>> 自然科学版期刊 >> 2024 >> 2024年03期 >> 正文
深部采空区煤自燃早期预测预报方法研究
供稿: 晁江坤, 刘爽, 胡代民, 韩学锋, 余明高, 潘荣锟 时间: 2024-05-15 次数:

晁江坤, 刘爽, 胡代民等.深部采空区煤自燃早期预测预报方法研究[J].河南理工大学学报(自然科学版),2024,43(3):34-41.

CHAO J K , LIU S , HU D M , et al.Study on early prediction method of coal spontaneous combustion in deep goaf[J].Journal of Henan Polytechnic University(Natural Science) ,2024,43(3):34-41.

深部采空区煤自燃早期预测预报方法研究

晁江坤1,2, 刘爽1, 胡代民1, 韩学锋1, 余明高1, 潘荣锟1,2

1.河南理工大学 安全科学与工程学院,河南 焦作  454000 2.河南理工大学 煤炭安全生产与清洁高效利用省部共建协同创新中心,河南 焦作  454000

摘要: 目的 煤矿深部开采中出现的三高一扰动特点,导致深部采空区煤自燃危险区域出现判定困难和煤自燃早期预测预报理论依据不足等问题。  方法 在分析深部高应力条件下,煤氧化气体衍生规律的基础上,计算不同轴向应力下煤体的格雷哈姆系数和链烷比,  结果 结果表明:不同承压状态下,煤样氧化自燃过程中COCO2气体的生成量随温度升高而增加;相同温度条件下,随着轴向应力增加,COCO2气体的生成量先增加后减小。相同温度条件下,随着轴向应力增大,格雷哈姆系数先增大后减小,R19 MPa时达到极大值,R26 MPa时达到极大值,R39 MPa时达到极大值;相同轴向应力条件下,随着煤样室内温度升高,格雷哈姆系数基本呈线性变化。相同温度条件下,随着轴向应力增加,煤样的链烷比逐渐增大;不同承压状态下链烷比随着温度升高而升高。  结论 研究结果可为深部煤自燃早期预测预报提供理论依据。  

关键词:煤自燃;深部开采;预测预报;格雷哈姆系数;链烷比

doi:10.16186/j.cnki.1673-9787.2022050018

基金项目:国家自然科学基金资助项目(52004084);河南省重点研发与推广专项(科技攻关)项目(22210232012422210232006

收稿日期:2022/05/11

修回日期:2023/05/29

出版日期:2024/05/15

Study on early prediction method of coal spontaneous combustion in deep goaf

CHAO Jiangkun1,2, LIU Shuang1, HU Daimin1, HAN Xuefeng1, YU Minggao1, PAN Rongkun1,2

1.College of Safety Science and EngineeringHenan Polytechnic UniversityJiaozuo  454000HenanChina2.Collaborative Innovation Center of Coal Work Safety and Clean High Efficiency UtilizationJiaozuo  454000HenanChina

Abstract: Objectives The characteristics of “three highs and one disturbance” in the process of deep mining bring problems such as difficulty in determining the risk area of spontaneous combustion in deep mining areas and unclear early prediction and reporting of coal spontaneous combustion.  Methods Based on the analysis of coal oxidation gas derivation law under deep high stress conditionsthe Graham coefficient and alkane ratio of coal bodies under different stresses are calculated.  Results The results showed that the production of CO and CO2 gas increased with the increase of temperature during the oxidative spontaneous combustion of coal samples under different pressure conditionsUnder the same temperature conditionsthe production of CO and CO2 gas showed a trend of increasing and then decreasing with the increase of axial stress.At the same temperaturewith the increase of axial stressthe Graham coefficient increases first and then decreases. R2 reaches the maximum at 6 MPaR3reaches the maximum at 9 MPa and R1 reaches the maximum at 9 MPaUnder the condition of the same axial stressthe Graham coefficient basically changes linearly with the increase of indoor temperature of coal samples.At the same temperaturethe alkane ratio of coal samples increases with the increase of axial stressThe alkane ratio under different pressure conditions basically shows an increasing trend with the increase of temperature.  Conclusion The research results offer a theoretical foundation for the early prediction of deep coal spontaneous combustion.  

Key words:coal spontaneous combustion;deep mining;prediction;Graham coefficient;alkane ratio

最近更新