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Volume 3 Issue 4
Dec.  2015
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YANG Yun, WU Jian-feng, LIU De-peng. 2015: Numerical modeling of water yield of mine in Yangzhuang Iron Mine, Anhui Province of China. Journal of Groundwater Science and Engineering, 3(4): 352-362.
Citation: YANG Yun, WU Jian-feng, LIU De-peng. 2015: Numerical modeling of water yield of mine in Yangzhuang Iron Mine, Anhui Province of China. Journal of Groundwater Science and Engineering, 3(4): 352-362.

Numerical modeling of water yield of mine in Yangzhuang Iron Mine, Anhui Province of China

  • Publish Date: 2015-12-28
  • This study develops a three-dimensional heterogeneous numerical model to simulate the water inrush process and predict the water yield for mineral exploration in Yangzhuang Iron Mine in Anhui Province. To identify the hydrogeological parameters of the aquifer in the study area, the model was calibrated and validated using the observed heads through the integrated trial-and-error and automated techniques. Also, the sensitivity analysis of the model was performed to evaluate the uncertainty associated with the calibrated model. According to the mine construction plan at different mining levels of -500 m, -600 m, and -700 m, the calibrated model was then applied to predict the water yields dependent on the different mining levels. As indicated by the prediction results, the numerical simulation model can systematically describe the groundwater system in the mining area and determine the source of water inrush in this iron mine. In conclusion, numerical analyses carried out in this study can provide guidance to decision-makers in balancing the iron ore mining and mine dewatering in the future.
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  • ZHANG Yun-xun, HU She-rong, et al. 2014. The analysis of the coal floor water inrush affected by the fault. Applied Mechanics and Materials, 535: 626-630.
    WANG Rui-hua, FU Yong, WANG Hong-yu. 2009. Prediction on water discharging in Liliangdian coalmine area. Zhongzhou Coal, (10): 26-28.
    ZHU Xue-yu, LIU Jian-li, et al. 2000. Characteristics of distribution and transport of petroleum contaminants in fracture-karst water in Zibo area, Shandong Province, China. Science in China Series D: Earth Sciences, 43(2):141-150.
    ZHOU Juan, XING Li-ting, et al. 2013. Mechanism analysis of water-filling based on material properties in jinjie mine, NW China. Advanced Materials Research, 700:239-242.
    ZHANG Yi-fan. 2014. Physics-based groundwater inversion of fractured aquifers with unknown boundary conditions. Thesis for the Master of Science Degree. Laramie: University of Wyoming, 63.
    LIU Wei-tao, SHEN Jian-jun, WANG Lian-fu. 2012. Numerical simulation on lag water- bursting at fault zone based on FLAC3D. Journal of Liaoning Technical University (Natural Science), 31(5): 646-649.
    SHEN Jian-jun, LIU Wei-tao, et al. 2013. Prevention and control technology research on lagging water-bursting of roadway in deep mine. Journal of Liaoning Technical University (Natural Science), 32(8): 1009- 1014.
    LI Lian-chong, TANG Chun-an, et al. 2009. Numerical analysis of pathway formation of groundwater inrush from faults in coal seam floor. Chinese Journal of Rock Mechanics and Engineering, 28(2): 290-297.
    WU Jian-feng, ZHU Xue-yu, QIAN Jia-zhong. 2000. Application of GASAPF to the management model for fracture-karst water resources in Xuzhou City. In: WANG Yan-xin, LIANG Xing. Proceedings of the International Symposium on Hydrogeology and the Environment. Beijing: China Environmental Science Press, 450-457.
    Harbaugh A W, Banta E R, et al. 2000. MODFLOW-2000, The U.S. geological survey modular groundwater model: User guide to modularization concepts and the groundwater flow process. Reston: U.S. Geological Survey, Open-file Report, 00-92.
    LIN Zhong-xiang, CHEN Xiang-gui. 2010. Analysis on gushing water in complex karst mining area-A case in ferromanagance mine II in Daoxian, Hunan Province. Carsologica Sinica, 29(1): 62-69.
    QIAN Jia-zhong, ZHAN Hong-bin, et al. 2006. Fracture-karst spring-flow protections: A case study in Jinan, China. Hydrogeology Journal, 14(7):1192-1205.
    Scanlon B R, Mace R E, et al. 2003. Can we simulate regional groundwater flow in a karst system using equivalent porous media models? Case study, Barton Springs Edwards aquifer, USA. Journal of Hydrology, 276(1-4): 137-158.
    Doherty J. 2004. PEST Model-independent parameter estimation, user’s manual: 5th Edition. Brisbane: Watermark Numerical Computing.
    DU Shou-ying, YUAN Wen-zhen, DU Shang-hai. 2013. The impact of water table recovery by reducing groundwater abstraction on under-ground project safety in Shenyang City. China Rural Water and Hydropower, (5): 20-24.
    ZHENG Chun-miao, Bennett G D. 2002. Applied contaminant transport modeling, second edition. New York: John Wile and Sons, Inc., 621.
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