Predicting coke morphology in Delayed Coking from feed characteristics

Currently, there is no well-established methodology to predict coke morphology in Delayed Coking from feed characteristics. We found that for a series of fourteen coking feeds from different parts of the world, coke morphology and shot-coke propensity can be predicted by determining the asphaltene s...

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Veröffentlicht in:	Fuel (Guildford) 2020-03, Vol.263, p.116739, Article 116739
Hauptverfasser:	Ovalles, Cesar, Rogel, Estrella, Hajdu, Paul, Rea, Thomas, Chaudhuri, Kaustav, Hench, Kyle, Cuspard, Danielle, Moir, Michael E.
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Sprache:	eng
Schlagworte:	Asphaltenes Coke Coke morphology Coking Delayed Coking Feed characteristics Flocculation Light microscopy Morphology Optical microscopy Phase separation Polarized light Profile method (forecasting) Shot Solubility Solubility parameters Solubility profiles
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creator	Ovalles, Cesar Rogel, Estrella Hajdu, Paul Rea, Thomas Chaudhuri, Kaustav Hench, Kyle Cuspard, Danielle Moir, Michael E.
description	Currently, there is no well-established methodology to predict coke morphology in Delayed Coking from feed characteristics. We found that for a series of fourteen coking feeds from different parts of the world, coke morphology and shot-coke propensity can be predicted by determining the asphaltene solubility parameter using the asphaltene solubility profile method without further separation and in ~25 min runs. The results are attributed to asphaltenes with higher solubility parameters that favor phase separation from the hydrocarbon matrix and lead to shot coke formation. Similarly, asphaltene peptizability measured by flocculation onset, ΔPS stability parameter determined by asphaltene solubility profile, and surface area measurements of MCRT cokes showed good potential for predicting coke morphology and shot-coke tendency of coking feeds. Conversely, mean particle size measured by cross-polarized light optical microscopy of the MCRT cokes showed a relatively large dispersion of the data and a weak correlation with the shot-coke propensity. Finally, a general scheme for the formation of shot and sponge cokes during Delayed Coking was proposed.
doi_str_mv	10.1016/j.fuel.2019.116739
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We found that for a series of fourteen coking feeds from different parts of the world, coke morphology and shot-coke propensity can be predicted by determining the asphaltene solubility parameter using the asphaltene solubility profile method without further separation and in ~25 min runs. The results are attributed to asphaltenes with higher solubility parameters that favor phase separation from the hydrocarbon matrix and lead to shot coke formation. Similarly, asphaltene peptizability measured by flocculation onset, ΔPS stability parameter determined by asphaltene solubility profile, and surface area measurements of MCRT cokes showed good potential for predicting coke morphology and shot-coke tendency of coking feeds. Conversely, mean particle size measured by cross-polarized light optical microscopy of the MCRT cokes showed a relatively large dispersion of the data and a weak correlation with the shot-coke propensity. 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subjects	Asphaltenes Coke Coke morphology Coking Delayed Coking Feed characteristics Flocculation Light microscopy Morphology Optical microscopy Phase separation Polarized light Profile method (forecasting) Shot Solubility Solubility parameters Solubility profiles
title	Predicting coke morphology in Delayed Coking from feed characteristics
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