International Journal of Mechanical Engineering and Applications

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The Solution of the Overvoltage Damage for IMS’s Microseismic Monitoring System

Received: Aug. 01, 2018    Accepted: Sep. 04, 2018    Published: Oct. 15, 2018
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Abstract

With the further development of digitized mine system construction, various kinds of communication,information,automatic and intelligent electronic equipment are widely used in mines. Due to the harsh underground environment of domestic (China) mines, various faults of electronic equipment occur frequently, such as dampness, dust pollution, burn damage, mechanical damage. This makes the system can not run stably and reliably. Especially the phenomenon of burning damage of electronic equipment. It is often large area damage when it happens, which seriously affects the safety production of enterprises. The IMS equipment of microseismic monitoring system that installed in Shizhuyuan Mine was burning damaged many times. Through the in-depth analysis and diagnosis of the failure of the IMS burning module and the overall microseismic monitoring system underground chamber, the fault (which is the system overvoltage) and its causes are found out. According to the reality condition of Shizhuyuan mine that how to prevent the overvoltage damage is systematic analysis and improvement. Than adopt effective measure and methods such as: prevention of overvoltage generation, cut off the intrusion pathway of overvoltage, choosing the surge protector reasonably with the insulation level of the system, switch to the right power supply plan and power supply facilities. These protective measures and methods comprehensively protect the safety of microseismic monitoring system equipment. After that, the microseismic monitoring system is successfully protected and no longer burned down. It successfully solves the problem of equipment burning damage of microseismic monitoring system, provides reliable guarantee for mine safety production. Shizhuyuan mine is a typical underground mining metal ore in China, the successfully solution of overvoltage damage provides a good demonstration for how to prevent mine electronic equipment underground from burning damage, It also provides more standardized and accurate requirements for the way and the protection of power supply system, and the laying of lines for a new projects.

DOI 10.11648/j.ijmea.20180604.12
Published in International Journal of Mechanical Engineering and Applications ( Volume 6, Issue 4, August 2018 )
Page(s) 98-103
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Microseismic Monitoring System, Protection, Overvoltage, Damage

References
[1] XUN Xue-mei, CHEN Ri-hui. Construction of Six Safe Danger Hedge System in Dahongshan Copper Mine [J]. China Mine Engineering (in Chinese), 2016, 45(6):12-15.
[2] WU Di-wen, KOU Xiang-yu. Research on Merge Construction of Digital Mine and “Six System” [J]. Mining R & D(in Chinese), 2016, (10):120-123.
[3] IA Jing. Application Research on Microseismic Monitoring Technology in Coalmine Water Control [J]. Coal and Chemical Industry(in Chinese), 2017, 40(1):16-20.
[4] CHEN Xiang-xiang, SU Zhen-hao, LI Lin-fei, et al. Application of Microseismic Monitoring System in a Tungsten Mine [J]. China tungsten Industry(in Chinese), 2016, 31(4):26-31.
[5] WANG Xu, TANG Shao-hui, GUO Xiao-qiang. Application of Microseismic monitoring Technology in Complex Goaf Group [J]. Mining R & D (in Chinese), 2017, 37(4):1-4.
[6] CHEN Hai-xia. Application of Microseismic Monitoring Technique on High Rock Slope Stability of Highway [J]. China Harbour Engineering (in Chinese), 2017, 37(6):81-86.
[7] ZHANG Chu-xuan, LI Xi-bing, DONG Long-jun, et al. Analysis of microseismic activity parameters pre-and post roof caving and early warning [J]. Chinese Journal of Rock Mechanic and Engineering (in Chinese), 2016, 35(supp 1):3214-3221.
[8] MA Tian-hui, TANG Chun-an, TANG Lie-xian, et al. Mechanism of rock burst forcasting based on micro-seismic monitoring technology [J]. Chinese Journal of Rock Mechanic and Engineering (in Chinese), 2016, 35(3):470-483.
[9] LYU Lei, ZHANG Jiao-fu, ZHU Quan-jie, et al. Construction phase space and determination of chaotic attractor dimension for time series of mine microseismic. [J] Journal of Safety Science and Technology. 2016, 12(2), 27-32
[10] LUO Yu-hui. Analysis of Neutral Grounding Mode in Power System [J]. New Technology & New Products of China (Chinese), 2017, 7:21-22.
[11] YAO Jin-han. Analysis of the Cause of Grounding Transformer Burnout and the Advantages & Disadvantages of Using Grounding Transformer [J]. New Technology & New Products of China (Chinese), 2017, 1:147-148.
[12] LIU Jin-xian. Analysis of Neutral Voltage Displacement Solution for Mine Distribution Network [J]. Electronic Test (Chinese), 2016, 12:145-146.
[13] Hou Yi-ming, Yu Hui, Wang Xi-wei. Grounding Mode and Overvoltage Protection of Distribution System [M] Asian Power Quality Alliance China cooperation group editor, Beijing, China Electric Power Publishing House, 2015, No.1 version.
[14] ZHENG Xue-lin. Analysis of Lightning Induced Overvoltage Characteristics of 10kV Distribution Lines [J]. Technological Development of Enterprise (Chinese), 2016, 35(2):86-87.
[15] XIA Neng-hong, GUO Jie, TIAN Meng-lin. Analysis of Induced Overvoltages in Low-Voltage Installations During Direct Strikes to LPS of Building [J]. Insulators and Surge Arresters (Chinese), 2017, 5(279):47-53.
[16] LI Yong-pan. The Protection for Single Phase Grounding Fault of Mine Power System [J]. Modern Mining (Chinese), 2017, 2:211-212, 214.
[17] REN Yuan-hui. Fault Prevention and Selection of Electrical Protective Device in Low Voltage Distribution System [J]. Building Electricity (in Chinese), 2016, (7):3-10.
[18] People's Republic of China Ministry of housing and urban rural development approval, China Coal Construction Association. GB50070-2009, Design code for mine electric power [S] Beijing: China planning Publishing House, 2009.
[19] People's Republic of China Ministry of housing and urban rural development approval, Editor in chief China Machinery Industry Federation. GB50057-2010, Design code for protection of structures against lightning [S] People's Republic of China Ministry of construction, People's Republic of China State Administration of quality supervision, inspection and Quarantine jointly issued, Beijing, 2010.
[20] People's Republic of China Ministry of housing and urban rural development approval, Editor in chief Sichuan Department of housing and urban and rural construction. GB50343-2012, Technical Code for Protection of Building Electronic Information System Against Lightning [S] People's Republic of China Ministry of construction, People's Republic of China State Administration of quality supervision, inspection and Quarantine jointly issued, Beijing, 2012.
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  • APA Style

    Chen Ruxiu, Liao Hua. (2018). The Solution of the Overvoltage Damage for IMS’s Microseismic Monitoring System. International Journal of Mechanical Engineering and Applications, 6(4), 98-103. https://doi.org/10.11648/j.ijmea.20180604.12

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    ACS Style

    Chen Ruxiu; Liao Hua. The Solution of the Overvoltage Damage for IMS’s Microseismic Monitoring System. Int. J. Mech. Eng. Appl. 2018, 6(4), 98-103. doi: 10.11648/j.ijmea.20180604.12

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    AMA Style

    Chen Ruxiu, Liao Hua. The Solution of the Overvoltage Damage for IMS’s Microseismic Monitoring System. Int J Mech Eng Appl. 2018;6(4):98-103. doi: 10.11648/j.ijmea.20180604.12

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  • @article{10.11648/j.ijmea.20180604.12,
      author = {Chen Ruxiu and Liao Hua},
      title = {The Solution of the Overvoltage Damage for IMS’s Microseismic Monitoring System},
      journal = {International Journal of Mechanical Engineering and Applications},
      volume = {6},
      number = {4},
      pages = {98-103},
      doi = {10.11648/j.ijmea.20180604.12},
      url = {https://doi.org/10.11648/j.ijmea.20180604.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijmea.20180604.12},
      abstract = {With the further development of digitized mine system construction, various kinds of communication,information,automatic and intelligent electronic equipment are widely used in mines. Due to the harsh underground environment of domestic (China) mines, various faults of electronic equipment occur frequently, such as dampness, dust pollution, burn damage, mechanical damage. This makes the system can not run stably and reliably. Especially the phenomenon of burning damage of electronic equipment. It is often large area damage when it happens, which seriously affects the safety production of enterprises. The IMS equipment of microseismic monitoring system that installed in Shizhuyuan Mine was burning damaged many times. Through the in-depth analysis and diagnosis of the failure of the IMS burning module and the overall microseismic monitoring system underground chamber, the fault (which is the system overvoltage) and its causes are found out. According to the reality condition of Shizhuyuan mine that how to prevent the overvoltage damage is systematic analysis and improvement. Than adopt effective measure and methods such as: prevention of overvoltage generation, cut off the intrusion pathway of overvoltage, choosing the surge protector reasonably with the insulation level of the system, switch to the right power supply plan and power supply facilities. These protective measures and methods comprehensively protect the safety of microseismic monitoring system equipment. After that, the microseismic monitoring system is successfully protected and no longer burned down. It successfully solves the problem of equipment burning damage of microseismic monitoring system, provides reliable guarantee for mine safety production. Shizhuyuan mine is a typical underground mining metal ore in China, the successfully solution of overvoltage damage provides a good demonstration for how to prevent mine electronic equipment underground from burning damage, It also provides more standardized and accurate requirements for the way and the protection of power supply system, and the laying of lines for a new projects.},
     year = {2018}
    }
    

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  • TY  - JOUR
    T1  - The Solution of the Overvoltage Damage for IMS’s Microseismic Monitoring System
    AU  - Chen Ruxiu
    AU  - Liao Hua
    Y1  - 2018/10/15
    PY  - 2018
    N1  - https://doi.org/10.11648/j.ijmea.20180604.12
    DO  - 10.11648/j.ijmea.20180604.12
    T2  - International Journal of Mechanical Engineering and Applications
    JF  - International Journal of Mechanical Engineering and Applications
    JO  - International Journal of Mechanical Engineering and Applications
    SP  - 98
    EP  - 103
    PB  - Science Publishing Group
    SN  - 2330-0248
    UR  - https://doi.org/10.11648/j.ijmea.20180604.12
    AB  - With the further development of digitized mine system construction, various kinds of communication,information,automatic and intelligent electronic equipment are widely used in mines. Due to the harsh underground environment of domestic (China) mines, various faults of electronic equipment occur frequently, such as dampness, dust pollution, burn damage, mechanical damage. This makes the system can not run stably and reliably. Especially the phenomenon of burning damage of electronic equipment. It is often large area damage when it happens, which seriously affects the safety production of enterprises. The IMS equipment of microseismic monitoring system that installed in Shizhuyuan Mine was burning damaged many times. Through the in-depth analysis and diagnosis of the failure of the IMS burning module and the overall microseismic monitoring system underground chamber, the fault (which is the system overvoltage) and its causes are found out. According to the reality condition of Shizhuyuan mine that how to prevent the overvoltage damage is systematic analysis and improvement. Than adopt effective measure and methods such as: prevention of overvoltage generation, cut off the intrusion pathway of overvoltage, choosing the surge protector reasonably with the insulation level of the system, switch to the right power supply plan and power supply facilities. These protective measures and methods comprehensively protect the safety of microseismic monitoring system equipment. After that, the microseismic monitoring system is successfully protected and no longer burned down. It successfully solves the problem of equipment burning damage of microseismic monitoring system, provides reliable guarantee for mine safety production. Shizhuyuan mine is a typical underground mining metal ore in China, the successfully solution of overvoltage damage provides a good demonstration for how to prevent mine electronic equipment underground from burning damage, It also provides more standardized and accurate requirements for the way and the protection of power supply system, and the laying of lines for a new projects.
    VL  - 6
    IS  - 4
    ER  - 

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Author Information
  • Department of Mechanical & Electrical, Cotech Engineering Fuzhou CORP, Fuzhou, China

  • Department of Information, Hunan Shizhuyuan Nonferrous Metals CO, LTD, Chenzhou, China

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