基于耦合协调度的煤矿安全应急管理评价
发布时间:2019-03-17 19:38
【摘要】:针对煤矿安全应急管理主动性和协调性缺乏易导致矿难事故发生的问题,提出基于网络层次分析法(ANP)与序参量法的安全应急管理耦合协调度评价模型。通过归纳煤矿安全应急管理进程中的耦合协调度,构建包括5个子系统、11个序参量以及33个二级指标的煤矿安全应急管理耦合协调度评价指标体系。借助超级决策软件确定各指标权重,然后采用序参量法对煤矿安全应急管理的预防、准备、响应和恢复4个环节进行协调度测算。结果表明:示例煤矿安全应急管理的准备与响应两环节的各子系统协调度最高,系统整体协调度较低。
[Abstract]:The coupling coordination degree evaluation model of safety emergency management based on network analytic hierarchy process (ANP) and sequential parameter method (SPM) is proposed to solve the problem that the lack of initiative and coordination in emergency management of coal mine can easily lead to mine accidents. By summing up the coupling coordination degree in the process of coal mine safety emergency management, the evaluation index system of coupling coordination degree of coal mine safety emergency management is constructed, which includes 5 subsystems, 11 order parameters and 33 secondary indexes. The weight of each index is determined by means of super decision-making software, and then the coordination degree of prevention, preparation, response and recovery of emergency management of coal mine safety is calculated by sequential parameter method. The results show that the coordination degree of each subsystem in the preparation and response of safety emergency management is the highest and the overall coordination degree of the system is low.
【作者单位】: 淮南师范学院经济与管理学院;安徽理工大学能源与安全学院;安徽理工大学经济与管理学院;
【基金】:国家自然科学基金面上项目(51374114,51274008,51404007) 教育部人文社会科学研究项目(13YJCZH077) 安徽省教育厅人文社科重大项目(SK2014ZD046)
【分类号】:TD7
,
本文编号:2442630
[Abstract]:The coupling coordination degree evaluation model of safety emergency management based on network analytic hierarchy process (ANP) and sequential parameter method (SPM) is proposed to solve the problem that the lack of initiative and coordination in emergency management of coal mine can easily lead to mine accidents. By summing up the coupling coordination degree in the process of coal mine safety emergency management, the evaluation index system of coupling coordination degree of coal mine safety emergency management is constructed, which includes 5 subsystems, 11 order parameters and 33 secondary indexes. The weight of each index is determined by means of super decision-making software, and then the coordination degree of prevention, preparation, response and recovery of emergency management of coal mine safety is calculated by sequential parameter method. The results show that the coordination degree of each subsystem in the preparation and response of safety emergency management is the highest and the overall coordination degree of the system is low.
【作者单位】: 淮南师范学院经济与管理学院;安徽理工大学能源与安全学院;安徽理工大学经济与管理学院;
【基金】:国家自然科学基金面上项目(51374114,51274008,51404007) 教育部人文社会科学研究项目(13YJCZH077) 安徽省教育厅人文社科重大项目(SK2014ZD046)
【分类号】:TD7
,
本文编号:2442630
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