Class / Patent application number | Description | Number of patent applications / Date published |
208299000 | With solid catalyst or absorbent | 13 |
20090188839 | Removal of Peroxide Impurities from Naphtha Stream - A method and apparatus for removing peroxides from an exposed naphtha stream is shown and described. The process includes the catalytic reactive oxygen stripping of peroxides thereby generating hydrocarbons and oxygen. Numerous conventional catalysts may be employed. The catalytic stripping reaction can be carried out at substantially lower temperatures than conventional reboiled oxygen strippers thereby resulting in substantial energy savings. Further, the disclosed reactor vessels are substantially smaller and less expensive to build than conventional oxygen stripper columns. The disclosed energy efficient reactive oxygen stripping process and equipment is intended to be utilized upstream of a naphtha hydrotreating unit. | 07-30-2009 |
20090242462 | OXYGEN REMOVAL - A process for reducing free oxygen in a hydrocarbon gas stream comprises the steps of | 10-01-2009 |
20090294331 | Method of Recovering Volatile Organic Compound and Volatile Organic Compound Recovery System - A gas generated from a first crude oil and containing volatile organic compounds and a second crude oil are supplied to an absorber | 12-03-2009 |
20100025303 | Application of microporous carbon adsorbent for reducing the benzene content in hydrocarbon streams - The present invention is related with the application of an adsorbent material of microporous carbon (MCA), prepared from the direct pyrolysis of copolymers generically known as Saran, in adsorption processes to reduce the benzene content in naphtha boiling range hydrocarbon streams, between 27 and 191° C., in which is preferable to perform a first separation by distillation of the C6's fraction, and a further separation of Benzene by adsorption through an adsorbent material bed, obtaining the fraction of C6's free of Benzene and an adsorbent with Benzene, which is further regenerated by pressure or temperature swing desorption or by displacement using a desorbent such as an inert gas at high temperature or by passing a desorbent which after the process, the desorbent and Benzene are separated by distillation. The fraction of C6's free of Benzene is reintegrated to the hydrocarbon stream and providing a gasoline with a Benzene content less than 1 volume %. Besides, the application of the MCA in this type of process allows obtaining Benzene with a minimum purity of 99.8 weight % and a maximum toluene content of 0.1 weight %, satisfying the specifications of ASTM D-2359-02 for Refined Benzene-535 | 02-04-2010 |
20140083910 | METHOD FOR REMOVING FINE SOLIDS FROM AN AQUEOUS BITUMEN-CONTAINING STREAM - The present invention provides a method for removing fine solids from an aqueous bitumen-containing stream, in particular from an aqueous bitumen-containing stream as obtained during an oil sands extraction process, the method at least comprising the steps of:
| 03-27-2014 |
208300000 | Of particular physical shape or structure | 3 |
20090090657 | Mesostructured Zeolitic Materials and Methods of Making and Using the Same - One aspect of the present invention relates to mesostructured zeolites. The invention also relates to a method of preparing mesostructured zeolites, as well as using them as cracking catalysts for organic compounds and degradation catalysts for polymers. | 04-09-2009 |
20090114569 | METHODS FOR REMOVING METALLIC AND NON-METALLIC IMPURITIES FROM HYDROCARBON OILS - An embodiment of the invention is directed to a treatment method for reducing the level of metallic and nonmetallic impurities in an oil. The method includes the step of contacting the oil with a porous silica adsorbent material. The adsorbent material is characterized by a Brunauer-Emmett-Teller (BET) surface area value (total) of at least about 15 m | 05-07-2009 |
20110000824 | HYDROPROCESSING CATALYST AND METHOD OF MAKING THE SAME - The present invention is directed to a hydroprocessing catalyst containing at least one catalyst support, one or more metals, optionally one or more molecular sieves, optionally one or more promoters, wherein deposition of at least one of the metals is achieved in the presence of a modifying agent. | 01-06-2011 |
208302000 | With subsequent treatment of the oil | 1 |
20090159505 | HEAVY OIL UPGRADE PROCESS INCLUDING RECOVERY OF SPENT CATALYST - A process to upgrade heavy oil and convert the heavy oil into lower boiling hydrocarbon products is provided. The process employs a catalyst slurry comprising catalyst particles with an average particle size ranging from 1 to 20 microns. In the upgrade process, spent slurry catalyst in heavy oil is generated as an effluent stream, which is subsequently recovered/separated from the heavy oil via a filtration assembly. The filtration assembly has a least a filtration unit employing at least a membrane for separating heavy oil from the catalyst particles. Valuable metals can be recovered from catalyst particles for subsequent re-use in a catalyst synthesis unit, generating a fresh slurry catalyst. | 06-25-2009 |
208304000 | Processes including downward movement of particles | 1 |
20100163459 | HEAVY OIL UPGRADE PROCESS INCLUDING RECOVERY OF SPENT CATALYST - A process to upgrade heavy oil and convert the heavy oil into lower boiling hydrocarbon products is provided. The process employs a catalyst slurry comprising catalyst particles with an average particle size ranging from 1 to 20 microns. In the upgrade process, spent slurry catalyst in heavy oil is generated as an effluent stream, which is subsequently recovered/separated from the heavy oil via membrane filtration. In one embodiment, filtration sedimentation is used for the separation of the heavy oil from the catalyst particles. Valuable metals can be recovered from catalyst particles for subsequent re-use in a catalyst synthesis unit, generating a fresh slurry catalyst. | 07-01-2010 |
208305000 | Solids rehabilitation | 2 |
20160177192 | SORBENTS FOR REMOVING SOLID PARTICLES FROM CRUDE OIL | 06-23-2016 |
20160177198 | PROCESS FOR PURIFYING PETROLEUM CRUDE OILS | 06-23-2016 |
208307000 | Silicon or carbon containing treating agent | 1 |
20140027352 | CARBON ADSORBENT AND PROCESS FOR SEPARATING HIGH-OCTANE COMPONENTS FROM LOW-OCTANE COMPONENTS IN A NAPTHA RAFFINATE STREAM USING SUCH CARBON ADSORBENT - A carbon adsorbent having the characteristics of: a nitrogen micropore volume at 77° K, measured as liquid capacity, that is greater than 0.30 mL/g; a neopentane capacity measured at 273° K and 1 bar, measured as liquid capacity, that is less than 7% of the nitrogen micropore volume, measured as liquid capacity; and an access pore size in a range of from 0.50 to 0.62 nm. Such adsorbent is usefully employed for contacting with hydrocarbon mixtures to adsorb low-octane, linear and mono- or di-substituted alkanes therefrom, and thereby increase octane rating, e.g., of an isomerization naphtha raffinate. Adsorption processes and apparatus are also described, in which the carbon adsorbent can be utilized for production of higher octane rating hydrocarbon mixtures. | 01-30-2014 |