Laserfiche WebLink
(1983) performed a study of subsidence due to mining in the Pittsburgh seam in Greene County in southwestern <br />Pennsylvania. During his study, he monitored a well located above a longwall panel. The water level in the <br />. monitored well declined during undermining, but returned within 3 feet of the premining level when mining <br />advanced beyond the well. <br />The U.S. Bureau of Mines (Walker, 1988) monitored surface subsidence and water level fluctuations in 10 <br />shallow observation wells above a series of four adjacent longwall panels in southern Pennsylvania for about 4 <br />years. Results of this study indicate that wells are generally unaffected by mining of a preceding panel. The <br />most important conclusion of this study was that nine out of ten wells investigated recovered to their pre- mining <br />water level after mining was completed. <br />Similar observations were made during several studies of longwall mine subsidence impacts on hydrology in <br />Ohio and West Virginia completed by Hydro -Geo Consultants, Inc. (1988 and 1991). In these studies, <br />monitoring of water levels and water quality before, during, and after undermining by longwall operation <br />indicated that impacts due to undermining were noticeable only in wells or surface water bodies within <br />approximately 200 feet of the mined coal. Typically, in wells installed within Zones 2 and 3, water levels <br />declined during undermining and returned to levels somewhat lower than pre- mining. An explanation of the <br />slight decline of the water table after longwall mining was presented in studies where the permeability of the <br />water - bearing strata was measured before and after mining. <br />A study of subsidence effects due to longwall mining on hydrology in Marshal County, West Virginia was <br />published by the U.S. Geological Survey (Schultz, 1988). In this study, ten observation wells underlain by <br />longwall panels were monitored before and after mining. Three of the wells were tested for transmissivity <br />before and after mining. It was found that transmissivity increased substantially after mining in two out of the <br />three wells. The study also concluded that changes in water levels prior to and after mining exceeded ten feet in <br />only two of the ten monitored wells. <br />• The potential for water levels to decrease after mining is completed, typically results from increasing <br />permeability of the water- bearing strata. The decrease of water level in most wells is compensated for by an <br />increased well yield. Therefore, the slight decrease of water levels after mining in some wells does not <br />materially affect postmining water availability. <br />An extensive study of ground water inflow into longwall coal panels and of changes of hydraulic conductivities <br />induced by longwall mining was conducted by researchers at the University of Nottingham in England (Singh, <br />1986; Singh, Hibberd, and Fawcett, 1986; and Whittaker, Singh, and Neate, 1979). Conclusions of their studies <br />are summarized in the following points: <br />The main zone of appreciable change of in -situ permeability was found to lie between the face of the <br />longwall operation and 40 meters (131.2 feet) behind the face: Appreciable in -situ permeability change <br />was observed to occur up to 40 meters (131.2 feet) above the extraction zone; and changes in ground <br />water flow properties of the strata were found to be of stepped characteristics; this was thought to be due <br />to opening and closing of fractures and separations. <br />Studying effects of longwall mining in Japan, Nakajina (1976) found that just after mining at the Kushiro Mine, <br />the ratio of vacant space to vertical height in the caved roof was about 30 percent. Data gathered from boreholes <br />in the gob 2 years after mining, indicated that this ratio had dropped to an average of 6.2 percent. This indicates <br />that much reconsolidating had taken place, and that permeability was greatly reduced over the 2 -year period. <br />Conclusions from the referenced studies of the impacts of subsidence above a longwall coal mining operation on <br />hydrology can be summarized as follows: <br />• <br />PR09 -08 2.05 -147 04/27/09 <br />