2016
DOI: 10.1016/j.fuel.2016.05.017
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A process model for underground coal gasification – Part-II growth of outflow channel

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Cited by 24 publications
(7 citation statements)
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“…14,[21][22][23] The mathematical models for ISCG found in the literature are much more varied because the process removes a large fraction of the coal formation, leading to various regions which have different governing phenomena. The major classes of ISCG models include process models, 24,25 coal block models, [26][27][28] coal wall models, 29 packed bed models, [30][31][32] channel models, 33,34 CFD models, [35][36][37] resource recovery models 17,38 and reservoir models. 39,40 Characteristic length and time scales…”
Section: Mathematical Modelsmentioning
confidence: 99%
“…14,[21][22][23] The mathematical models for ISCG found in the literature are much more varied because the process removes a large fraction of the coal formation, leading to various regions which have different governing phenomena. The major classes of ISCG models include process models, 24,25 coal block models, [26][27][28] coal wall models, 29 packed bed models, [30][31][32] channel models, 33,34 CFD models, [35][36][37] resource recovery models 17,38 and reservoir models. 39,40 Characteristic length and time scales…”
Section: Mathematical Modelsmentioning
confidence: 99%
“…The UCG process model used in the present work is first developed by Samdani et al [13] for the growth of outflow channel in UCG process. It is based on compartment modeling approach i.e., the computational domain is divided into different sections and each section has three sub zones such as rubble zone representing the spalled coal particles on the heater plate, void zone representing the vacant space inside the heating chamber and roof zone representing the hanging coal block.…”
Section: Ucg Process Model For Spalling Apparatusmentioning
confidence: 99%
“…6. This pattern of compartments is decided based on RTD studies by CFD [13,14]. The rubble zone is modeled as a PFR with number of CSTRs connected in series.…”
Section: Ucg Process Model For Spalling Apparatusmentioning
confidence: 99%
“…The temperature is generally between 200 and 600 °C . It can be seen that UCG is a complex physical and chemical process, which mainly includes the flow, heat transfer, mass transfer, and pyrolysis of gasification agents and gasification products. Among them, heat transfer runs through the whole changing process of UCG, which is one of the basic problems that need to be paid more attention to. In the oxidation zone, the semicoke layer burns under the action of the oxidizer, releasing a large amount of heat, which is transferred to the front of the coal seam, forming a reduction zone and a distillation drying zone.…”
Section: Introductionmentioning
confidence: 99%