and equipment systems should be based on the theory of gas explosion mechanism and flame propagation characteristics. The future study should break the research methods based on experiments,develop theoret- ical models of numerical simulation and study on basic theories. The future study should take gas explosion suppression media and explosion suppression mechanisms as the core to explore efficient composite explosion suppression materials with coupling mechanisms of physical and chemical suppression. With gas explosion suppression equipment and disas- ter mitigation technology as the guarantee,the future study should develop gas explosion flame detection technology that takes fast speed,high accuracy and stability into account,optimizes the configuration of each explosion suppression and explosion control equipment to research integrated intelligent air shaft explosion-proof door with anti-shock,multi- ple pressure relief,quick reset,lock seal and automatic control functions.

  • 关键词

    瓦斯爆炸爆炸机理抑爆介质抑爆装备减灾技术

  • KeyWords

    gas explosion,explosion mechanism,explosion suppression medium,explosion suppression equipment,dis- aster reduction technology

  • 基金项目(Foundation)
    国家重点研发计划资助项目(2018YFC0807900);国家自然科学基金资助项目(51774059,51804054)
  • 文章目录

    1 瓦斯爆炸抑爆减灾技术研究现状

       1.1 瓦斯爆炸机理及火焰传播理论

       1.2 瓦斯抑爆材料

       1.3 瓦斯抑爆技术及装备

       1.4 瓦斯爆炸减灾技术

    2 瓦斯爆炸抑爆减灾技术研究存在问题

    3 瓦斯爆炸抑爆减灾技术研究发展趋势

  • DOI
  • 引用格式
    余明高,阳旭峰,郑凯,等. 我国煤矿瓦斯爆炸抑爆减灾技术的研究进展及发展趋势[J]. 煤炭学报,2020,45(1):168-188.
  • Citation
    YU Minggao,YANG Xufeng,ZHENG Kai,et al. Progress and development of coal mine gas explosion suppression and disaster reduction technology in China[J]. Journal of China Coal Society,2020,45 (1):168 -188.
  • 相关文章
  • 相关专题
  • 图表
    •  
    •  
    • 障碍物对瓦斯爆炸火焰传播的影响

    图(7) / 表(0)

相关问题
立即提问

主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会

©版权所有2015 煤炭科学研究总院有限公司 地址:北京市朝阳区和平里青年沟东路煤炭大厦 邮编:100013
京ICP备05086979号-16  技术支持:云智互联