Actas de congresos
Cracking Of Petroleum Residues By Reactive Molecular Distillation
Registro en:
Procedia Engineering. , v. 42, n. , p. 329 - 334, 2012.
18777058
10.1016/j.proeng.2012.07.424
2-s2.0-84891714772
Autor
Lopes M.S.
Savioli Lopes M.
Maciel Filho R.
Wolf Maciel M.R.
Medina L.C.
Institución
Resumen
It is known that the Brazilian oils are more heavy - super heavy - viscous, its operation is difficult, especially its production, including all stages - elevation, runoff and primary processing - in addition to their transfer, and refining itself. Studies indicate the existence of oil fields as heavy lifting and that the simple flow of the base of the pit to the surface seems impossible at first sight, especially in off-shore fields, compromising both technically and economically a project to produce a new field. Therefore, efforts are needed to develop alternatives aimed at reducing the API gravity, viscosity and sulfur content of extra-heavy oil, adding a higher commercial value for these oils. This work aims to study, propose and develop enhanced hybrid process that transforms the extra-heavy oil, or part thereof, in lighter crude oil to generate a mixture: lower sulfur content, lower density, lower viscosity, lower content of volatile (aromatics and asphaltenes), greater resistance to the processes of purification. The process studied is the Reactive molecular distillation with the addition of tetralin that suffer from high temperature cracking of molecules, providing protons that help the breakdown of asphaltenes and residues will suffer as a consequence physicochemical changes, such as those mentioned above. This way you can improve the problems associated with the deposition of asphaltenes at high temperatures. The conversion of light with immediate reduction of API gravity and sulfur content promoted a better use of extra-heavy oil and the DMR is a product of high-value oil and very interesting for the oil industry and the environment. The experimental work proposed in this study was conducted to cracking and separation of fractions and petroleum. The evaluation and characterization of the cracking results were obtained after analysis of properties such as density, viscosity, sulfur content, molar mass and mass balance of the currents. © 2012 Published by Elsevier Ltd. 42
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