Patent application number | Description | Published |
20120248009 | PROCESS FOR PRODUCING DIESEL - A process is disclosed for hydrocracking hydrocarbon feed in a hydrocracking unit and hydrotreating a diesel product from the hydrocracking unit in a hydrotreating unit. The hydrocracking unit and the hydrotreating unit shares the same recycle gas compressor. A warm separator separates recycle gas and hydrocarbons from diesel in the hydrotreating effluent, so fraction of the diesel is relatively simple. The warm separator also keeps the diesel product separate from the more sulfurous diesel in the hydrocracking effluent, and still retains heat needed for fractionation of lighter components from the low sulfur diesel product. | 10-04-2012 |
20120248010 | PROCESS FOR MILD HYDROCRACKING - A process is disclosed for hydroprocessing two hydrocarbon streams at two different pressures. A hydrogen stream is compressed and split. A first split compressed stream is further compressed to feed a first hydroprocessing unit that requires higher pressure for operation. A second split compressed stream is fed to a second hydroprocessing unit that requires lower pressure. Recycle hydrogen from the second hydroprocessing unit is recycled back to the compression section. | 10-04-2012 |
20120248011 | PROCESS FOR HYDROPROCESSING TWO STREAMS - A process is disclosed for hydroprocessing two hydrocarbon streams at two different pressures. A hydrogen stream is compressed and split. A first split compressed stream is further compressed to feed a first hydroprocessing unit that requires higher pressure for operation. A second split compressed stream is fed to a second hydroprocessing unit that requires lower pressure. Recycle hydrogen from the second hydroprocessing unit is recycled back to the compression section. | 10-04-2012 |
20120251403 | APPARATUS FOR PRODUCING DIESEL - An apparatus is disclosed for hydrocracking hydrocarbon feed in a hydrocracking unit and hydrotreating a diesel product from the hydrocracking unit in a hydrotreating unit. The hydrocracking unit and the hydrotreating unit shares the same recycle gas compressor. A warm separator separates recycle gas and hydrocarbons from diesel in the hydrotreating effluent, so fraction of the diesel is relatively simple. The warm separator also keeps the diesel product separate from the more sulfurous diesel in the hydrocracking effluent, and still retains heat needed for fractionation of lighter components from the low sulfur diesel product. | 10-04-2012 |
20120292228 | PROCESS FOR HYDROPROCESSING HYDROCARBONS - An apparatus and process is disclosed for hydroprocessing hydrocarbon feed in a hydroprocessing unit and hydrotreating a second hydrocarbon. The hydrotreating effluent is mixed with hydroprocessing effluent and together fractionated. | 11-22-2012 |
20120292229 | PROCESS FOR HYDROPROCESSING HYDROCARBONS - An apparatus and process is disclosed for hydroprocessing hydrocarbon feed in a hydroprocessing unit and hydrotreating a second hydrocarbon. A warm separator sends vaporous hydrotreating effluent to be flashed with liquid hydroprocessing effluent to produce a vapor flash overhead that can be recycled to the hydrotreating unit to provide hydrogen requirements. | 11-22-2012 |
20120294772 | APPARATUS FOR HYDROPROCESSING HYDROCARBONS - An apparatus and process is disclosed for hydroprocessing hydrocarbon feed in a hydroprocessing unit and hydrotreating a second hydrocarbon. The hydrotreating effluent is mixed with hydroprocessing effluent and together fractionated. | 11-22-2012 |
20120294773 | APPARATUS FOR HYDROPROCESSING HYDROCARBONS - An apparatus and process is disclosed for hydroprocessing hydrocarbon feed in a hydroprocessing unit and hydrotreating a second hydrocarbon. A warm separator sends vaporous hydrotreating effluent to be flashed with liquid hydroprocessing effluent to produce a vapor flash overhead that can be recycled to the hydrotreating unit to provide hydrogen requirements. | 11-22-2012 |
20130098803 | PROCESS AND APPARATUS FOR PRODUCING DIESEL - A process and apparatus are disclosed for hydrocracking hydrocarbon feed in a hydrocracking unit and hydrotreating a diesel product from the hydrocracking unit in a hydrotreating unit. The hydrocracking unit and the hydrotreating unit share the same recycle gas compressor. A make-up hydrogen stream may also be compressed in the recycle gas compressor. A warm separator separates recycle gas and hydrocarbons from diesel in the hydrotreating effluent, so fraction of the diesel is relatively simple. The warm separator also keeps the diesel product separate from the more sulfurous diesel in the hydrocracking effluent, and still retains heat needed for fractionation of lighter components from the low sulfur diesel product. | 04-25-2013 |
20130101475 | PROCESS AND APPARATUS FOR PRODUCING DIESEL - A process and apparatus are disclosed for hydrocracking hydrocarbon feed in a hydrocracking unit and hydrotreating a diesel product from the hydrocracking unit in a hydrotreating unit. The hydrocracking unit and the hydrotreating unit share the same recycle gas compressor. A make-up hydrogen stream may also be compressed in the recycle gas compressor. A warm separator separates recycle gas and hydrocarbons from diesel in the hydrotreating effluent, so fraction of the diesel is relatively simple. The warm separator also keeps the diesel product separate from the more sulfurous diesel in the hydrocracking effluent, and still retains heat needed for fractionation of lighter components from the low sulfur diesel product. | 04-25-2013 |
Patent application number | Description | Published |
20090047441 | Coating compositions containing a carbinol functional silicone resin or an anhydride functional silicone resin - A radiation or thermal curable coating composition contains a cycloaliphatic epoxide resin, a carbinol functional silicone resin or an anhydride functional silicone resin, and a thermal or photoactivated acid catalyst. An organic polyol may also be included in the composition as an optional component. The composition is useful as a radiation curable coating, as an adhesive, a photodefinable coating, or as a thermal cure coating. The cycloaliphatic epoxide resin adds toughness and adhesion to the composition, whereas either of the carbinol functional silicone resin or the anhydride functional silicone resin provides the composition with water resistance, weatherability, thermal stability, and flexibility. | 02-19-2009 |
20100216940 | NONLINEAR POLYSILOXANE CONTAINING COATINGS WITH IMPROVED ADHESION PROPERTIES - A coating composition, which may be a two-component coating composition, comprises a film-forming material, a crosslinking agent, and a nonlinear polysiloxane polymer having a functional group reactive with the crosslinking agent. The coating composition exhibits excellent scratch resistance and adhesion of repair coating layers and sealants, such as windshield sealants. | 08-26-2010 |
20110262375 | Alkyl-Phenyl Silsesquioxane Resins Compositions - Compositions comprising a powder and an alkyl-phenyl silsesquioxane resin are disclosed. These compositions are particularly useful in a variety of personal or medical care compositions to enhance the durability and substantivity of powders after topical application. | 10-27-2011 |
20110294965 | BODIED SILOXANE RESIN INCLUDING M, Q, AND T-PROPYL UNITS AND CAPPED WITH ADDITIONAL M UNITS - A bodied siloxane resin comprises M, Q, and T-propyl units and is capped with additional M units. The bodied siloxane resin contains less silanol groups than the bodied siloxane resin before being capped with additional M units. | 12-01-2011 |
20130203945 | Method Of Preparing A Bodied Siloxane Resin Including M, Q, And T-Propyl Units And Capped With Additional M Units - A bodied siloxane resin comprises M, Q, and T-propyl units and is capped with additional M units. The bodied siloxane resin contains less silanol groups than the bodied siloxane resin before being capped with additional M units. | 08-08-2013 |
20130289293 | Method Of Forming An MT-Propyl Siloxane Resin - A method of forming an MT-propyl siloxane resin includes the steps of hydrolyzing propyl trichlorosilane in an excess of water to provide a T-propyl siloxane resin and capping the T-propyl siloxane resin formed from the hydrolysis of the propyl trichlorosilane with a silicon-containing M-group capping agent to form the MT-propyl siloxane resin. The MT-propyl siloxane resin is useful in a variety of personal care applications, and in particular, as an additive to personal care compositions. | 10-31-2013 |
Patent application number | Description | Published |
20120214005 | METHOD FOR PRODUCING HYDRIDOSILANES - The invention relates to a method for producing hydridosilanes from halosilanes by a) reacting i) at least one halosilane of the generic formula Si | 08-23-2012 |
20120273805 | METHOD FOR PRODUCING SILICON LAYERS - The invention relates to a liquid-phase method for the thermal production of silicon layers on a substrate, wherein at least one higher silicon that can be produced from at least one hydridosilane of the generic formula Si | 11-01-2012 |
20120291665 | METHOD FOR OLIGOMERIZING HYDRIDOSILANES, THE OLIGOMERS THAT CAN BE PRODUCED BY MEANS OF THE METHOD, AND THE USE THEREOF - The present invention relates to a method for oligomerizing hydridosilanes, wherein a composition comprising substantially at least one non-cyclic hydridosilane having a maximum of 20 silicon atoms as the hydridosilane is thermally converted at temperatures below 235° C. in the absence of a catalyst, the oligomers that can be produced according to the method, and the use thereof. | 11-22-2012 |
20130168824 | P-DOPED SILICON LAYERS - The invention relates to a process for producing p-doped silicon layers, especially those silicon layers which are produced from liquid silane-containing formulations. The invention further relates to a substrate coated with a p-doped silicon layer. The invention additionally relates to the use of particular dopants based on boron compounds for p-doping of a silicon layer. | 07-04-2013 |
20130183223 | METHOD FOR PRODUCING HIGHER HYDRIDOSILANE COMPOUNDS - The present invention relates to a rapid and metal-free process for preparing high order hydridosilane compounds from low order hydridosilane compounds, wherein at least one low order hydridosilane compound (I) is thermally reacted in the presence of at least one hydridosilane compound (II) having a weight average molecular weight of at least 500 g/mol, to the hydridosilane compounds obtainable by the process and to their use. | 07-18-2013 |
20130240892 | METHOD FOR CONVERTING SEMICONDUCTOR LAYERS - The present invention relates to a process for conversion of semiconductor layers, especially for conversion of amorphous to crystalline silicon layers, in which the conversion is effected by treating the semiconductor layer with a plasma which is generated by a plasma source equipped with a plasma nozzle ( | 09-19-2013 |
20130259790 | PROCESS FOR PREPARING HIGHER HALOSILANES AND HYDRIDOSILANES - The invention relates to a process for preparing higher halosilanes by disproportionation of lower halosilanes. The invention further relates to a process for preparing higher hydridosilanes from the higher halosilanes prepared by disproportionation. The invention further relates to mixtures containing at least one higher halosilane or at least one higher hydridosilane prepared by the process described. Finally, the invention relates to the use of such a mixture containing at least one higher hydridosilane for producing electronic or optoelectronic component layers or for producing silicon-containing layers. | 10-03-2013 |
20130259791 | PROCESS FOR PREPARING HYDRIDOSILANES - The present invention relates to a process for preparing hydridosilanes from halosilanes, in which a) i) at least one halosilane of the generic formula Si | 10-03-2013 |
20130328175 | METHOD FOR THE HYDROGEN PASSIVATION OF SEMICONDUCTOR LAYERS - The present invention relates to a method for the hydrogen passivation of semiconductor layers, wherein the passivation is effected by using an arc plasma source, to the passivated semiconductor layers produced according to the method, and to the use thereof. | 12-12-2013 |