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The Process Simulation of Entrained Flow Coal Gasification in Dynamic State for 300MW IGCC  

Kim, Mi-Yeong (Korea Electric Power Research Institute)
Joo, Yong-Jin (Korea Electric Power Research Institute)
Choi, In-Kyu (Korea Electric Power Research Institute)
Lee, Joong-Won (Korea Electric Power Research Institute)
Publication Information
Transactions of the Korean hydrogen and new energy society / v.21, no.5, 2010 , pp. 460-469 More about this Journal
Abstract
To develop coal gasfication system, many studies have been actively conducted to describe the simulation of steady state. Now, it is necessary to study the gasification system not only in steady state but also in dynamic state to elucidate abnormal condition such as start-up, shut-down, disturbance, and develop control logic. In this study, a model was proposed with process simulation in dynamic state being conducted using a chemical process simulation tool, where a heat and mass transfer model in the gasifier is incorporated, The proposed model was verified by comparison of the results of the simulation with those available from NETL (National Energy Technology Laboratory) report under steady state condition. The simulation results were that the coal gas efficiency was 80.7%, gas thermal efficiency was 95.4%, which indicated the error was under 1 %. Also, the compositions of syngas were similar to those of the NETL report. Controlled variables of the proposed model was verified by increasing oxygen flow rate to gasifier in order to validate the dynamic state of the system. As a result, trends of major process variables were resonable when oxygen flow rate increased by 5% from the steady state value. Coal flow rate to gasifier and quench gas flow rate were increased, and flow rate of liquid slag was also increased. The proposed model in this study is able to be used for the prediction of gasification of various coals and dynamic analysis of coal gasification.
Keywords
Coal gasification; Gasifier; Dynamic state; Process simulation; Synthetic gas; Cold gas efficiency; Gas thermal efficiency;
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Times Cited By KSCI : 1  (Citation Analysis)
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