• Chinese Core Periodicals
  • Chinese Core Journals of Science and Technology
  • RCCSE Chinese Authoritative Academic Journals
Email Alert RSS
Advanced Search
WANG Yanmeng, BAI Haibo. Development Law of Water-flowing Fractured Zone in Sima Mine Thin Bedrock Area[J]. Safety in Coal Mines, 2015, 46(3): 25-28.
Citation: WANG Yanmeng, BAI Haibo. Development Law of Water-flowing Fractured Zone in Sima Mine Thin Bedrock Area[J]. Safety in Coal Mines, 2015, 46(3): 25-28.
shu

Development Law of Water-flowing Fractured Zone in Sima Mine Thin Bedrock Area

More Information
  • Published Date: March 19, 2015
    Graphical Abstract
    • Abstract
  • In order to get the development law of water-flowing fractured zone of thin bedrock in Sima Mine,we analyzed the distribution characteristics and rock mechanics characteristics of the thin bedrock.Then the empirical formula was used to calculate the development height of water-flowing fractured zone.At the same time, the coal mining was simulated by using the RFPA2D.The results show that the general trend of thin bedrock of 3# coal seam is synclinal.The local of the thin bedrock has small uplift and grooves.The range of the thickness of the thin bedrock is 30 m to 80 m. The strength of the whole based rock pillar is over 40 MPa.So it belongs to hard rock. The empirical formula was used,and the height of the water flowing fractured zone of 3# coal seam in Sima mine is from 47.3 m to 83.5 m. The result is basically consistent with the numerical simulation. Numerical simulation obtained the maximum development height of 85 m.
    • FullText(HTML)
    • References (9)
  • [1]
    贺桂成,肖富国,张志军,等.康家湾矿含水层下采场导水裂隙带发育高度预测[J].采矿与安全工程学报,2011,28(1):122-126.
    [2]
    胡金生,乐建,李涛.导水裂隙带发育高度数值模拟研究[J].能源技术与管理,2009(3):7-9.
    [3]
    崔希民,陈至达.非线性几何场论在开采沉陷预测中的应用[J].岩土力学,1997,18(4):24-29.
    [4]
    许家林,钱鸣高.覆岩采动裂隙分布特征的研究[J].矿山压力与顶板管理,1997,3(4):210-212.
    [5]
    许家林,钱鸣高,高红新.采动裂隙实验结果的量化方法[J].辽宁工程技术大学:自然科学版,1998,17(6):586-589.
    [6]
    许家林,钱鸣高.岩层采动裂隙分布在绿色开采中的应用[J].中国矿业大学学报,2004,33(2):141.
    [7]
    黄庆享.浅埋煤层长壁开采顶板结构及岩层控制研究[M].徐州:中国矿业大学出版社,2000.
    [8]
    涂敏,桂和荣,李明好,等.厚松散层及超薄覆岩厚煤层防水煤柱开采试验研究[J].岩石力学与工程学报,2004,23(20):3494-3497.
    [9]
    武雄,汪小刚,段庆伟,等.导水断裂带发育高度的数值模拟[J].煤炭学报,2008,33(6):609-612.
    • Related Articles

  • Related Articles

    [1]QIU Nianguang, LI Songying, YAN Guocai, YAO Xiaoshuai, ZHANG Wanpeng, JIN Mingfang, ZHAO Hongli. Transient electromagnetic response characteristics and application of roof water channel[J]. Safety in Coal Mines, 2024, 55(7): 179-187. DOI: 10.13347/j.cnki.mkaq.20230860
    [2]ZHENG Chunshan, DONG Yangyang, XUE Sheng, JIANG Bingyou, ZHAO Yang. Experimental study on porosity and permeability characteristics of damaged coal in different shear end faces and confining pressures[J]. Safety in Coal Mines, 2024, 55(3): 1-8. DOI: 10.13347/j.cnki.mkaq.20230969
    [3]JIAO Wenjie, JI Guangzhong, TANG Xuewu, LIU Zhenming. Analysis of response characteristics of fault structural channel wave in viscoelastic coal seam[J]. Safety in Coal Mines, 2023, 54(1): 154-160.
    [4]ZHU Guiwang, REN Bo, YU Guofeng, WANG Minhua, DANG Baoquan, LUO Jiangfa, LI Lianchong, MU Wenqiang. Micro-seismic response characteristics of rock mass deterioration induced by mining in fault zone[J]. Safety in Coal Mines, 2022, 53(5): 176-181.
    [5]QIN Xinglin. Study on Response Law of Coal Pore Structure and Permeability Affected by Different Time of Acidification[J]. Safety in Coal Mines, 2020, 51(12): 18-22.
    [6]LI Huigui, GAO Baobin, WANG Honglei, LI Huamin. Numerical Simulation on Change of Equivalent Permeability of Coal Rock Under Different Stress Ratios[J]. Safety in Coal Mines, 2020, 51(11): 195-200.
    [7]LU Zhanjin, LI Shengzhou. Experimental Study on Permeability and Strain Characteristics of Coal Containing Gas[J]. Safety in Coal Mines, 2020, 51(6): 1-4.
    [8]ZHANG Chunwang, LI Shaoquan. Pore Structure and Gas Adsorption Characteristics of Coal with Low Permeability[J]. Safety in Coal Mines, 2019, 50(1): 21-24.
    [9]CHEN Jianqiang, LI Hongjie, LIAN Yuguang, FAN Linlin, HAO Yujun. Transient Electromagnetic Response Characteristics of Large Iron Interference in Mine[J]. Safety in Coal Mines, 2018, 49(10): 139-142.
    [10]SUN Guangzhong, XU Xing, TIAN Kunyun, ZHANG Ruilin. Experimental Research on Response Characteristics of Permeability of Coal Containing Gas on Axial Cycle Loading[J]. Safety in Coal Mines, 2016, 47(6): 29-32.

  • Cited by

    Periodical cited type(1)

    1. 孙元田,李桂臣,常庆粮,李菁华,杨森. 基于智能反演的等效型煤构建方法、原理与技术. 采矿与安全工程学报. 2022(06): 1210-1217 .

    Other cited types(4)

Catalog

    Get Citation
    XML
    Article views (463) PDF downloads (0) Cited by(5)
    Turn off MathJax
    Article Contents
    Abstract
    References
    Related Articles
    Links

    辽公网安备 21049802000106号 辽ICP备11020636号-9

    Website Copyright © CCTEG Shenyang Research Institute

    Address:No. 11 Binhe Road, Fushun Economic Development Zone, Liaoning Postal Code:113122

    Tel:024-56616988/56616881 Email:mkaq@163.com

    Supported by: Beijing Renhe Information Technology Co., Ltd. Baidu Analytics

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return