Model-based estimation of adiabatic flame temperature during coal gasification

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Title Model-based estimation of adiabatic flame temperature during coal gasification
Publication Type thesis
School or College College of Engineering
Department Chemical Engineering
Author Sarigul, Ihsan Mert
Date 2012-12
Description Coal gasification temperature distribution in the gasifier is one of the important issues. High temperature may increase the risk of corrosion of the gasifier wall or it may cause an increase in the amount of volatile compounds. At the same time, gasification temperature is a dominant factor for high conversion of products and completing the reactions during coal gasification in a short time. In the light of this information it can be said that temperature is one of key parameters of coal gasification to enhance the production of high heating value syngas and maximize refractory longevity. This study aims to predict the adiabatic flame temperatures of Australian bituminous coal and Indonesian roto coal in an entrained flow gasifier using different operating conditions with the ChemCAD simulation and design program. To achieve these objectives, two types of gasification parameters were carried out using simulation of a vertical entrained flow reactor: (1) oxygen-to-coal feed ratio by kg/kg and pressure and (2 ) steam-to-coal feed ratio by kg/kg and pressure. In the first part of study the adiabatic flame temperatures, coal gasification products and other coal characteristics of two types of coals were determined using ChemCAD software. During all simulations, coal feed rate, coal particle size, initial temperature of coal, water and oxygen were kept constant. The relationships between flame temperature, coal gasification products and operating parameters were fundamentally investigated. The second part of this study addresses the modeling of the flame temperature relation to methane production and other input parameters used previous chapter. The scope of this work was to establish a reasonable model in order to estimate flame temperature without any theoretical calculation. Finally, sensitivity analysis was performed after getting some basic correlations between temperature and input variables. According to the results, oxygen-to-coal feed ratio has the most influential effect on adiabatic flame temperature.
Type Text
Publisher University of Utah
Subject ChemCAD; Coal Gasification; Entrained Flow Gasifier; Modeling; Simulation
Dissertation Name Master of Science
Language eng
Rights Management ©Ihsan Mert Sarigul
Format application/pdf
Format Medium application/pdf
Format Extent 2,884,570 bytes
ARK ark:/87278/s68d0b42
Setname ir_etd
ID 195764
Reference URL https://collections.lib.utah.edu/ark:/87278/s68d0b42
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