Patent application number | Description | Published |
20080275142 | Method To Start A Process For Producing Hydrocarbons From Synthesis Gas - The present invention provides a method to start a steady state process for producing normally gaseous, normally liquid and optionally normally solid hydrocarbons from synthesis gas, which method comprises the steps of: (i) providing an activated catalyst in tubes of a fixed bed reactor, preferably a multitubular fixed bed reactor, the catalyst being suitable to convert synthesis gas to normally gaseous, normally liquid and optionally normally solid hydrocarbons; (ii) contacting the activated catalyst with a liquid to obtain a wetted activated catalyst; (iii) contacting the wetted activated catalyst with synthesis gas and catalytically converting the synthesis gas at an elevated temperature and pressure to obtain the normally gaseous, normally liquid and optionally normally solid hydrocarbons. | 11-06-2008 |
20080314800 | Process to Prepare a Base Oil - Process to optimize the yield of base oils from a Fischer-Tropsch derived feed by performing the following steps (a) performing a hydroconversion/hydroisomerisation step on part of the Fischer-Tropsch derived feed; (b) performing a hydro-conversion/hydroisomerisation step on another part of the Fischer-Tropsch feed at a conversion greater than the conversion in step (a); and (c) isolating by means of distillation a fraction boiling in the base oil range from the two reaction products obtained in steps (a) and (b) and performing a pour point reducing step on said fraction. | 12-25-2008 |
20090011134 | Zirconium Stabilised Fischer Tropsch Catalyst and Catalyst Support - The present invention relates to a method of preparing a catalyst support or a supported metal catalyst, the method comprising: (a) admixing a porous refractory oxide with a water soluble zirconium precursor in an alkaline solution, and if a supported metal catalyst is prepared, with a precursor of the metal, yielding a slurry, (b) drying the slurry, and (c) calcining; thus yielding a catalyst support or supported metal catalyst having an increased hydrothermal strength. The invention further relates to a method of preparing a catalyst body, the method comprising: (a) admixing a porous refractory oxide with a water soluble zirconium precursor in an alkaline solution, and if a supported metal catalyst is prepared, with a precursor of the metal or the metal itself, yielding a slurry, (b) coating metal with the slurry, (c) drying the coating, and (d) calcining; thus yielding a catalyst body comprising a catalyst support or supported metal catalyst having an increased hydrothermal strength In a preferred embodiment, the zirconium containing compound comprises zirconium carbonate in an ammonium solution. The improved hydrothermal strength is particularly suitable for slurry-type Fischer-Tropsch reactors. | 01-08-2009 |
20090018374 | HYDROGENATION CATALYST AND USE THEREOF FOR HYDROGENATING FISCHER-TROPSCH ENDPRODUCTS - A hydrogenation catalyst particularly suitable for hydrogenating oxygenates in a hydrogenation unit of a Fischer-Tropsch plant is disclosed. A preferred embodiment comprises more than 5% and less than 20% nickel based on a wide pore alumina support. The catalyst successfully hydrogenates oxygenates which otherwise tend to poison a catalyst in a hydroconversion unit downstream. Moreover, the temperature at which the unwanted hydrogenolysis of long chain paraffins to methane occurs is higher for one catalyst disclosed herein than a comparable known catalyst. This allows the hydrogenation plant to operate at a higher temperature. | 01-15-2009 |
20090124711 | Fischer-tropsch process and reactor assembly - A method of accommodating a reduction in production capacity of one or more reactors in a multi-reactor assembly adapted for the production of hydrocarbon products from syngas, the syngas being provided by a syngas manufacturing facility and provided to an entry stream system providing syngas to each of the reactors, and having an exit stream system taking at least hydrocarbon products from the reactors, wherein the method comprises the steps of: redistributing the syngas from the one or more said reactors to one or more other reactors, and increasing the temperature in the said one or more other reactors to at least partially take over the reduction in production capacity of the one or more reactors. | 05-14-2009 |
20090200203 | PROCESS FOR HYDROCRACKING AND HYDRO-ISOMERISATION OF A PARAFFINIC FEEDSTOCK - A process for hydrocracking and hydro-isomerisation of a paraffinic feedstock obtained by Fischer-Tropsch hydrocarbon synthesis comprising at least 50 wt % of components boiling above 370° C. to obtain a hydro-isomerised feedstock, the process comprising contacting the feedstock, in the presence of hydrogen, at elevated temperature and pressure with a catalyst comprising a hydrogenating compound supported on a carrier comprising amorphous silica-alumina, the carrier having a pore volume of at least 0.8 ml/g, wherein at most 40% of the pore volume comes from pores having a pore diameter above 35 nm and wherein at most 20% of the pore volume comes from pores having a pore diameter below 50 Å and above 37 Å, the carrier having a median pore diameter of at least 85 Å, wherein the product of (surface area per pore volume) and (median pore diameter as measured by mercury intrusion porosimetry) of the carrier is at least 34,000 Å·m | 08-13-2009 |
20100160461 | INTEGRATED PROCESS AND REACTOR ARRANGEMENT FOR HYDROCARBON SYNTHESIS - The present invention relates to a process for producing normally gaseous, normally liquid and optionally normally solid hydrocarbons during a production cycle (i.e. between regenerations or between start-up with freshly loaded catalyst and the first regeneration) by catalytic conversion of synthesis gas in a multiple reactor arrangement comprising at least two parallel operating reactors containing a catalyst capable of converting synthesis gas to hydrocarbons, and each reactor having a different relative reaction rate, wherein synthesis gas is distributed to each reactor at a feed rate proportional to the relative reaction rate in the respective reactor. It further relates to a reactor arrangement suitable for operating the process according to the invention for producing normally gaseous, normally liquid and optionally normally solid hydrocarbons during a production cycle by catalytic conversion of synthesis gas comprising at least two parallel operating reactors, each containing a catalyst, wherein the reactors are connected to a common header for the distribution of synthesis gas to the reactors, and wherein the common header comprises a distribution means for selectively controlling the amount of synthesis gas fed to each reactor. | 06-24-2010 |
20100184874 | FISCHER-TROPSCH PROCESS - The present invention pertains to a Process for carrying out a high-speed stop in a Fischer-Tropsch process which comprises providing a feed comprising CO and H | 07-22-2010 |
20110139678 | PROCESS FOR CONVERSION OF PARAFFINIC FEEDSTOCK - The present invention provides a process for the conversion of a paraffinic feedstock that comprises at least 50 wt % of compounds boiling above 370° C. and which has a paraffin content of at least 60 wt %, an aromatics content of below 1 wt %, a naphthenic content below 2 wt % a nitrogen content of below 0.1 wt %, and a sulphur content of below 0.1 wt %, which process comprises the steps of: (a) providing the feedstock to a reaction zone, where it is contacted with hydrogen at a temperature in the range of 175 to 400° C. and a pressure in the range of 20 to 100 bar in the presence of a catalyst comprising 0.005 to 5.0 wt % of a Group 8 noble metal on a carrier, the carrier comprising 0.1-15 wt % of a zeolite beta and at least 40 wt % of an amorphous silica-alumina, calculated on the weight of the catalyst, said zeolite beta having a silica:alumina molar ratio of at least 50, and said amorphous silica-alumina having an alumina content, calculated as Al | 06-16-2011 |
20140326639 | INTEGRATED GAS-TO-LIQUID CONDENSATE PROCESS AND APPARATUS - A process for production of middle distillate fraction from gas-to-liquid (GTL) conversion comprising providing a feed stream comprising natural gas and separating a condensate from the feed stream to produce a condensate stream and a feed stream; processing the feed stream via a Fischer-Tropsch (FT) reaction to generate a long chain hydrocarbon product stream; processing the product stream via a heavy paraffinic conversion in order to produce a FT product stream; treating the condensate stream with a desulfurization step to generate a condensate product stream; combining the FT product stream with the condensate product stream to provide a distillate feed stream; and performing a distillation step on the distillation feed stream, wherein the processing steps occur substantially concurrently with the treating step and wherein distillation provides for isolation of middle distillate products. Middle distillate fractions and fuel oils/fuel oil blends obtained according to the process are also provided. | 11-06-2014 |