Entropy Weight-Fuzzy Comprehensive Evaluation Method of the Safety Evaluation of Water Inrush

Tian Jun Zhang; Jin Hu Ren; Sheng Hong Yu; Wei Cui

doi:10.4028/www.scientific.net/AMR.868.300

Paper Titles

Test Study on Dynamic Mechanical Property of Jointed Rock Mass
p.282

Numerical Analysis of Geo-Grid to Enhence Stability of Tailings Dam
p.287

Energy Saving in Mine Ventilation Roadway and its Optimization Model Solving
p.291

AE Characteristics of Overburden Rock over Metal Mine Goaf under Mining Layout
p.296

Entropy Weight-Fuzzy Comprehensive Evaluation Method of the Safety Evaluation of Water Inrush
p.300

Design of a Double CPU and Distributed Coal Mine Fault Oscillograph
p.306

The Major Problems of Mining Right Circulation Market in China
p.310

Acoustic Emission (AE) Forecasting Rock Burst Key Technology
p.314

Hydraulic Fracturing Mechanical Mechanism Analyses for Soft Seams Considering Strain Softening Character
p.319

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 868Entropy Weight-Fuzzy Comprehensive Evaluation...

Entropy Weight-Fuzzy Comprehensive Evaluation Method of the Safety Evaluation of Water Inrush

Abstract:

For the accuracy of the inrush risk assessment of the problem, put forward in the mine inrush risk assessment using the entropy weight fuzzy comprehensive evaluation method to determine the index weight, through the membership function in fuzzy comprehensive evaluation to quantify the qualitative description of these factors, evaluated the henan jiaozuo mine inrush risk. The results show that the mine water inrush risk grade is "great", the actual mine water inrush accidents have occurred, prediction results conform to the actual situation, and safety evaluation value based on the principle of maximum membership degree is more than analytic hierarchy - fuzzy comprehensive evaluation to get , 0.0696. Thus, the method in the mine inrush prediction can objectively and accurately reflect the actual situation of mine inrush.

You might also be interested in these eBooks

Exploration and Processing of Mineral Resources

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 868)

Pages:

300-305

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.868.300

Citation:

Cite this paper

Online since:

December 2013

Authors:

Tian Jun Zhang, Jin Hu Ren, Sheng Hong Yu, Wei Cui

Keywords:

Entropy Weightmethod, Fuzzy Comprehensive Evaluation (FCE), Water Inrush, Weight

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] TANG M X. Coal mine stope water inrush risk prediction [J]. Zhongzhou Coal, 1993, 2: 17~20.

Google Scholar

[2] ZHANG Y S, LIU W T. Comprehensive evaluation of the coal floor water bursting factors[J]. Coalfield Geology and investigation, 1996, 24(3): 32~36.

Google Scholar

[3] LIU W T, ZHANG W Q, LI J X. Using the analytic hierarchy - fuzzy evaluation of the safety evaluation of water inrush[J]. Coal Society, 2000, 25(3): 278~282.

Google Scholar

[4] LIU W T, ZHAO Q M, ZHANG Z. Prediction and evaluation of water inrush experts rated the Analytic Hierarchy Process [J]. Ground Pressure and Strata Management, 2001, 4: 97~99.

Google Scholar

[5] JIN J L, WEI Y M, DING J. Fuzzy comprehensive evaluation model based on improved analytic hierarchy process[J]. Journal of Hydraulic Engineering, 2004, (3): 65~70.

Google Scholar

[6] YIN W C, YIN Z D, SHI L Q. Mine water inrush causes and prevention[J]. Jiaozuo Institute of Technology, 1999, 18(1): 18~21.

Google Scholar

[7] SHI L Q. Research inrush from floor mechanism of water[J]. Shandong University of Science and Technology, 2009, 28(3): 17~23.

Google Scholar

[8] WANG Y H, GUAN Y B, ZHANG J H. Floor strata of coal seam water bursting factors and the role of analysis[J]. HeiBei Coal, 2000, (2): 4~6.

Google Scholar

[9] DENG H, XIU T. Mine of water inrush Factor Analysis and Prevention[J]. Shandong Coal Technology, 2011, (4): 221~222.

Google Scholar

[10] AN X, ZHOU W B, MA Y, et al. Fuzzy comprehensive evaluation method based on entropy weight in water security [J]. Water Resources and Water Engineering, 2010, 21(6): 137~139.

Google Scholar