Solvent Extraction of Bituminous Coals Using Light Cycle Oil: Characterization of Diaromatic Products in Liquids

Solvent Extraction of Bituminous Coals Using Light Cycle Oil: Characterization of Diaromatic Products in Liquids

Many studies of the pyrolytic degradation of coal-derived and petroleum-derived aviation fuels have demonstrated that the coal-derived fuels show better thermal stability, both with respect to deposition of carbonaceous solids and cracking to gases. Much previous work at our institute has focused on...

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Bibliographic Details
Published in:Energy & fuels Vol. 23; no. 9; pp. 4553 - 4561
Main Authors: Griffith, Josefa M, Burgess Clifford, Caroline E, Rudnick, Leslie R, Schobert, Harold H
Format: Journal Article
Language:English
Published: United States American Chemical Society 17-09-2009
Subjects:
01 COAL, LIGNITE, AND PEAT
BITUMINOUS COAL
COAL EXTRACTS
COAL LIQUIDS
CONDENSED AROMATICS
Fossil Fuels
OILS
PETROLEUM FRACTIONS
SOLVENT EXTRACTION
YIELDS
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Summary:Many studies of the pyrolytic degradation of coal-derived and petroleum-derived aviation fuels have demonstrated that the coal-derived fuels show better thermal stability, both with respect to deposition of carbonaceous solids and cracking to gases. Much previous work at our institute has focused on the use of refined chemical oil (RCO), a distillate from the refining of coal tar, blended with light cycle oil (LCO) from catalytic cracking of vacuum gas oil. Hydroprocessing of this blend forms high concentrations of tetralin and decalin derivatives that confer particularly good thermal stability on the fuel. However, possible supply constraints for RCO make it important to consider alternative ways to produce an “RCO-like” product from coal in an inexpensive process. This study shows the results of coal extraction using LCO as a solvent. At 350 °C at a solvent-to-coal ratio of 10:1, the conversions were 30−50 wt % and extract yields 28−40 wt % when testing five different coals. When using lower LCO/coal ratios, conversions and extract yields were much smaller; lower LCO/coal ratios also caused mechanical issues. LCO is thought to behave similarly to a nonpolar, non-hydrogen donor solvent, which would facilitate heat-induced structural relaxation of the coal followed by solubilization. The main components contributed from the coal to the extract when using Pittsburgh coal are di- and triaromatic compounds.
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ISSN:0887-0624
1520-5029
DOI:10.1021/ef9006092