TH50693A - Method for using gas reserves with low methane and high inert gas concentrations for fueling gas turbines. - Google Patents

Abstract

DC60 (05/03/44) The invention focuses on the method of supplying gas turbine fuel from natural gas reserves. With a relatively low methane concentration Invention uses such reserves to generate electricity, artificial intelligence allows for significantly lower use of these reserves than by producing natural gas. For pipelines for supplying fuel to gas turbines to generate electric power. These reserves are generally used after the separation of impurities to produce turbine fuel with the quality of natural gas in pipelines.The latter technology is now highly capitalized, and where current natural gas prices are unlikely. Interested in Economics The invention process can separate gaseous impurities from gas-natural reserves necessary for environmental protection and leave a large amount of inert gases in the fuel, which increases. Gas turbine output power for capacity production is approximately 5 to approximately 20%. The invention focuses on the method of supplying gas turbine fuel from natural gas reserves. With a relatively low methane concentration Invention uses such reserves to generate electricity, artificial intelligence allows for significantly lower use of these reserves than by producing natural gas. For pipelines for supplying gas turbines to generate electricity These reserves are generally used after the separation of impurities to produce turbine fuel with the quality of natural gas in pipelines.The latter is now highly capitalized, and where current natural gas prices are not. Interesting in Economics The invention process can separate gaseous impurities from gas-natural reserves necessary for environmental protection and leave a large amount of inert gases in the fuel, which increases. The output power of the gas turbine for power generation is approximately 5 to approximately 20%.

Claims (1)

Disclaimers (all) which will not appear on the advertisement page: 1. Methods for dispensing gas turbines containing methane from natural gas, which is from 40 to 80 percent by volume of methane, The methods include: procurement of first-order natural gas flows from natural gas reserves; Separation of inert gas from methane in natural gas stream first order to provide Separated and the inert gas / methane mixture was separated. Which is less than 40 percent by volume of methane; Mixing of mixtures of inert gas / separated methane gas and hydrogen To provide a higher hydrogen content inert gas / methane / hydrogen mixture Which has an effective amount of hydrogen gas For providing a stable flame for higher hydrogen inert gas / methane / hydrogen mixtures; and higher-hydrogen fueled turbines / methane / hydrogen fuel delivery. 2. Method for dispensing turbocharged fuel as requested in Clause 1 in which the inert gas / methane mixture was removed Which is less than 35 percent by the volume of methane compared to the volume of methane. And inert gas And mixture of inert gas / methane / hydrogen gas with Higher hydrogen, which is from 6 to 10 percent by volume of hydrogen gas. 3. Method for gas turbine fuel distribution as requested in Claim No. 1, where the inert gas / methane mixture is lift This is less than 20 percent by the volume of methane compared to the volume of methane. And inert gas And a mixture of inert gas / methane / hydrogen gas with higher hydrogen, which is from 6 to 10% by volume of hydrogen gas. 4. Method for supplying methane gas turbine fuel from reserve tank. Natural gas, which is from 40 to 80 percent by volume of methane. Which methods include Provision of natural gas No. 1 from natural gas reserves The removal of inert gas from methane in natural gas, first order, to provide stable methane gas. Excluded inert gas / methane mixture This is less than 40% by volume of methane. Removal of at least one acidic component from an inert gas / methane mixture that is lifted to provide a more inert gas / methane mixture is removed sulfur. Mixing a more inert gas / methane mixture that has been removed sulfur and water to form a more inert gas / methane mixture that has been removed from the hydrated ferret. Which will have water in part Mix inert gas / methane The more inert, sulfur is removed to be hydrated in effective amounts. Image for the transition The greater the proportion of methane in the inert gas / methane mixture. Which is removed sulfur to hydrogen gas And effective for containing gas mixtures Inert / methane / dehydrated higher hydrogen gas, bears a stable flame. The catalytic conversion of one part of methane to hydrogen gas in the gaseous mixture. Inert / more inert methane gas, which removes sulfur that is hydrated. To provide an inert gas / gas mixture Methane / hydrogen gas with higher hydrogen content Which is an effective replacement for the provision of Dehydrated higher inert gas / methane / hydrogen mixture provides stable flame and turbine gas distribution with inert gas / methane / hydrogen mixture containing hydrogen. The decider has a stable flame that is hydrated. 5. Method for the distribution of gas turbine fuel as requested in Clause 4, which methane. In an inert gas / methane mixture The more inert, which is removed, the hydrated sulfur is Changed with catalyst by means of a promoted catalyst selected from a group containing Iron / Chromium / Copper Copper / Zinc / Aluminum And mixtures of these substances 6. Procedures in accordance with Clause 5 in which inert gas / methane mixture The more sulfur removed is not higher than 35% by the volume of methane. And gas mixture Inert / methane / hydrogen gas, with higher hydrogen, dehydrated will consist of from 6 to 10 percent by volume of hydrogen gas 3 7. Method as requested in Clause 5, which Inert gas / methane mixture The more sulfur removed there is no higher than 20 percent by the volume of methane. And gas mixture Inert / methane / higher hydrogen gas that is dehydrated is composed from 6 to 10% by volume of hydrogen gas. 8. Methods for supplying gas turbines containing methane from Reserve Natural gas, which is from 40 to 80 percent by volume of methane. Which methods include Provision of natural gas No. 1 from natural gas reserves The removal of inert gas from methane in natural gas canisters to provide a strong methane. The more inert gas / methane mixture was removed and the more inert gas / methane mixture was removed. Which will be less than 40 percent by Methane volume A more inert gas / methane mixture that is lifted with water to form a mixture. The more inert gas / methane to be hydrated. Which will have water in a very inert gas / methane mixture Which was removed from the sulfur that was Hydrate is in the effective amount for allowing replacement. The more methane fraction in the inert gas / methane mixture is hydrogen gas and is more efficient for providing an inert gas / methane / hydrogen mixture with higher hydrogen content. Dehydrate to have a stable flame. The catalyst conversion per part of methane to hydrogen in the mixture. More inert gas / methane / water To provide a mixture of inert gas / methane / hydrogen gas with The higher the hydrogen that is hydrated. Which is an effective replacement for the preparation of ingredients Inert gas / methane / hydrogen gas with higher hydrogen that can be dehydrated to provide a stable flame. De-hydrate a more inert gas / hydrogen gas mixture that can be dehydrated to provide a stable flame and turbine gas dosing with an inert gas / methane / hydrogen mixture that Hydrogenated The higher the dehydrate to have a stable flame 9. Method for the distribution of gas turbine fuel as requested in Clause 8 in which methane in an inert gas / methane mixture. / The more inert water is replaced with a catalyst by using Chromium / Molybdenum Catalyst 1 0. Method for Clause 9 in which an inert gas / methane mixture More will be no higher than 35 percent by the volume of methane. And mixture of inert gas / methane / gas Hydrogen is the higher hydrogen that is dehydrated, there are from 6 to 10 percent by volume. Of hydrogen gas 1 1. Method as requested in Clause 9 in which inert gas / methane mixture There will be no higher than 20 percent by the volume of methane. And mixture of inert gas / methane / gas Hydrogen is the higher hydrogen that is dehydrated, it is composed of 6 to 10 percent by volume. Of hydrogen gas