Patent application number | Description | Published |
20080210596 | PROCESS AND APPARATUS FOR CONVERTING NATURAL GAS TO HIGHER MOLECULAR WEIGHT HYDROCARBONS USING MICROCHANNEL PROCESS TECHNOLOGY - The disclosed invention relates to a process and apparatus for converting natural gas to higher molecular weight hydrocarbons. The process includes steam reforming to form synthesis gas followed by a Fischer-Tropsch reaction to convert the synthesis gas to the high molecular weight hydrocarbons. The reforming and Fischer-Tropsch reactions are conducted in microchannel reactors. The higher molecular weight hydrocarbons may be further treated to form hydrocarbon products such as middle distillate fuels, lubricating oils, and the like. The apparatus includes vessels containing SMR microchannel reactors and Fischer-Tropsch microchannel reactors. A composition comprising a mixture of olefins and paraffins is disclosed. | 09-04-2008 |
20090259076 | PROCESS FOR CONVERTING A CARBONACEOUS MATERIAL TO METHANE, METHANOL AND/OR DIMETHYL ETHER USING MICROCHANNEL PROCESS TECHNOLOGY - This invention relates to a process for converting a carbonaceous material to a desired product comprising methane, methanol and/or dimethyl ether, the process comprising: gasifying the carbonaceous material at a temperature in excess of about 700° C. to form synthesis gas; and flowing the synthesis gas through two or more reaction zones in a microchannel reactor to convert the synthesis gas to the desired product. | 10-15-2009 |
20090293359 | PROCESS FOR UPGRADING A CARBONACEOUS MATERIAL USING MICROCHANNEL PROCESS TECHNOLOGY - This invention relates to a process for converting a carbonaceous material to a desired product comprising one or more hydrocarbons or one or more alcohols, the process comprising: (A) gasifying the carbonaceous material at a temperature in excess of about 700° C. to form synthesis gas; and (B) flowing the synthesis gas in a microchannel reactor in contact with a catalyst to convert the synthesis gas to the desired product. | 12-03-2009 |
20090318574 | Microchannel compression reactor assembly - The present invention includes a removable microchannel unit including an inlet orifice and an outlet orifice in fluid communication with a plurality of microchannels distributed throughout the removable microchannel unit, and a pressurized vessel adapted have the removable microchannel unit mounted thereto, the pressurized vessel adapted to contain a pressurized fluid exerting a positive gauge pressure upon at least a portion of the exterior of the removable microchannel unit. The invention also includes a microchannel unit assembly comprising a microchannel unit operation carried out within a pressurized vessel, where pressurized vessel includes a pressurized fluid exerting a positive gauge pressure upon an exterior of the microchannel unit operation, and where the microchannel unit operation includes an outlet orifice in fluid communication with an interior of the pressurized vessel. | 12-24-2009 |
20100071410 | DISTILLATION PROCESS USING MICROCHANNEL TECHNOLOGY - The disclosed invention relates to a distillation process for separating two or more components having different volatilities from a liquid mixture containing the components. The process employs microchannel technology for effecting the distillation and is particularly suitable for conducting difficult separations, such as the separation of ethane from ethylene, wherein the individual components are characterized by having volatilities that are very close to one another. | 03-25-2010 |
20100174124 | PROCESS AND APPARATUS EMPLOYING MICROCHANNEL PROCESS TECHNOLOGY - This invention relates to a process for conducting a hydrocracking or a hydrotreating process in a microchannel reactor. This invention also relates to a process and apparatus for flowing a vapor and liquid into a plurality of microchannels in a microchannel processing unit. | 07-08-2010 |
20110004345 | MICROCHANNEL COMPRESSION REACTOR - A process unit comprising: (a) a first microchannel module comprising: (i) a first unit operation including microchannels, in which at least a portion of a unit operation takes place, adapted to be in fluid communication with a first inlet stream and a first outlet stream, and (ii) a second unit operation including microchannels adapted to be in thermal communication with the first unit operation, the second unit operation adapted to be in fluid communication with a second inlet stream and a second outlet stream; and (b) a pressurized vessel at least partially containing the first microchannel module adapted to be concurrently occupied by a compressive medium in thermal communication with the first microchannel module. | 01-06-2011 |
20110065813 | Microchannel Compression Reactor Assembly - The present invention includes a removable microchannel unit including an inlet orifice and an outlet orifice in fluid communication with a plurality of microchannels distributed throughout the removable microchannel unit, and a pressurized vessel adapted have the removable microchannel unit mounted thereto, the pressurized vessel adapted to contain a pressurized fluid exerting a positive gauge pressure upon at least a portion of the exterior of the removable microchannel unit. The invention also includes a microchannel unit assembly comprising a microchannel unit operation carried out within a pressurized vessel, where pressurized vessel includes a pressurized fluid exerting a positive gauge pressure upon an exterior of the microchannel unit operation, and where the microchannel unit operation includes an outlet orifice in fluid communication with an interior of the pressurized vessel. | 03-17-2011 |
20120184633 | MICROCHANNEL COMPRESSION REACTOR - The present invention includes a removable microchannel unit including an inlet orifice and an outlet orifice in fluid communication with a plurality of microchannels distributed throughout the removable microchannel unit, and a pressurized vessel adapted have the removable microchannel unit mounted thereto, the pressurized vessel adapted to contain a pressurized fluid exerting a positive gauge pressure upon at least a portion of the exterior of the removable microchannel unit. The invention also includes a microchannel unit assembly comprising a microchannel unit operation carried out within a pressurized vessel, where pressurized vessel includes a pressurized fluid exerting a positive gauge pressure upon an exterior of the microchannel unit operation, and where the microchannel unit operation includes an outlet orifice in fluid communication with an interior of the pressurized vessel. | 07-19-2012 |
20140357738 | MICROCHANNEL COMPRESSION REACTOR ASSEMBLY - The present invention includes a removable microchannel unit including an inlet orifice and an outlet orifice in fluid communication with a plurality of microchannels distributed throughout the removable microchannel unit, and a pressurized vessel adapted have the removable microchannel unit mounted thereto, the pressurized vessel adapted to contain a pressurized fluid exerting a positive gauge pressure upon at least a portion of the exterior of the removable microchannel unit. The invention also includes a microchannel unit assembly comprising a microchannel unit operation carried out within a pressurized vessel, where pressurized vessel includes a pressurized fluid exerting a positive gauge pressure upon an exterior of the microchannel unit operation, and where the microchannel unit operation includes an outlet orifice in fluid communication with an interior of the pressurized vessel. | 12-04-2014 |
20140364518 | MICROCHANNEL COMPRESSION REACTOR - A method of starting up one or more units, the method comprising the steps of: (a) starting up a first unit including a microchannel reactor housing a Fischer-Tropsch catalyst by initially feeding a carbon monoxide source and a hydrogen source to the first unit and through the microchannel reactor; (b) processing, within the microchannel reactor, at least a portion of the carbon monoxide source and the hydrogen source; (c) monitoring at least one of internal pressure, temperature, and concentration at least one of within the microchannel reactor and downstream from the microchannel reactor; (d) at least partially containing the microchannel reactor using a wall of a containment device, the wall cooperating with the microchannel reactor to delineate at least one of a first inlet cavity and a first outlet cavity of the microchannel reactor, where at least one of the first inlet cavity and the first outlet cavity is not in fluid communication with at least one of a second inlet cavity and a second outlet cavity; and, (e) using the containment device to reinforce the integrity of the microchannel reactor. | 12-11-2014 |