TH74173B - Methods and multi-component nozzles for reducing unwanted substances in flue gas. - Google Patents

Abstract

DC60 (29/12/17) Methods are illustrated and described for the reduction of unwanted substances by Spray the reagent into the discharge gas (18) of the steam generator. In order to do so, the reagent can also be used in the steam generator. and/or larger combustion chambers. where the reagent (6) is injected into the combustion chamber (3) of the steam generator by means of the reagent opening (7) of the multicomponent nozzle (1) where the encapsulation medium (15) is sprayed into the combustion chamber (3) by means of a central encapsulation opening; (14) at least one which are arranged outside the reagent opening (7) and where the encapsulation medium (15), at least partially encapsulates the reagent (6), in the combustion chamber (3) and in Guidelines that at least partially mask reagent (6) from flue gas, page 1 of number 1, invention summary. Methods are illustrated and described for the reduction of unwanted substances by The reagent is sprayed into the discharge gas (18) of the steam generator. In order to do so, the reagent can also be used in the steam generator. and/or larger combustion chambers. In which the reagent (6) is injected into the combustion chamber (3) of the vaporizer by means of the reagent opening (7) of the multicomponent nozzle (1), where the encapsulation medium (15) is sprayed into the combustion chamber (3) by means of the central opening for encapsulation (14) at least one which are arranged outside the reagent opening (7) and where the encapsulating medium (15), at least partially encapsulating the reagent (6), in the combustion chamber (3) and in A guideline that at least partially masks the reagent (6) from the flue gas.

Claims (8)

Disclaimer (all) which will not appear on the advertisement page. : ------ 31/07/2018 ------ (OCR) Page 1 of 3 pages Disclaimer 1. Method for reducing unwanted substance by spraying reagent into The discharge gas of the steam generator, which consists of spraying the reagent into the combustion chamber of the steam generator, through the reagent opening. Reaction of a multi-part nozzle, spraying the propellant into the combustion chamber in such a way that the propellant supports the spraying or distribution of the reagent, the formation of the spray beam of the mixture containing the substance. React and propellants in the combustion chamber and spray the enveloping medium into the combustion chamber through at least one of the tubular media openings, arranged outside the chamber. Turn on the reagent, where the bass wrap medium, at least partially, will wrap the barrel of the mixture in the combustion chamber and, at least partially, shield the reagent from the emitting gas. 2. Method of claim 1, where the propellant is sprayed into the combustion chamber through At least one of the propellant openings, located outside the reagent opening, 3. Method of claim 1, where the reagent is sprayed into the combustion chamber in form. Type of gas, liquid or powder 4. Method according to claim 1, 1 in which the reagent is composed of an active component consisting of ammonia, urea, other nitrogenous compounds or alkali metal. T. 5. Method according to claim 1, where the propellant is sprayed into the combustion chamber. 6. Method according to claim 1, where the reagent is sprayed into the combustion chamber via at least one multi-component wall nozzle, which has been sprayed into the combustion chamber through at least one multi-component wall nozzle. Place in at least one of the walls of the combustion chamber. 7. Method of claim No. 1 where the medium for submerged wrapping is combined with gas, condensate, vapor or air. Article 1 where the fluid involved in the process is used as an intermediate to wrap the knot, page 2 of the 13 pages from the combustion chamber for maintenance. Which is provided as a pipe This overhang would later cover a small cross section of the combustion chamber, the nozzle raised in the wall of the combustion chamber. There is a disadvantage of low penetration depth. This aspect can be enhanced by the so-called. The original two-component nozzles, ammonia and / or urea in acquias solution. The solution is subsequently fed to the combustion chamber through the central opening. The annular opening is co-axially arranged around the cavity section. Open In which the propellant is additionally injected through this section. Gas, especially air Is generally used as a driving agent Air is released very quickly from the nozzle through which the air It takes the reagent into the combustion chamber with air and atomizes the reagent. Fine reagent droplets are formed even with the penetration depth in the case of two component nozzles. With more liquid reagent. If the gas-state ammonia has been injected The penetration depth for large vapor generators or large combustion chambers is not sufficient. Due to reagent droplets The fine scale is carried with the discharge gas and is rapidly evaporated due to high temperatures. If the release velocity of the propellant is increased, the speed of the drop can also be increased, which theoretically should increase the penetration depth. To reduce and large volumes of emission gas has been sucked in by the propellant stream, so the droplets will evaporate very quickly. Thus, the reagent only fits in the center of the combustion chamber in the case of smaller combustion chambers. Therefore, the whole discharge gas can come into contact with the reactive substance throughout the entire cross section of the combustion chamber. The two-component nozzles can also be attached to the combustion chamber protrusions. But later it was also revealed with deposition and corrosion. The nature and purpose of the invention The invention relates to a method for reducing unwanted substances by spraying the reagent into the whole gas of the vapor generator. The reagent was injected into the combustion chamber of the steam generator by means of the reagent opening of the multi-component nozzle. This invention also involves a flat multi-component nozzle for spraying reagents. Enter ------------ page 1 of the number 3 pages. 1. Method for reducing unwanted substances by injecting reagent into the gas discharge of Ina generator which includes Spraying the reagent into the combustion chamber of the vapor generator via the reagent opening. Multi nozzle reaction Spraying the propellant into the combustion chamber in such a way that the propellant supports the Spraying or distribution of reagent Formation of the mixing tube consisting of reagent and propellants in the combustion chamber and spraying the enveloping medium into the combustion chamber through the opening. At least one bass wrapping medium, located outside the reagent opening. Where, at least partially, the bass wrapping medium wraps up the thorn in the combustion chamber. Burns and at least partially shields the reagent from the emitting gas. 2. Method of claim 1, where the propellant is sprayed into the combustion chamber through At least one of the propellant openings, arranged outside the reagent opening, 3. Method of claim 1, where the reagent is sprayed into the combustion chamber in the combustion chamber. Form of gas, liquid or powder 4. Method according to claim 1, 1 in which the reagent is composed of active components \ 'which It consists of ammonia, urea, other compounds containing 1 nitrogen or alkali earth metals. 5. Method according to claim 1, where the propellant was sprayed into the combustion chamber at greater speed. Reagent 6. Method according to claim 1, where the reagent is sprayed into the combustion chamber by A multi-component wall nozzle, at least one nozzle which is properly arranged in a wall. At least one wall of the combustion chamber. 7. Method of claim No. 1, where the tubular wrap medium is composed of gas, vapor or air discharge. 8. Method according to claim 1, where In which the fluids involved in the process are used Page 2 of 3 Page 9. Method according to claim 1, where the reagent was sprayed by a spray nozzle. Several components on at least one combustion chamber plane 1 0. Method according to claim 1, where the encapsulation medium is sprayed into the combustion chamber at a speed greater than the jet stream velocity of the combustion chamber. Mix 1 1. Multi-component nozzle for spraying reagent into combustion chamber of Steam generators for the reduction of unwanted substances in the discharge gas, which include The reagent flux has the combustion chamber side, where the reagent flux is open. To the reagent opening Propellant feeder which serves to spray or Disperse reagent and encapsulated media feeder for encapsulated media feeding open into the cavity. Open at least one encapsulation medium. Which is arranged outside the substance opening Reaction in such a way that the encapsulation medium, at least partially, mask the reagent. From gas emissions in the combustion chamber 1 2. Multi-component nozzles in accordance with claim 11, where the propellant feed section has The combustion chamber side, in which the propellant feed section opens at least to the propellant opening. One of the largest compartments, located outside the reagent opening. And where the intermediate feeder for The encapsulation opens into at least one encapsulated medium opening, arranged outside the compartment. Open the propellant 1 3. Multi-component nozzles according to claim 12, where reagent openings, propellant openings and encapsulating media openings are co-axed relative to each other 1. 4. Multi-component nozzles according to claim 11, where multi-nozzle Components are classified as a multi-component wall nozzle in the wall of the combustion chamber 1. 5.The combustion chamber of the steam generator Which consists of a multi-component nozzle At least one nozzle according to Clause 11, page 3 of the number 3, page 1. 6. The combustion chamber according to claim 15 where the multi-component nozzle has been integrated. Against at least one wall of the combustion chamber 1 7. Combustion chamber according to claim 15, where a number of multi-component nozzles Have been provided on at least one plane. Where the plane is aligned in the gas direction Discharge between the burner and the heat exchanger for steam generation 1 8. Combustion chamber according to claim 15, where the reagent is sprayed along the level. Significantly into the combustion chamber