Application of Rock Mechanics and the Finite Element Method to Underground Coal Gasification Process

A summary of field equations governing the hygro-thermo-mechanical (coupled temperature, moisture, and stress) response of geological media is presented. The applicability of these equations, with appropriate boundary conditions, to the study of basic mechanisms associated with underground coal gasification (UCG) process is discussed. In particular, the phenomenon of stress-induced spalling resulting from intense drying near the gasified cavity and in situ effects is investigated by means of the finite element method. Some typical results from sample finite element model representations are presented for the evaluation of field experiments.