DE3027910A1 - Removing contaminants from combustion plant fumes - by reacting sulphur cpds. with liq. ammonia - Google Patents

Abstract

Atmospherically harmful components such as sulphur cpds., nitrogen cpds., F and Cl in the fumes from industrial combustion plant are removed by intermittently spraying jets of liq. NH3 into the departing fumes. The NH3 concn. can be adjusted to varying S contents in fuel and treated minerals, as may be the duration and/or frequency of the individual impulses. Provided they do not react with NH3, further reagents may be injected simultaneously to deal with other contaminants. The spray equipment may be combined with a heat exchanger for recovering waste heat from the fumes, with a shape corresp. to the fume outlet. Used for combustion plant in power stations, casting shops, brickworks etc. The resulting prod. is useful as a fertiliser and does not involve the filtering and disposal problems arising with the known lime-dust treatment of fumes.

Description

Process for the elimination of pollutants in

Flue gases from combustion systems of all kinds arising compounds (Addition to patent ....

(Patent application P 30 06 198 4-43 The invention relates on a process for the elimination of the polluting, in flue gases connections arising from combustion systems of all kinds and provides further training of the main patent (patent application P 30 06 198.4-43).

The main patent deals with the elimination of sulfur compounds in the form of S02, resp.

S03, which arise in the flue gases of combustion systems, and him The underlying task is to create a method that is, on the one hand, a satisfactory one Elimination of the sulfur compounds allows, and in the case of simpler and more convenient way a product is obtained that is beneficial without difficulty Recycling can be supplied. This task is thereby achieved in the main patent solved that in the lines discharging the flue gases into the open, for example in a chimney, liquid, in its concentration if necessary by dilution ammonia adapted to the sulfur content of the flue gases is blown in with water. Injection is done through nozzles in intermittent pulses under one, one strong misting of the pressure that generates the smoke gases. Here can the Ammonia through several spaced apart over the length of the flue gas pipe, if necessary, nozzles offset from one another in the circumferential direction are blown in. The injection can be carried out at different pressures and with different pulse durations and with different pulse frequencies. The sulfur content of the flue gases can be intermittent or continuous before or after a pulse point, for example be measured near the exit end of the conduit, and the dilution that The pressure, the pulse duration and the pulse frequency can be controlled by the measured values The invention is based on the object, the method according to the main patent to be further educated so that for the elimination of other, besides the sulfur compounds, the environmentally polluting compounds a satisfactory elimination of these compounds is achieved while obtaining products that are easy and convenient taken by filtering from the flue gases and possibly a beneficial one Recycling can be supplied. The solution to this problem will in a method according to the preamble of the main claim achieved by the Features placed under protection in its characterizing part.

The subclaims represent advantageous developments of the method according to the main claim.

Such compounds, in addition to the sulfur compounds, are environmentally damaging are for example nitrogen oxides N0x, fluorides Fx and chlorides CLX.

x The nitrogen oxides can, if necessary, after adjustment Dilution with water to their content in the flue gas by blowing in phosphoric acid converted to nitrogen phosphate, which forms a fertilizer and thus a Can be recycled. The fluoride can be mixed with calcium hydroxide to form calcium fluoride or are reacted with a silica gel solution to form silicon fluoride, which Reaction products occur in the form of dust and are removed from the flue gases by filtering will. The chlorides can also be converted into calcium chloride with lime liquor or with silica gel solution are reacted to silicon fluoride, whereby also these reaction products incurred in dust form and also removed from the flue gases by filtering will be able to. Also other, possibly accruing cie environmentally damaging Connections can be made by appropriate reaction compounds that are in the flue gases are blown into environmentally friendly compounds that can be extracted from the flue gases being transformed.

Each reaction compound can pass through one or more nozzles intermittently be blown into the smoke pipe under pressure, and when several reaction compounds are added know these blown in through the nozzles in parallel or at mutual intervals will. It can also be several reaction compounds in succession by one Nozzles are blown in, with several of the respective reactants at this nozzle blowing conveyors are provided. Mixtures of reaction compounds, which do not react with each other are blown into the flue gas pipe.

The control of the dilution, the pressure, the pulse duration and the Pulse frequency can be controlled by measured values, as described in the main patent.

Claims (10)

CLAIMS 1. Process for the elimination of polluting, in flue gases from all types of combustion systems, for example power plants, foundries or the like sulfur compounds in the form of SO2 or SO3 which is liquid in its concentration in the pipe discharging the flue gases into the open air if necessary, adapted to the sulfur content of the flue gases by dilution with water Ammonia is blown in according to patent ... (patent application P 30 06 198.4-43), d a d u r c h g e k e n n -z e i c h n e t that in addition to the ammonia for elimination further compounds that are harmful to the environment and occur in the flue gases, these compounds are blown into reagents which convert harmless compounds will. 2. The method according to claim 1, characterized in that in the flue gases accumulating fluoride Fx can be reacted with calcium hydroxide to form calcium fluoride. 3. The method according to claim 1, characterized in that in the flue gases resulting fluoride Fx can be reacted with silica gel to form silicon fluoride. 4. The method according to claim 1, characterized in that in the flue gases accumulating chlorides CLX can be reacted with calcium hydroxide to form calcium chloride. 5. The method according to claim 1, characterized in that in the flue gases Accruing chlorides CLX are reacted with silica gel to form silicon chloride. 6. The method according to claim 1, characterized in that in the flue gases Accruing nitrogen oxides NO reacts with phosphoric acid to form nitrogen phosphate will. 7. The method according to claim 1 to 6, characterized in that each reaction compound through one or more nozzles intermittently under pressure is blown in. 8. The method according to claim 7, characterized in that the Nozzles injecting reaction compounds in parallel or at mutual intervals operate. 9. The method according to claim 1 to 6, characterized in that several Reaction compounds are injected in succession through a nozzle. 10. The method according to claim 1 to 6, characterized in that not mixtures of the reaction compounds which react with one another are blown in.