DE1088178B - Method and device for the intermittent operation of a soot blower - Google Patents

Description

Method and device for intermittently operating a penitential blower The invention relates to a method and a device for intermittent operation a penitential blower.

The blowing agents used up to now, which are used by the penitentiary blowers For cleaning the heating surfaces of steam boilers and the like from soot, dust and fly ash deposits are either water vapor, which is taken directly from the steam boiler can, or compressed air, specially supplied for this purpose by a compressor will.

Blowing the penitentiary with steam, which is usually taken from the steam boiler is, to which the penitential blowers are assigned, is relatively uneconomical because a considerable amount of steam is consumed by blowing the bus, which is used as useful steam is lost. The same applies to blowing penance with compressed air, that can be done both continuously and intermittently, as this is necessary is, the not inconsiderable amount of compressed air required to blow the bus, especially to generate, in which case it is also important that the expanding compressed air Heating surfaces to be cleaned cools down considerably, which reduces the overall boiler efficiency has the consequence. In addition, the periodic cooling of the boiler heating surfaces is the heating surface material not beneficial and can lead to the destruction of the tubular heating surfaces over time.

Recognizing these disadvantages of blowing the penis with compressed air, it is already known, a part of the compressed air used for blowing before it enters add fuel to the sootblower's blowpipe and ignite it, this part of the compressed air then serves as combustion air. Before leaving of the blowing agent from the nozzles of the blowpipe are generated in this way hot combustion gases are added to the other part of the compressed air to heat it up. This type of operation of Bußbläsern with compressed air also has a reduction in required delivery amount of the compressed air due to the caused by the heating Increase in volume of the same result.

The method according to the invention exists over against this known person in the fact that the combustion gas of a known per se as blowing agent for the penitential blower oscillating combustion chamber operated with liquid, gaseous or dusty fuels serves, which is coaxial with the blowpipe upstream of this.

This method has the advantage over the familiar that the required blowing agent in a simple manner in the device serving for blowing the penitence itself is generated and emerging from the sootblower pipe in intermittent fashion as a hot blower jet is blown onto the heating surfaces to be cleaned without the soot blowing system being unnecessary by auxiliary equipment, such as B. compressors, becomes complicated.

Favorable for the cleaning effect of the method according to the invention the naturally intermittent blowing operation also has an effect, because simultaneously with the blowing agent jet directed onto the heating surfaces the im Gas column trapped inside the boiler due to the rapid successive blows of blowing agent is excited to vibrations, which the cleaning effect of the blowing agent jet support by thereby loosening the heating surface contamination is promoted.

A device is used to carry out the method according to the invention in the type known per se that work according to the principle of dynamic gas exchange Oscillating combustion chambers. The outlet opening of the with a counter to the flow direction the swinging combustion chamber provided with the non-return valve acting on the combustion gases opens directly into the rotatable and / or longitudinally displaceable blowpipe. To the generation of the fuel-air mixture, it is advantageous to provide the combustion chamber with a device for feeding the fuel, e.g. B. od a carburetor. Like. And the combustion air upstream the supplying fan. It can also be beneficial to use the combustion air for the oscillating combustion chamber of the secondary air supply to the furnace of the associated Steam boiler or the like. It is also beneficial that the heat content of the blowing agent produced in the manner according to the invention the heating surfaces of the boiler is supplied and thus benefits the generation of useful steam. the The invention is shown for example in the drawing, namely FIG. 1 the device in partial central longitudinal section and FIG. 2 the device in partial Central longitudinal section with a special combustion air fan.

The sootblower tube 1, which is provided with the jet nozzle 2, can in be mounted in a known manner so as to be longitudinally displaceable and / or rotatable. The move and turning the sootblower pipe 1 takes place, for. B. by the handwheel 3. The sootblower pipe 1 is rotatably placed on the outlet opening 4 of the oscillating combustion chamber 5. The oscillating combustion chamber 5 is at its end opposite the outlet opening 4 with the inlet opening 6 provided for the combustible mixture. The inlet port 6 is through one after Non-return flap 7 or a flap valve opening inside the oscillating combustion chamber 5 closed. The oscillating combustion chamber 5 is provided with a spark or glow plug. 8 which ignites the combustible mixture that has flowed into the oscillating combustion chamber will. In front of the inlet opening 6, the carburetor part 9 is arranged, to which the z. B. liquid Fuel is supplied through the fuel nozzle 101. Located on the carburetor part 9 the air supply nozzle 11, on which a fan 12 for supplying the combustion air can be connected. The required combustion air can also be from the A second air fan for the steam boiler's firing system is included. To move lengthways To enable the device to blow soot, this is done with a slide 13 provided, which od on a slideway 14. The like: is slidably mounted. .

The operation of the device is sc, that after opening the non-return valve 7 the fuel-air mixture flows into the oscillating combustion chamber 5; when the pressure in the blowpipe and in the oscillating combustion chamber 5 a little under the pressure of the incoming Combustion air mixture lies. This fuel-air mixture is in the oscillating combustion chamber 5 ignited by the spark plug 8 and burns. The combustion gases flow through the outlet opening 4 of the oscillating combustion chamber 5 and are through the jet nozzle 2 of the sootblower pipe 1 directed against the heating surfaces to be cleaned. Simultaneously the non-return valve 7 is closed by the pressure of the gases. After draining of the overpressure in the oscillating combustion chamber 5 is formed again in the same as a result an inertia-based additional outflow through the outlet opening 4, a negative pressure, the reopening of the non-return valve 7 and influx of combustible mixture in the oscillating combustion chamber 5 brings about. The subsequent ignition of this fresh one Mixture in the oscillating combustion chamber generates another gas surge, and the above-described The game repeats itself until the fuel supply is switched off.

Instead of a mechanical non-return valve, an aerodynamic one can also be used Valve come into use. The fuels used are liquid, gaseous or dusty Fuels in question.

Claims (4)

HATENTANSPRÜC11L: 1. Procedure for operating a sootblower on a per-cup basis, characterized in that the combustion gas is used as the blowing agent for the sootblower one known per se, with liquid, gaseous or dusty fuels operated Schwingbrennkamrner is used, which is coaxial with the blowpipe this is upstream. 2. Device for performing the method according to claim 1, characterized in that the outlet opening (4) is known per se, with a non-return valve acting against the direction of flow of the combustion gases (7) provided oscillating combustion chamber (5) directly into the rotatable and / or longitudinally displaceable Blowpipe (1) opens. 3. Device according to claim 2 ,. characterized in that the oscillating combustion chamber (5) a device for supplying the fuel, for. B. Carburetor (9) or the like, and a fan (12) supplying the combustion air is connected upstream are. 4. Device according to claims 2 or 3, characterized in that the combustion air for the oscillating combustion chamber (5) od the secondary air supply to the furnace of the associated steam boiler. The like. Is taken. Considered. Publications: German Patent Nos. 505 272, 829 039, 833 672, 918 587, 923 080; French Patent No. 751,455. USA.-PatentschTi.ft No. 1 974 177.