基于伪随机序列的松散煤体声学测温方法及应用  被引量：1

作　　者：郭军 高文静[1,2] 蔡国斌 刘荫 王凯旋 GUO Jun;GAO Wenjing;CAI Guobin;LIU Yin;WANG Kaixuan(School of Safety Science and Engineering,Xi'an University of Science and Technology,Xi'an 710054,China;Key Laboratory of Western Mine Mining and Disaster Prevention and Control,Ministry of Education,Xi'an 710054,China;National Mine Emergency Rescue Xi’an Research Center,Xi'an 710054,China)

机构地区：[1]西安科技大学安全科学与工程学院,陕西西安710054 [2]西部矿井开采及灾害防治教育部重点实验室,陕西西安710054 [3]国家矿山救援(西安)研究中心,陕西西安710054

出　　处：《煤炭科学技术》2024年第6期123-131,共9页Coal Science and Technology

基　　金：国家自然科学基金青年科学基金资助项目(52004209);国家自然科学基金面上资助项目(52174198,52174197)。

摘　　要：长期以来,采空区、煤堆、煤仓等空间的煤自燃火灾时有发生,受限于工作区域的复杂环境和火源探测技术瓶颈等因素,较难实现煤自燃灾害高温点的快速量化识别。而声学测温技术具有测量精度高、测温范围宽、测量空间大等特点,可实现采空区等隐蔽火源位置精准探测且极具发展前景。目前该技术在松散煤体温度测量领域尚处于基础研究和实验室研究阶段,仍需开展大量研究。基于伪随机序列的优越性能,将其引入作为声源信号,并根据声学测温原理和伪随机序列声源信号产生原理,搭建了松散煤体声波测温试验系统。系统主体部分包括声学测试系统、程序升温系统、隔音系统和煤样箱体,结合试验测试和仿真模拟方法,验证了系统的准确性。利用理论分析、Matlab仿真和试验测试相结合的方法,开展伪随机序列声源信号的失真特性研究,确定了该信号的最佳处理方法,成功将其应用于松散煤体测温中。结果表明:伪随机序列可以作为采空区、煤堆、煤仓等空间的松散煤体声学测温的声源信号,但需运用二次相关PHAT–β算法对伪随机序列声源信号发生频率区间(1000~3000 Hz)进行处理,使频带变窄,能量集中;运用伪随机序列声源信号测量声波在松散煤体中飞渡时间,发现不同距离下声波飞渡时间测量结果误差小于5%,并通过了对比验证;伪随机序列作为松散煤体的测温声源信号时,所反演温度与不同粒径的煤样温度之间的平均绝对误差为2.051℃,平均误差率5.293%,能够较为精准、可靠地反演煤温。For a long time,spontaneous coal combustion fires in the air mining area,coal pile,coal silo and other spaces occur from time to time,and it is more difficult to realize the rapid quantitative identification of the high temperature point of the spontaneous coal combustion disaster due to factors such as the complex environment of the working area and the bottleneck of the fire source detection technology.The acoustic temperature measurement technology has the characteristics of high measurement accuracy,wide temperature measurement range,large measurement space,etc.,which can realize the accurate detection of the hidden fire source location in the air mining area and other hidden fire sources and is very promising for development.At present,this technology is still in the stage of basic and laboratory research in the field of temperature measurement of loose coals,and a lot of research still needs to be carried out.Based on the superior performance of pseudo-random sequences,they were introduced as acoustic source signals,and an experimental system for acoustic temperature measurement of loose coals was constructed according to the principle of acoustic temperature measurement and the principle of pseudo-random sequence acoustic source signal generation.The main part of the system includes an acoustic test system,a programmed warming system,a soundproofing system and a coal sample box,and the accuracy of the system was verified by combining experimental tests and simulation and modelling methods.Using a combination of theoretical analysis,Matlab simulation and experimental testing,we carried out a study on the distortion characteristics of the pseudo-random sequence acoustic source signal,determined the optimal processing method for this signal,and successfully applied it to the temperature measurement of loose coals.The results show that pseudorandom sequences can be used as sound source signals for the acoustic temperature measurement of loose coal bodies in the space of airmining areas,coal piles,and coal silo

关 键 词：声学测温 松散煤体 伪随机序列 声源信号 声波飞渡时间 

分 类 号：TD75[矿业工程—矿井通风与安全]