The Comprehensive Safety Evaluation Method on the Safety Situation of Iron Mine Based on AHP and Extension Theory

Feng Wang; Tie Jun Cui

doi:10.4028/www.scientific.net/AMR.616-618.208

Paper Titles

Metallogenic Series Classification for the Iron Belt of Northern Hebei and Shanxi to Western Liaoning
p.185

Experimental Investigation of the Influence of the Adsorption Gas on the Permeability Characteristics of the Coal Containing Gas
p.190

Study on Natural Core Experiment of Tracer in Porous Medium
p.197

Microstructure of Mid and High Rank Coals from Qinshui Basin, North China and its Contribution to Coalbed Meathane
p.201

The Comprehensive Safety Evaluation Method on the Safety Situation of Iron Mine Based on AHP and Extension Theory
p.208

Research and Applicability of Refraction Static Correction and Tomographic Inversion Static Correction
p.213

Characteristics of Lower Paleozoic Black Shale Reservoir in Weixin District of Northern Yunnan Province
p.217

Study on the Assemble Interpretation Method of Inter Well Tracer Test
p.223

The Physical Properties and their Prediction of Volcanic Reservoirs in Luxi Area of Junggar Basin, China
p.228

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 616-618The Comprehensive Safety Evaluation Method on the...

The Comprehensive Safety Evaluation Method on the Safety Situation of Iron Mine Based on AHP and Extension Theory

Abstract:

To solve the qualitative and quantitative problems in safety evaluation, we employ the professional knowledge of extension engineering method, analytic hierarchy process (AHP) and relevant iron mine safety evaluation index system, combined with extension engineering method and regional safety assessment to establish the matter-element model of safety evaluation analysis on iron mine safety based on extension theory. Based on the safety data of iron mines, we further analyze the influential factors of the regional safety. Firstly, these influential factors are divided into two levels based on AHP, and then the weights of two layers index are calculated respectively. Secondly, with scores measured by experts, the safety level of the influencing factors is determined based on extension theory. Finally, given the weight and safety level of the influence factors mentioned above, the safety conditions of iron mine is determined accordingly. The results of the study show that this analysis based on AHP-the extension engineering method absorb the essence of the traditional evaluation method, and minimize the defects of the various methods. The method can accurately evaluate safety level of iron mine, measure the distance between the actual safety level and adjacent safety level, and better reflect iron mine safety situation. It is of certain significance for the classification of safety situation. The method also has a broad application prospects in other engineering fields.