Abstract
ABSTRACTUnderground Coal Gasification (UCG) involves the recovery of energy from a coal deposit via the use of controlled combustion. A reactor equipped with apparatus enabling the analysis of temperature profiles and gas composition was constructed for the simulation of underground conditions, both with respect to the coal seam and the surrounding stratum characteristics. A three day experiment was performed in which large blocks of lignite were gasified, with an average gasification rate of 5 kg/h. The ground‐penetrating radar (GPR) reflection method was used to monitor the process and observe physical and structural changes taking place within the gasification zone; radar images of the different stages of the process were then recorded and analysed. The experiment demonstrated the potential for successful application of radar techniques in the observation and monitoring of the coal gasification process in a natural environment. Whereas the gasification of coal in shallow seams could be monitored by surface measurements, that of deep seams in operating coal mines or coal deposits could be monitored by measurements made from galleries or boreholes.
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