Class / Patent application number | Description | Number of patent applications / Date published |
208087000 | Solvent extraction | 10 |
20100200461 | Process for Producing Petroleum Oils with Ultra-Low Nitrogen Content - A highly effective liquid-liquid extraction process to remove nitrogen compounds and especially basic nitrogen compounds from aromatic light petroleum oils with excellent recovery employs de-ionized water, which can be acidified, as the extractive solvent. The product is an aromatic hydrocarbon with ultra-low amounts of nitrogen poisons that can deactivate acidic catalysts. The extracted oils are suitable feedstock for the subsequent catalytic processes that are promoted with the high performance solid catalysts, which are extremely sensitive to nitrogen poison. | 08-12-2010 |
20100264065 | MEMBRANE DESULFURIZATION OF LIQUID HYDROCARBON FEEDSTREAMS - The process of the present invention is directed to the desulfurization of a sulfur-containing unrefined hydrocarbon stream with a membrane separation apparatus, where sulfur compounds are concentrated in a sulfur-rich stream on a permeate side of the membrane, and a sulfur-lean stream is recovered as a retentate. The sulfur-rich stream, which has a small volume relative to the original unrefined hydrocarbon stream, is conveyed to a subsequent desulfurization apparatus or system, such as a hydrotreating system, to recover the hydrocarbons associated with the organosulfur compounds. The stream desulfurized by conventional processes, such as hydrotreating, and the hydrocarbons desulfurized by the membrane separation apparatus may be combined to provide a low sulfur hydrocarbon effluent with minimal or no loss of the original volume. | 10-21-2010 |
20100326885 | SYSTEM FOR PREPARING HIGH-QUALITY GASOLINE THROUGH COMPONENT OIL REFINING HYDROCARBON RECOMBINATION HYDROGENATION AND METHOD THEREOF - The invention discloses a system for preparing high-quality gasoline through component oil refining hydrocarbon recombination hydrogenation and a method thereof, which is characterized by comprising an extraction system, a distillation system and a hydrogenation device, wherein the upper part of the extraction system is connected with the distillation system through a pipeline, and the lower part of the extraction system is connected with an extract oil hydrogenation device through the pipeline; light gasoline is recovered by the upper part of the distillation system through the pipeline; the lower part of the distillation system is connected with the heavy gasoline hydrogenation device through the pipeline; and reformate or ethylene feed are recovered through the lower part of the heavy gasoline hydrogenation device through the pipeline. The system for preparing high-quality gasoline through component oil refining hydrocarbon recombination hydrogenation and the method thereof has small scale and low cost and can remove olefin, mercaptan sulphur and diene. | 12-30-2010 |
20110155635 | PROCESS FOR REMOVING METALS FROM RESID - A process for removing a metal from a resid feed includes contacting the resid feed comprising the metal with a resid-immiscible ionic liquid to produce a resid and resid-immiscible ionic liquid mixture, and separating the mixture to produce a resid effluent having a reduced metal content relative to the resid feed. | 06-30-2011 |
20120055844 | Process for Oxidative Desulfurization and Denitrogenation Using A Fluid Catalytic Cracking (FCC) Unit - A method and apparatus for recovering components from a hydrocarbon feedstock is provided. The method includes the steps of (a) supplying a hydrocarbon feedstock to an oxidation reactor, wherein the hydrocarbon feedstock is oxidized in the presence of a catalyst under conditions sufficient to selectively oxidize sulfur compounds and nitrogen compounds present in the hydrocarbon feedstock; (b) separating the hydrocarbons, the oxidized sulfur compounds, and the oxidized nitrogen compounds by solvent extraction; (c) collecting a residue stream that includes the oxidized sulfur compounds and the oxidized nitrogen compounds; and (d) supplying the residue stream to a fluid catalytic cracking unit. | 03-08-2012 |
20130026069 | SOLVENT-ASSISTED DELAYED COKING PROCESS - An improved process for the delayed coking of a heavy residual hydrocarbon feedstock to reduce the coking induction period and to enhance the coking process relative to the processes of the prior art is achieved by mixing a sufficient volume of a paraffinic solvent having the formula C | 01-31-2013 |
20130062255 | Hydrotreating of Aromatic-Extracted Hydrocarbon Streams - Deep desulfurization of hydrocarbon feeds containing undesired organosulfur compounds to produce a hydrocarbon product having low levels of sulfur, i.e., 15 ppmw or less of sulfur, is achieved by first subjecting the entire feed to an extraction zone to separate an aromatic-rich fraction containing a substantial amount of the aromatic refractory and sterically hindered sulfur-containing compounds and an aromatic-lean fraction containing a substantial amount of the labile sulfur-containing compounds. The aromatic-rich fraction is contacted with isomerization catalyst, and the isomerized aromatic-rich fraction and the aromatic-lean fraction are combined and contacted with a hydrotreating catalyst in a hydrodesulfurization reaction zone operating under mild conditions to reduce the quantity of organosulfur compounds to an ultra-low level. | 03-14-2013 |
20130062256 | INTEGRATED HYDROTREATING AND ISOMERIZATION PROCESS WITH AROMATIC SEPARATION - Deep desulfurization of hydrocarbon feeds containing undesired organosulfur compounds to produce a hydrocarbon product having low levels of sulfur, i.e., 15 ppmw or less of sulfur, is achieved by hydrotreating the feed under mild conditions, and separating the hydrotreated effluent into an aromatic-rich fraction which contains a substantial amount of the aromatic refractory and sterically hindered sulfur-containing compounds, and an aromatic-lean fraction. The aromatic-rich fraction is contacted with isomerization catalyst, and the isomerized aromatic-rich fraction is recycled to the mild hydrotreating process. | 03-14-2013 |
20150008158 | Integrated Hydrotreating and Isomerization Process with Aromatic Separation - Deep desulfurization of hydrocarbon feeds containing undesired organosulfur compounds to produce a hydrocarbon product having low levels of sulfur, i.e., 15 ppmw or less of sulfur, is achieved by hydrotreating the feed under mild conditions, and separating the hydrotreated effluent into an aromatic-rich fraction which contains a substantial amount of the aromatic refractory and sterically hindered sulfur-containing compounds, and an aromatic-lean fraction. The aromatic-rich fraction is contacted with isomerization catalyst, and the isomerized aromatic-rich fraction is recycled to the mild hydrotreating process. | 01-08-2015 |
20160145500 | CONTAMINANT REMOVAL FROM HYDROCARBON STREAMS WITH LEWIS ACIDIC IONIC LIQUIDS - Processes for removing sulfur and nitrogen contaminants from hydrocarbon streams are described. The processes include contacting the hydrocarbon stream comprising the contaminant with lean halometallate ionic liquid an organohalide resulting in a mixture comprising the hydrocarbon and rich halometallate ionic liquid comprising the contaminant. The mixture is separated to produce a hydrocarbon effluent and a rich halometallate ionic liquid effluent comprising the rich halometallate ionic liquid comprising the contaminant. | 05-26-2016 |