@ARTICLE{Han_Yangchun_Prediction_2018, author={Han Yangchun and Cheng Jiulong and Huang Qisong and Zou D.H. Steve and Zhou Jin and Huang Shaohua and Long Yun}, volume={vol. 63}, number={No 3}, journal={Archives of Mining Sciences}, pages={617-631}, howpublished={online}, year={2018}, publisher={Committee of Mining PAS}, abstract={In the process of coal extraction, a fractured zone is developed in the overburden above the goaf. If the fractured zone is connected with an aquifer, then water inrush may occur. Hence, research and analysis of the height of overburden fractured zone (HOFZ) are of considerable significance. This study focuses on the HOFZ determination in deep coal mining. First, general deformation failure characteristics of overburden were discussed. Second, a new method, numerical simulation by orthogonal design(NSOD), have been proposed to determinate the HOFZ in deep coal mining. Third, the validity of NSOD is verified in the practical application, compared with empiric al formula in Chinese Regulations and in-situ test. These three methods were applied to determine the HOFZ of working face No. 111303 in No. 5 coal mine. The pre dicted HOFZ of NSOD is found to be similar to the result of the in-situ test (8.9% relative error), whereas the HOFZ calculated by the empirical formula has extremely large error (25.7% relative error). Results show that the NSOD can reliably predict the HOFZ in deep coal mining and reduce time and expenses required for in-situ test.}, type={Artykuły / Articles}, title={Prediction of the Height of Overburden Fractured Zone in Deep Coal Mining: Case Study}, URL={http://journals.pan.pl/Content/107895/PDF/Archiwum-63-3-06-Cheng.pdf}, doi={10.24425/123687}, keywords={the height of overburden fractured zone, numerical simulation, orthogonal design, in-situ test}, }