The Research on Evaluation Index System of Mine Thermal Environment

Hong Wei Zhang; Song Xin; Chong Zhan Jia

doi:10.4028/www.scientific.net/AMR.962-965.1106

Paper Titles

Study on Strata Movement Control of Twice Strip Mining
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Testing Research on the Shape of the Bearing Push-Extend Reamed Affecting the Bearing Capability of the Pile of Push-Extend Multi-Under-Reamed Pile
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The Airflow Abnormal Value Analysis of Mine Ventilation Network Based on the Sensitivity
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The Orthogonal Test and Optimal Decision for the Development of New Backfill Cementing Materials Based on the Rod Milling Sand
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The Research on Evaluation Index System of Mine Thermal Environment
p.1106

Theoretical Analysis and Validation of Factors Affecting the Permeability on Coal Containing Gas
p.1112

Analysis of Adsorbed Methane Gas Structure and Mullikan Charges
p.1118

The Mine Pressure Management and Control Fully-Mechanized Coal Working Face Roof and Floor of Soft Strata
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Analysis of near Miss Reporting will in China Coal Mines: An Empirical Study
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 962-965The Research on Evaluation Index System of Mine...

The Research on Evaluation Index System of Mine Thermal Environment

Abstract:

The typical high temperature environment of the mine, using single index evaluation system has been unable to meet the requirements of mine thermal environment of high temperature. Through the analysis of thermal equilibrium conditions affecting the thermal comfort of the mine workers of various factors and human thermal exchange model, that the decision to control the environment and human factors is the average temperature of the heat exchange of the skin. For high-temperature thermal defects existing mine environmental assessment indicators, the average temperature in the heat to the skin comfort zone as an index, the index system is established based on theoretical calculations WSBGT of mine thermal environment for effective assessment, provide the basis for mine cooling design.

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Info:

Periodical:

Advanced Materials Research (Volumes 962-965)

Pages:

1106-1111

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.962-965.1106

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Online since:

June 2014

Authors:

Hong Wei Zhang*, Song Xin, Chong Zhan Jia

Keywords:

Indicators, Skin Average Temperature, Thermal Damage Assessment

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* - Corresponding Author

References

[1] Guo Ping industry . Deep characteristics of temperature field and thermal damage control mode study [D]. Beijing : China University of Mining and Technology, 2010.

Google Scholar

[2] OF CIVIL . Deep mine Sanhejian heat injury resource utilization technology [D]. Beijing : China University of Mining and Technology, 2010.

Google Scholar

[3] Zhu Zhu dragon. Technology research [D] coalface machinery cooling fluid organizational optimization. Wuhan: Wuhan University of Technology , 2010.

Google Scholar

[4] Liu Guan male . High temperature coal face heat injury mechanism and airflow characteristics of heat - flow theory and numerical simulation [D]. North Beijing : China University of Mining and Technology, 2010: 53 -76 .

Google Scholar

[5] Zhang Guoshu , Tan Yun Zhen , Chen Kai Yan , et al. Ventilation Safety Science [M]. Xuzhou : China University of Mining and Technology Press , (2000).

Google Scholar

[6] Zhu Bofang principle and application of the finite element method (second edition ) [M] Beijing : China Water Power Press, 1998 : 270-287.

Google Scholar

[7] Fujun . Computational fluid dynamics analysis -CFD Software Principles and Applications [M]. Beijing : Tsinghua University Press , 2004: 7-13.

Google Scholar

[8] Hanzhan Zhong , Wang Jing , blue squares . FLUENT fluid engineering simulation examples and application [M]. Beijing : Beijing Li Workers University Press , 2004: 14 -19.

Google Scholar