Pyrolysis behavior of coal and petroleum coke at high temperature and high pressure

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Title Pyrolysis behavior of coal and petroleum coke at high temperature and high pressure
Publication Type thesis
School or College College of Engineering
Department Chemical Engineering
Author Wagner, David Ray
Date 2011-05
Description While pyrolysis of coal is a well-studied thermal process, little is known about pressurized pyrolysis of coal and petroleum coke. This study aims to interpret the major differences of pyrolysis via high temperature and high pressure studies with a bituminous coal, a lignite coal, and a petroleum coke. The findings of these studies will be able to expand on the narrow quantity of petroleum coke pyrolysis and offer methods of devolatilization via bench-scale laminar entrained-flow and pressurized wire-mesh heaters. In addition, the findings for the two coal ranks will add to the breadth of knowledge already published, and lend credibility to conclusions made concerning petroleum coke. The first method explored in characterizing coal and petroleum coke pyrolysis was tests conducted at high temperature (1000 ? to 1400 ?) and atmospheric pressure (13 psia). Varied oxygen content was used to switch from pyrolysis to gasification conditions and chosen based on a statistical Design of Experiments approach. Previous studies indicate that as temperature or heating rate increase, so do volatiles yield and particle swelling ratio. The second set of experiments performed was at high temperatures as well (1000 ? to 1200 ?, but the pressure was greatly increased (13 to 915 psia). This is because many industrial gasifiers are operated at higher pressures to achieve greater efficiency. The data generated will be used to predict gasifier behavior in The University of Utah?s entrained-flow gasifier and hopefully aid in commercial applications like the large dual entrained-flow gasifiers housed by Eastman Chemical Company in Kingsport, Tennessee.
Type Text
Publisher University of Utah
Subject Coal; Gasification; Petroleum coke; Pressure; Pyrolysis; Wire-mesh
Dissertation Institution University of Utah
Dissertation Name Master of Science
Language eng
Rights Management Copyright © David Ray Wagner 2011
Format application/pdf
Format Medium application/pdf
Format Extent 3,031,536 bytes
Identifier us-etd3,33309
Source Original housed in Marriott Library Special Collections, TP7.5 2011 .W33
ARK ark:/87278/s6bk1t2p
Setname ir_etd
ID 194575
Reference URL https://collections.lib.utah.edu/ark:/87278/s6bk1t2p
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