Title :
Mathematical modeling temperature´s fields in overburden during underground coal gasification
Author_Institution :
Inst. of Control & Informatization of Production Processes, Tech. Univ., Kosice, Slovakia
Abstract :
Underground coal gasification (UCG) appears as an efficient method for the conversion of the world´s coal resources into energy, liquid fuels, and chemicals has attracted lots of attention in recent years. There are not known negative thermal impacts on rocks and surface. 2D temperature model is developing for studying temperature´s fields in overburden of UCG. Mathematical model is based on Fourier´s partial equation but expanded by heat exchange between solid and liquid phase. The liquid phase is represented by underground water flows. The dynamical model will allow simulating temperature fields in coal, rock and heat flows from UCG to surface through overburden (necessary for understanding of changes in the rock structure under the influence heat from UCG cavity).
Keywords :
Fourier analysis; coal; coal gasification; heat transfer; rocks; 2D temperature model; Fourier partial equation; heat exchange; heat flow; negative thermal impacts; rocks; underground coal gasification; underground water flow; Coal; Indexes; Mathematical model; Production; Rocks; Water heating; developing mathematical model; heat flows; numerical solutions; underground coal gasification; water flows;
Conference_Titel :
Control Conference (ICCC), 2014 15th International Carpathian
Conference_Location :
Velke Karlovice
Print_ISBN :
978-1-4799-3527-7
DOI :
10.1109/CarpathianCC.2014.6843606
