Study on Safety Assessment Modeling in Sijiaying Open-Pit Iron Mine

Ming Juan Lu; Ming Zhu; Wen Sheng Liu; Ai Xia Zhang; Li Xin Ai; Ji Huan Peng; Lian Guang Ning; Hua Li

doi:10.4028/www.scientific.net/AMR.429.200

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 429Study on Safety Assessment Modeling in Sijiaying...

Study on Safety Assessment Modeling in Sijiaying Open-Pit Iron Mine

Abstract:

Based on the analysis of potential safety problems and main factors effecting on safety in mining process, safety evaluation index system was constructed for Sijiaying Open-pit Iron Mine. The fuzzy subjection degrees are determined by setting up the fuzzy membership function, numerical value statistic and expert evaluation method. Analytic hierarchy process and fuzzy set method have been used to build the mathematic model, and then the evaluation results were given for reveal the disfigurement in mining process.

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Periodical:

Advanced Materials Research (Volume 429)

Pages:

200-205

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.429.200

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Online since:

January 2012

Authors:

Ming Juan Lu, Ming Zhu, Wen Sheng Liu, Ai Xia Zhang, Li Xin Ai, Ji Huan Peng, Lian Guang Ning, Hua Li

Keywords:

Analysis Hierarchy Process (AHP), Fuzzy Set, Large Open-Pit Mine, Safety Comprehensive Evaluation

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References

[1] Xiang Ren, AiyinWei g. Demolition slungshot control and prevention[J] Mining Technology, 2005(3): 51~53.

Google Scholar

[2] Xinggang Niu. The metal nonmetallic strip mine mining surface and the final side slope security and the efficient quantitative analysis appraise[J]. Chinese Safety in Production Science and Technology, 2008(8): 151~154.

Google Scholar

[3] Liping Wu, Shiyao Wu, Guo Yingyi. Fuzzy mathematics in mine safety quality synthetic evaluation application[J]. Taiyuan: Journal of Taiyuan University of Technology, 2006 (3): 131-133.

Google Scholar

[4] Renshan Xie, Xianhua Wang. Analytic hierarchy process in safety evaluation related target evaluation application[J]. Industrial Safety and Prevention, 1996（1）: 31-34.

Google Scholar

[5] Caiyun Wei, Kai Wang. Based on OSHMS coal mine fuzzy synthesis safety evaluation model establishment[J]. Chinese Safety Science Journal, 2008（6）: 142~145.

Google Scholar

[6] Qigen Deng, Jianping Wei, Qinggui Cao, Management and assessment of coal mine safety based on manmachine-environment System[C]. Progress in safety Science and Techine-environment System Parta, 2008(7): 98-101.

Google Scholar

[7] Dongzhou Yao, Lush Ming i. Rail transit project risk evaluation based on AHP model[C]. The Second International Conference on Information and Comprter Science, 2009(13): 236-238. Chapman C, Ward S. Project Risk Management: Processes, Techniques and Insights[M]. John Wiley, 1997: 56-89.

DOI: 10.1109/icic.2009.265

Google Scholar