TH21037B - Removal of nitrogen oxides from gas stream - Google Patents

Abstract

DC60 (24/09/42) Temperature rise due to the exothermic exothermic reduction of nitrogen oxides present in a carbon dioxide gas stream. By contact of gas stream with ammonia in the reactor Which has a reduction catalyst that is controlled by returning the gaseous material that is escaped from the reactor. Used with gas streams before being introduced into the reactor. In that way, the contents of the reactor cool. Without dilution of carbon dioxide in the flow The temperature rise due to the exothermic exothermic reduction of nitrogen oxides present in the carbon dioxide gas stream. By contact of gas stream with ammonia in the reactor Which has a controlled reduction catalyst By removing the gaseous matter that is coming out of the reactor Used with gas stream before it is brought into the reactor. In that way, the contents of the reactor cool. Without dilution of carbon dioxide in the flow

Claims (2)

1. In a process for removing NOX from a gas stream containing NOX as a contaminant, Combined with the touch of a gas stream And ammonia in the reaction area Which has a catalyst made It reacts NOX with ammonia to produce a gas containing nitrogen and water vapor. Improvements Including continuous recovery of portions of the product gas into the gas stream through the method of sufficient dilution of NOX in the gas stream. To protect the temperature of the gas stream in the area Reaction from the rise to an important point This causes the catalyst to lose its agility at any time during the process. 2. The process of claim 1, in which the gas stream consists of carbon dioxide. Flue gas from combustion process 4. Method of claim 3, in which the flue gas contains additional sulfur oxides and the sulfur oxide removed from the gas stream. 5. Process of claim 1, in which the said product gas flowing from the reaction site is cooled by heat exchange with that gas stream. Before conduction 6. Process of claim 1, which removes moisture from the product gas. Before you bring it back 7. Process of claim 1, in which part of the product gas is compressed and recycled to the gas stream. 8. Process of claim 2, in which the product gas is sufficiently dried to remove all significant moisture. And then condense the carbon dioxide from the dry product gas 9. Method of claim 1, in which such gas stream contains at least 0.5 molar% NOX 1.0. In such gas flows it ranges from 0.5 to 1 molar% 1. 1. Procedure of claim 1, in which the amount of product gas that is recycled with Such gas flows It is sufficient to maintain the temperature rise in the reaction site below 70 ํ C 1. 2. The process of claim 1, in which the catalyst is Copper zeolite catalyst