Role of Liquid Concentration in Coke Yield from Model Vacuum Residue鈥揅oke Agglomerates

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• 作者：Deepesh Kumar ; Christian M眉ller ; Peter Pfeifer ; Jason Wiens ; Jennifer McMillan ; Michael Wormsbecker ; Craig McKnight ; Murray R. Gray
• 刊名：Industrial & Engineering Chemistry Research
• 出版年：2015
• 出版时间：September 23, 2015
• 年：2015
• 卷：54
• 期：37
• 页码：9089-9096
• 全文大小：358K
• ISSN：1520-5045

文摘

The fluid coking process is an example of an upgrading process that uses hot solids to heat and crack bitumen into more valuable products. When feed liquid is sprayed into a fluid bed of hot solids, the solids tend to agglomerate, giving simultaneous heating, reaction, and disintegration processes. The reaction of mixtures of three Athabasca vacuum residues and fluid coke particles was investigated by heating them in Curie point reactors in an induction furnace up to 530 掳C. Small scale reactors with machined wells were fabricated from Curie point alloy. The yield of coke was measured as a function of the ratio of liquid to solid, heating rate, and feed type. Coke yields were insensitive to heating rates from 5 to 120 掳C/s, at a constant final temperature. Bubbling was observed as the ratio of liquid feed in the mixture was raised above a threshold, depending on the reactivity of the feed used. Bubbling was observed to increase with greater heating rates, but it had little effect on ultimate coke yield. Coke yield increased with the fraction of bitumen on particles for all feed types tested. When the coke yields were normalized using the microcarbon residue content of the feeds, the results did not give a single trend when plotted with fraction of feed present in the mixtures.