TH27586B - Flue gas treatment system - Google Patents

Abstract

Reactive carbon fibers for use in flue gas applications can be Came by operating with the heat of The activated carbon fiber is the starting material. From polyacrylonitrile, tar or the like in a non-oxidizing atmosphere. Heat treatment temperature Popular in the range of 600 to 1,200 ํ for use in Reduce the sulfur of the flue gas and in the range of 600 to 1000 ํ for use in nitrate reduction. Of flue gas By using carbon fiber fibers, the reaction from the resulting heat treatment For the purpose of reducing the sulfur. Concentration of sulfur oxide in flue gas It can be reduced to 5 ppm or lower, moreover, by the use of fast carbon fibers. Thermophilic reaction with conventional nitrate reduction To which relies on reduction by the selection of a catalyst Concentration of nitrogen oxides in flue gas It can be reduced to 1 ppm or lower.

Claims (3)

1. Process of reducing sulfur This includes the introduction of SO2-containing gases, water and oxygen into contact with the thermally reactive carbon fibers. For use in the sulfur reduction, the thermally treated carbon fiber was obtained by heat treatment on The reactive carbon fiber is the starting material in the non-oxidizing atmosphere at a temperature of 600 ํ to 1200 ํ. 2. The sulfur reduction process as specified in claim 1, whereby the reactive carbon fiber That is the starting material is Reactive carbon fibers that are polyacrylonitrile-based or crude-based starting materials. 3. High-efficiency sulfur reduction process. Which includes removing sulfur Oxides by means of carbon fiber filaments that are treated with heat For use in reducing Sulfur on the terminal side of the sulfur reduction apparatus based on the lime-gypsum method, carbon fibers. Void the reaction being treated with such heat. It is obtained by thermal treatment on carbon fibers. The reactive fluid was initiated at a temperature of 600 ํ to 1200 ํ in a non-oxidizing atmosphere. The starting material is the reactive carbon fiber that is the starting material. With polyacrylonitrile as a basis Or with crude oil as a basis. 5. High efficiency nitrate reduction methods. Which consists of eliminating nitrogen Oxides by means of carbon fiber filaments that are treated with heat For use in reducing Nitrates on the destination side of a nitrate reduction operation that relies on a reduction method by selection of Catalyst (SCR), the thermally treated reactive carbon fibers were obtained by thermal treatment of the reactive waxy fibers as the starting material at temperatures of 600 ํ to 1200 ํ in an atmosphere that is not. It is oxidizing. 6. Processes for removing nitrogen oxides using activated carbon fibers. Treated For use in reducing nitrates, including providing a reaction tower. Oxidation of nitrogen oxides Which is packed with superfine carbon fibers that are treated with The heat and the passage of the flue gas into the oxidation treatment chamber To oxidize and eliminate Nitrogen oxides (Nox) contained in them are released, the carbon fiber filament is thermally treated. This was obtained by heat treatment of the reactive fibers as the starting material at temperatures of 600 ํ to 1000 ํ C in a non-oxidizing atmosphere. 7. A process for removing nitrogen oxides. By using carbon fiber Treated For use in reducing nitrates, including providing a reaction tower. Oxidation of a certain amount of nitrogen oxides packed with activated carbon fibers. Treat with such heat And continuous passing of flue gas into the oxidation chamber Such in such a way that the flue gas is switched from one oxidation chamber to another. One, before the permeation of nitrogen dioxide (NO2) that was adsorbed on the carbon fiber. Reaction to that heat Within one such absorption tower And the nitrogen oxides (NOx) contained in the flue gas are oxidized, adsorbed and removed continuously in that tower by this method, and which lines in the reactive carbon are treated with such heat. Acquired by practicing with The reaction of the material is started at 600 ํ to 1000 ํ in an atmosphere that does not. 8. A process for removing nitrogen oxides according to one of Claims 5 to 7, in which the continuous oxidation of nitrogen oxides is To be carried by treatment Exhaust gases at temperatures as low as 150 ํ or less 9. A process for removing nitrogen oxides as described in any Clause 5 to 7, where nitrogen oxides are oxidized by activated carbon fibers. The heat treated action for nitrate reduction is continuously absorbed into the adsorption fluid 1 0. The flue gas treatment system contains nitrogen oxides (NOx) and Sulfur oxide (SOx) is treated continuously and in any order. With carbon fiber Treat with heat For use in reducing sulfur And the carbon fiber fast reaction being treated with Heat for use in reducing nitrates Therefore, nitrogen oxides (NOx) are recovered as nitric acid or salts of that acid. And sulfur oxide (SOx) is recovered as sulfuric acid or salts of that acid, and where the reactive carbon fibers are heated For use in the reduction of sulfur, it was obtained by heating treatment with carbon fiber, the reaction that was The material was initiated in the non-oxidizing atmosphere at 600 ํ to 1200 ํ C, and the waxy carbon fiber. Reaction to that heat For use in reducing nitrates, obtained by practice. Heat to carbon fiber, the reaction as the material begins at 600 ํ to 1000 ํ C in the non-oxidizing atmosphere 1. 1. The flue gas treatment system specified in Clause 10 in which the temperature of the gas to Is treated as low as 100 ํ or less than 1 2. The flue gas treatment system as specified in Clause 10 or 11, where the relative humidity of the gas to be treated is 80% or lower when nitrogen oxides (NOx) are returned. It comes in the form of nitric acid. Or the salt of that acid 1 3. The flue gas treatment system as specified in Clause 10 or 11, where the relative humidity of the gas to be treated is 100% or higher when sulfur oxide (SOx) is brought back in. Form of sulfuric acid Or the salt of that acid