Patent application number | Description | Published |
20140318093 | CERAMIC FILTER FOR EXHAUST GAS PARTICULATES HAVING ASYMMETRIC CHANNELS - The present invention allows tailoring the filter design for optimal engine performance by providing the desirable ratio of greater than one, without necessitating an increase of the overall filter volume and without decreasing filter efficiency. Moreover, the present invention allows an increase in the ratio, while at the same time reducing, the overall filter volume, or in other words, providing smaller filter volume for a given ratio. In addition, the present invention preserves Identical inlet channel surface and outlet channel surface areas, while having the ratio value of greater than one. These advantages achieved by having unique geometry of the cross-sectional area of the inlet and outlet channels, where both channels have the same perimeter length in every embodiment of the invention. The present invention provides continuous variability in the selection of the ratio values which is not constricted by the geometry or other consideration, thereby better addressing the specific needs of various engines, and allowing fine tuning of optimal balance between the high soot capacity and low pressure drop requirements. | 10-30-2014 |
20150129106 | PROCESS FOR BONDING ARRAYS OF CERAMIC FILTERS - A method comprising; a) assembling a plurality of ceramic filters, into an array wherein two or more of the outer surfaces of each filter are located adjacent to outer surfaces of other ceramic filters with removable spacers located between the adjacent surfaces of ceramic filters such that the spaces between, the adjacent surfaces are uniform m a work surface; b)removing sequentially one or more of the ceramic filters or horizontal rows of the ceramic filters and removing the spacers between adjacent surfaces until a single ceramic fitter or horizontal row remains; c) applying a cement layer to the outer surface of the single ceramic filter or horizontal row on the work surface; d) replacing the next adjacent ceramic filter or horizontal row of ceramic filters in the location the ceramic filler or horizontal row of ceramic filters were removed from; e) sequentially applying layers of cement to the outer surface of a ceramic filter or outer surfaces of a horizontal row of ceramic filters and replacing the next adjacent ceramic filter or horizontal, row of ceramic filters in the location or locations the ceramic filter or horizontal rows of ceramic filters were removed from, until all of the ceramic filters are replaced in the same position on the work surface with uniform cement layers located between all adjacent surfaces of rise ceramic filters. | 05-14-2015 |
Patent application number | Description | Published |
20080249342 | Production of Aromatics from Methane - In a process for converting methane to aromatic hydrocarbons, a feed containing methane and a particulate catalytic material are supplied to a reaction zone operating under reaction conditions effective to convert at least a portion of the methane to aromatic hydrocarbons and to deposit carbonaceous material on the particulate catalytic material causing catalyst deactivation. At least a portion of the deactivated particulate catalytic material is removed from the reaction zone and is heated to a temperature of about 700° C. to about 1200° C. by direct and/or indirect contact with combustion gases produced by combustion of a supplemental fuel. The heated particulate catalytic material is then regenerated with a hydrogen-containing gas under conditions effective to convert at least a portion of the carbonaceous material thereon to methane and the regenerated catalytic particulate material is recycled back to the reaction zone. | 10-09-2008 |
20090030253 | Production of Aromatics from Aliphatics - In a process for converting a low carbon number aliphatic hydrocarbon to higher hydrocarbons including aromatic hydrocarbons, a feed containing the aliphatic hydrocarbon is contacted with a dehydrocyclization catalyst under conditions effective to convert the aliphatic hydrocarbon to aromatic hydrocarbons and produce an effluent stream comprising aromatic hydrocarbons and hydrogen. The dehydrocyclization catalyst comprises a metal or metal compound and a molecular sieve wherein the ratio of the amount of any Bronsted acid sites in the catalyst to the amount of said metal in the catalyst is less than 0.4 mol/mol of said metal. | 01-29-2009 |
20090270650 | Method and apparatus for carbonylating methanol with acetic acid enriched flash stream - A carbonylation process for producing acetic acid including: (a) carbonylating methanol or its reactive derivatives in the presence of a Group VIII metal catalyst and methyl iodide promoter to produce a liquid reaction mixture including acetic acid, water, methyl acetate and methyl iodide; (b) feeding the liquid reaction mixture at a feed temperature to a flash vessel which is maintained at a reduced pressure; (c) heating the flash vessel while concurrently flashing the reaction mixture to produce a crude product vapor stream, wherein the reaction mixture is selected and the flow rate of the reaction mixture fed to the flash vessel as well as the amount of heat supplied to the flash vessel is controlled such that the temperature of the crude product vapor stream is maintained at a temperature less than 90° F. cooler than the feed temperature of the liquid reaction mixture to the flasher and the concentration of acetic acid in the crude product vapor stream is greater than 70% by weight of the crude product vapor stream. | 10-29-2009 |
20110021817 | Method and apparatus for carbonylating methanol with acetic acid enriched flash stream - A carbonylation process for producing acetic acid including: (a) carbonylating methanol or its reactive derivatives in the presence of a Group VIII metal catalyst and methyl iodide promoter to produce a liquid reaction mixture including acetic acid, water, methyl acetate and methyl iodide; (b) feeding the liquid reaction mixture at a feed temperature to a flash vessel which is maintained at a reduced pressure; (c) heating the flash vessel while concurrently flashing the reaction mixture to produce a crude product vapor stream, wherein the reaction mixture is selected and the flow rate of the reaction mixture fed to the flash vessel as well as the amount of heat supplied to the flash vessel is controlled such that the temperature of the crude product vapor stream is maintained at a temperature less than 90° F. cooler than the feed temperature of the liquid reaction mixture to the flasher and the concentration of acetic acid in the crude product vapor stream is greater than 70% by weight of the crude product vapor stream. | 01-27-2011 |
20130058842 | Method and Apparatus for Carbonylating Methanol with Acetic Acid Enriched Flash Stream - A carbonylation process for producing acetic acid including: (a) carbonylating methanol or its reactive derivatives in the presence of a Group VIII metal catalyst and methyl iodide promoter to produce a liquid reaction mixture including acetic acid, water, methyl acetate and methyl iodide; (b) feeding the liquid reaction mixture at a feed temperature to a flash vessel which is maintained at a reduced pressure; (c) heating the flash vessel while concurrently flashing the reaction mixture to produce a crude product vapor stream, wherein the reaction mixture is selected and the flow rate of the reaction mixture fed to the flash vessel as well as the amount of heat supplied to the flash vessel is controlled such that the temperature of the crude product vapor stream is maintained at a temperature less than 90° F. cooler than the feed temperature of the liquid reaction mixture to the flasher and the concentration of acetic acid in the crude product vapor stream is greater than 70% by weight of the crude product vapor stream. | 03-07-2013 |
20140323760 | Method and Apparatus for Carbonylating Methanol with Acetic Acid Enriched Flash System - A carbonylation process for producing acetic acid including: (a) carbonylating methanol or its reactive derivatives in the presence of a Group VIII metal catalyst and methyl iodide promoter to produce a liquid reaction mixture including acetic acid, water, methyl acetate and methyl iodide; (b) feeding the liquid reaction mixture at a feed temperature to a flash vessel which is maintained at a reduced pressure; (c) heating the flash vessel while concurrently flashing the reaction mixture to produce a crude product vapor stream, wherein the reaction mixture is selected and the flow rate of the reaction mixture fed to the flash vessel as well as the amount of heat supplied to the flash vessel is controlled such that the temperature of the crude product vapor stream is maintained at a temperature less than 90° F. cooler than the feed temperature of the liquid reaction mixture to the flasher and the concentration of acetic acid in the crude product vapor stream is greater than 70% by weight of the crude product vapor stream. | 10-30-2014 |
20150175516 | Method and Apparatus for Carbonylating Methanol With Acetic Acid Enriched Flash Stream - A carbonylation process for producing acetic acid including: (a) carbonylating methanol or its reactive derivatives in the presence of a Group VIII metal catalyst and methyl iodide promoter to produce a liquid reaction mixture including acetic acid, water, methyl acetate and methyl iodide; (b) feeding the liquid reaction mixture at a feed temperature to a flash vessel which is maintained at a reduced pressure; (c) heating the flash vessel while concurrently flashing the reaction mixture to produce a crude product vapor stream, wherein the reaction mixture is selected and the flow rate of the reaction mixture fed to the flash vessel as well as the amount of heat supplied to the flash vessel is controlled such that the temperature of the crude product vapor stream is maintained at a temperature less than 90° F. cooler than the feed temperature of the liquid reaction mixture to the flasher and the concentration of acetic acid in the crude product vapor stream is greater than 70% by weight of the crude product vapor stream. | 06-25-2015 |
Patent application number | Description | Published |
20090131374 | PROTEIN TYROSINE PHOSPHATASE INHIBITORS AND METHODS OF USE THEREOF - The present invention provides compounds of Formula (I) and Formula (II) that are useful for modulating the biological activity of the protein tyrosine phosphatase-1b (PTP1B) enzyme. Compounds of this invention can be used to treat diseases and/or conditions in which the PTP1B enzyme is a factor. Such diseases and/or conditions include, but are not limited to, Type 1 diabetes, Type 2 diabetes, inadequate glucose tolerance, insulin resistance, obesity, hyperlipidemia, hypertriglyceridemia, hypercholesterolemia, low HDL levels, atherosclerosis, vascular restenosis, inflammatory bowel disease, pancreatitis, adipose cell tumors, adipose cell carcinoma, liposarcoma, dyslipidemia, cancer, and neurodegenerative diseases. | 05-21-2009 |
Patent application number | Description | Published |
20090099190 | Kinase inhibitors useful for the treatment of proliferative diseases - The present invention relates to novel kinase inhibitors and modulator compounds useful for the treatment of various diseases. More particularly, the invention is concerned with such compounds, kinase/compound adducts, methods of treating diseases, and methods of synthesis of the compounds. Preferrably, the compounds are useful for the modulation of kinase activity of Raf kinases and disease polymorphs thereof. Compounds of the present invention find utility in the treatment of mammalian cancers and especially human cancers including but not limited to malignant melanoma, colorectal cancer, ovarian cancer, papillary thyroid carcinoma, non small cell lung cancer, and mesothelioma. Compounds of the present invention also find utility in the treatment of rheumatoid arthritis and retinopathies including diabetic retinal neuropathy and macular degeneration. | 04-16-2009 |
20110118271 | Kinase Inhibitors Useful For The Treatment Of Proliferative Diseases - The present invention relates to novel kinase inhibitors and modulator compounds useful for the treatment of various diseases. More particularly, the invention is concerned with such compounds, kinase/compound adducts, methods of treating diseases, and methods of synthesis of the compounds. Preferrably, the compounds are useful for the modulation of kinase activity of Raf kinases and disease polymorphs thereof. Compounds of the present invention find utility in the treatment of mammalian cancers and especially human cancers including but not limited to malignant melanoma, colorectal cancer, ovarian cancer, papillary thyroid carcinoma, non small cell lung cancer, and mesothelioma. Compounds of the present invention also find utility in the treatment of rheumatoid arthritis and retinopathies including diabetic retinal neuropathy and macular degeneration. | 05-19-2011 |
20120289540 | KINASE INHIBITORS USEFUL FOR THE TREATMENT OF PROLIFERATIVE DISEASES - The present invention relates to novel kinase inhibitors and modulator compounds useful for the treatment of various diseases. More particularly, the invention is concerned with such compounds, kinase/compound adducts, methods of treating diseases, and methods of synthesis of the compounds. Preferrably, the compounds are useful for the modulation of kinase activity of Raf kinases and disease polymorphs thereof. Compounds of the present invention find utility in the treatment of mammalian cancers and especially human cancers including but not limited to malignant melanoma, colorectal cancer, ovarian cancer, papillary thyroid carcinoma, non small cell lung cancer, and mesothelioma. Compounds of the present invention also find utility in the treatment of rheumatoid arthritis and retinopathies including diabetic retinal neuropathy and macular degeneration. | 11-15-2012 |
20140275016 | N-Acyl-N'-(pyridin-2-yl) Ureas and Analogs Exhibiting Anti-Cancer and Anti-Proliferative Activities - Described are compounds of Formula 1 | 09-18-2014 |
20140275080 | N-Acyl-N'-(pyridin-2-yl) Ureas and Analogs Exhibiting Anti-Cancer and Anti-Proliferative Activities - Described are compounds of Formula I | 09-18-2014 |
20140315917 | IMIDAZOLIDINONES AND ANALOGS EXHIBITING ANTI-CANCER AND ANTI-PROLIFERATIVE ACTIVITIES - Described are compounds of Formula I | 10-23-2014 |
20150105367 | RAF INHIBITOR COMPOUNDS - This invention provides compounds of Formula (I) or a pharmaceutically acceptable salt thereof; pharmaceutical compositions comprising a compound of Formula (I); and use of a compound of Formula (I) for treating specified cancers. | 04-16-2015 |