TH49059A3 - Gas replacement using hydro gas in synthesis for the removal of sulfur from hydrocarbon fluids obtained from gas wells. - Google Patents

Abstract

DC60 gas conversion process which includes Gas production in synthesis, hydrocarbon synthesis and production of hydrogen from gas in synthesis Also includes the removal of sulfur Hydro of hydrocarbon fluids containing sulfur Which can be separated from natural gas mixtures And hydrocarbon fluids obtained from gas holes Hydrogen produced from gas in the synthesis is Used for the sulfur removal reaction using hydro. Hydrogen is produced from gas for synthesis. By using one or more of (i) physical separation pathways such as adsorption using Alternating pressure and (ii) chemical pathways such as water gas shift reactors. Hydrocarbons that Synthesis was upgraded by switching using hydro. Part of hydrogen that is produced from gas In synthesis It may be used for at least one of the following benefits of (i) hydrocarbon synthesis catalyst recovery and (ii) hydrocarbon-based replacement, gas conversion processes, which include: with Gas production in synthesis, hydrocarbon synthesis and production of hydrogen from gas in synthesis Also includes the removal of sulfur Hydrogen of a hydrocarbon liquid containing sulfur Which can be separated from natural gas mixtures And hydrocarbon fluids obtained from gas holes Hydrogen produced from gas in the synthesis is Used for the sulfur removal reaction using hydro. Hydrogen is produced from gas for synthesis. By using one or more of (i) physical separation pathways such as adsorption using Alternating pressure and (ii) chemical pathways such as water gas shift reactors. Hydrocarbons that Synthesis was upgraded by switching using hydro. Part of hydrogen that is produced from gas In synthesis It may be used for at least one of the following benefits of (i) hydrocarbon synthesis catalyst recovery and (ii) hydrocarbon replacement.

Claims (1)

1. The gas change process, which includes Production of mixtures of natural gas and C4- hydrocarbons containing sulfur From the gas well and the separation of such hydrocarbons from the gas Such nature Which includes hydrocarbon gases, causing gas in the synthesis that Contains mixtures of H2 and CO from the aforementioned hydrocarbon gases, synthesis Hydrocarbons by providing part of the gas in such synthesis Exposure to catalysts Hydrocarbon synthesis And reacting H2 and CO with such a catalyst It is also in conditions that are effective against hydrocarbon formation, at least in part. Of hydrocarbons Which will be upgraded by operating the switch using hydro. (hydroconversion) one or more steps, the production of hydrogen from another part of the gas in Such synthesis And the aforementioned hydrogenation reacts with liquids containing such sulfur. With a sulfur removal catalyst using hydro (hydrodesulfurization) in the state The reaction is effective to remove at least part of the said sulfur in H2S form and produce sulfur-eliminated hydrocarbon liquids. 2. Process according to claim 1, where such hydrogen It is produced from gases in such synthesis by at least one (i) physical separation and (ii) chemical pathway. 3. Process according to claim 2, where such hydrogen It is produced from such synthetic gases by means of physical separation. 4. Process according to claim 3, whereby the hydrogen production pathway Including reaction Water gas shift (water gas shift) 5. Process according to claim 2, whereby hydrocarbons Was synthesized by doing The reaction of the mixture of H2 and CO with hydrocarbon synthesis catalyst. The fischer trop type is present in a reaction condition that is effective to cause Hydrocarbons, at least part of that hydrocarbon. Which is a solid at the temperature state And standard pressure at room temperature 6. Process according to claim 5, whereby the aforementioned hydrocarbon synthesis contains cobalt-accelerated constituents. 7. Process according to claim 6, whereby the aforementioned hydrocarbon synthesis reactions take place in a slurry consisting of The hydrocarbon synthesis catalyst and the bubbles of the H2 and CO gases in the slurry, the liquid containing the synthesized hydrocarbons, the said liquid. 8. Process according to claim 1, in which at least part of such hydrogen Produced From gases in such synthesis are used For at least one of (i) replacement operations By using Hydro for such upgrades, (ii) catalyst resilience recovery. Hydrocarbon synthesis and (iii) synthesis of such hydrocarbons. 9. Process according to claim 1, which is a replacement using the said hydro Will produce tail gas with Hydrogen, which is to be used for at least one of (i) catalyst recovery reactivity. Hydrocarbon synthesis reactions, (ii) the production of such hydrogen and (iii) synthesis. Such hydrogen 1 0. Process according to claim 2, whereby the production of hydrogen Will produce offgas containing large amounts of CO It is used for the synthesis of one or more hydrocarbons and fuels 1. 1. The gas conversion process includes: (a) the separation of mixtures which include: Hydrocarbon gas And C4 + hydrocarbons containing sulfur from natural gas wells; (b) separation of at least part of the sulfur-containing C4 hydrocarbons from The mixture thereof; (c) The flow of the separated gas reacts with oxygen. And water vapor to generate gas in Synthesis Which consists of a mixture of H2 and CO; (d) the giving of a part of the synthesis gas Exposure to the catalyst Synthetic hydrocarbons And the reaction of H2 and CO in such reaction conditions effective to hydrocarbon formation, at least part Of that hydrocarbon It is upgraded by one or more conversion operations (e) the production of hydrogen from another part of the synthesis gas, and (f) the reaction of the hydrogen sulfur-containing C4 + hydrocarbons. With hydro removal catalyst In the reaction conditions with Efficient removal of at least one part of the said sulfur in the form of H2S and resulting in the formation of C4 + de-sulfur hydrocarbon liquid 1 2. Process according to claim 11 whereby hydrogen It is produced from the gas in such synthesis by at least one of the (i) separation paths and (ii) the chemical path 1 3. The process of claim 12, where at least part of the hydrocarbon That's right Synthesized Was reacted with hydrogen in the transition region using the hydro at The reaction conditions are effective to change the molecular structure of at least part of the Hydrocarbons are converted using Hydro 1 4. Process in accordance with claim 13, whereby the hydrocarbon synthesis catalyst A reversible degradation of agility occurred during the synthesis. And by that part The hydrogen produced from the said synthetic gas is also used in the following processes. At least one of (i) the reactivity of the aforementioned catalyst and (ii) the hydro-replacement 1 5. Process of claim 12 whereby the hydrogen is used. Obtained by separating hydrogen Physical exits of the gas in such synthesis Which also causes off gas This includes H2 and CO, where the H2 content is less than the H2 in the gas in the said synthesis. Was produced from The aforementioned Hydro Replacement Reactions 1 7. Process according to claim 16, where at least part of the said tail gas is used to provide hydrogen for the said hydro conversion reaction 1 8. Process according to claim 16, where part of the tail gas is Was used for At least one of (i) the reactivity of the synthesis catalyst was Hydrocarbons, (ii) their use as part of such synthetic gas feeders for the aforementioned hydrocarbon synthesis reactions, and (iii) their use as a production feeder. Such hydrogen 1 9. Process according to claim 12, whereby such chemical path Compounded by reaction Water Gas Shift 2 0. Process according to claim 2, which method of separation Include at least one method of (i) alternating pressure adsorption and (ii) alternating heat adsorption 2. 1. Process according to claim 12, which the method of separation said Includes at least one method of (i) alternating pressure adsorption and (ii) alternating heat adsorption.