Use of a dispersed iron catalyst for upgrading extra-heavy crude oil using methane as source of hydrogen

The use of an iron dispersed catalyst, derived from Fe 3(CO) 12, for extra-heavy crude oil upgrading using methane as source of hydrogen was studied. The upgrading reactions were carried out batchwise in a stainless-steel 300 ml Parr reactor with 250 ppm of Fe at a temperature of 410–420 °C, a press...

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Bibliographic Details
Published in:Fuel (Guildford) 2003-05, Vol.82 (8), p.887-892
Main Authors: Ovalles, Cesar, Filgueiras, Eduardo, Morales, Alfredo, Scott, Carlos E., Gonzalez-Gimenez, Fernando, Pierre Embaid, B.
Format: Article
Language:English
Subjects:
Applied sciences
Crude oil, natural gas and petroleum products
Energy
Exact sciences and technology
Extra-heavy crude oil
Fuels
Iron catalyst
Methane
Processing of crude oil and oils from shales and tar sands. Processes. Equipment. Refinery and treatment units
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Summary:The use of an iron dispersed catalyst, derived from Fe 3(CO) 12, for extra-heavy crude oil upgrading using methane as source of hydrogen was studied. The upgrading reactions were carried out batchwise in a stainless-steel 300 ml Parr reactor with 250 ppm of Fe at a temperature of 410–420 °C, a pressure of 11 MPa of CH 4, and a residence time of 1 h. In the presence of Fe 3(CO) 12, the reaction of Hamaca extra-heavy crude oil led to a reduction of two orders of magnitude in the viscosity (from 500 to 1.3 Pa s), 14% reduction in sulfur content, and 41% conversion of the >500 °C fraction in the upgraded product with respect to the original crude. The iron catalyst was isolated from the coke produced from the upgrading reaction and was analyzed by XPS, EDAX, and Mössbauer spectroscopy. The results indicated the presence of a Fe–V mixed sulfide species with a composition ca. (Fe 0.6V 0.4) z S, where z is in the range 0.8–0.9.
ISSN:0016-2361
1873-7153
DOI:10.1016/S0016-2361(02)00406-4