DE1905608B2 - Removal of flyash from incinerator exhaust - large particles removed in cooler-cyclone and remainder in spray sump - Google Patents

Abstract

Hot exhaust gas at 800 degrees C from a waste incinerator contg fine and coarse dust particles is first cooled in a cyclone to 250 degrees C by passing over air cooled tubes. Coarse dust falls to the base and from there into a sump tank. The fine dust laden air is then taken to the bottom of a water spray chamber. The water reduces the temp. below dew point and scrubs out most of the dust. The remaining, by now damp, dust particles are settled out in a second chamber. The gas is then extracted by a fan and blown up a stack- there it mixes with the air which was used to cool the incoming gas stream and the mixture is then at a temp. above dew point which protects the stack.

Description

According to the invention, the object is achieved by ^inserting it. The free surface of this water is marked with that in the Rauchgaswsg between the two settling the reference / calibration 16. The jacket wall 6 chambers as an evaporator device in the upper part of the housing has outer cooling ribs in the upper part of the first chamber and an intermediate ceiling of 17 Water supply 65 250 to 300 C precooled flue gases are arranged in the stanchions. In this way, in comparison, the center of the coarse cleaning cyclone 5 is collected in a cleaning bell 18 that is considerably better than the prior art, and results are achieved in a simple manner over a long period of time. This moves tube 19 vertically downwards. They then hit the

free surface 16 of the water 15 within the settling chamber 2. There is a temperature in this of about 250 ° C. When the smoke gases collide, they give off some of their impurities to the water 15. With the ratio of the cross sections of the pipe 15 and the settling chamber, namely in the ratio of about 1: .50 to 1: 200 reduced speed, the increase After their impact on the water surface 16, smoke gases slowly rise upwards, whereby fly ash, Shredded paper and the like slowly sink and stick to the free water surface 16.

In the upper part of the settling chamber 2 is distributed along a horizontal plane a plurality of flat Evaporator dishes 20 are arranged leaving gas passage openings 21 free. Above the evaporator dishes 20 and just below the ceiling of the settling chamber 2, water pipes 22 are arranged, which allow water to flow off into the evaporation dishes 20 through openings in their underside. The rising gases in the settling chamber 2 evaporate this water. The mixture of gas and water vapor leaves the first settling chamber 2 through a conduit 23 which is in the second Settling chamber 3 first horizontally along the ceiling and then along its vertical axis extends down to a point slightly above the free surface 24 of the in the lower part of the settling chamber 3 contained water 25 is geiege. The gas and vapor mixture collides with the free one Water surface 24 and in doing so again gives off some of the impurities still contained therein. In The temperature of the settling chamber is around 60 ° C, which is below the dew point of the steam lies.

There is therefore a rain of mist in the second settling chamber 3, to which the very last impurities still contained in the flue gas bind and fall into the water 25. A blower ~> 6 is arranges above the ceiling of the settling chamber 3, sucks the completely purified G ^ dirch an existing ceiling in the opening 27 and Si is at the same time through a line 28 passing

fed with a subset of the hot air, which m S Snelkammer 10 des as a heat exchanger Carry out pre-cleaning and pre-cooling cycles 5 «has collected. The blower does that Mixed in hot air and completely cleaned

xo Sal through a line 29 into a *, comb 30 transported in. A remainder of the hot air collected in the chamber 10 ″ reaches the control valve 31 past in the chimney 30. With the Be-Ssziffer 32 is a fan denoted by the

«A line 33 through fresh air into the distribution

SrnmerS d ° es coarse cleaning cyclone 5 internal demand The chimney 30 is provided at its lower end with a regulating flap 34 and opens into the ducks settling chamber 2. This connection is only

used when shutting down the system.

The sludge that is in the lower parts of the two settling chambers 2 and 3 on the water 15, • 25 and the impurities released to it in the manner described above flows

through a pipe 35 to a sludge discharge pump 36. This transports the sludge upwards through a Sng 37 and gives Λη to one Dirt separator 38 of known design. The end This accumulating fairly clean water flows

through a line 39, which has a certain gradient and in the settling chamber 2 a downward one End part has to return to the water 1λ. The above-mentioned mixing of the cleaned flue gases with hot air avoids that

When it escapes into the chimney condensate bil ^de in the system, the usual control doors and controls are available, which are not shown and whose description is superfluous.

1 sheet of drawings

Claims (3)

rests on the fact that the patent claims ascending in the chamber: flue gases with a temperature of 150 to 350 ° 1. System for removing fly ash and the double-sided impurities from flue gases formed from the evaporation trays, pass through the inner ceiling, with the hot gases surrounding the special feature of a waste incineration furnace with 5 evaporation trays and causing the swirl device and two water in the flue gas path to evaporate . The freely downstream sedimentation chamber with a FHk-evolved steam mixes with the rising sump, characterized by the smoke gases and comes into the net as a mixture, that in the flue gas path between the two second chambers, in which the hot flue gas kiln-sedimentation chambers (2, 3) as an evaporator device io mixture is cooled to well below the dew point, in the upper area of the first chamber (2) a The steam condenses to water and also removes the fine parts of the impurities from the flat ceiling through flue gas.
Passage slots (21) separated from one another. The swirl device is expediently arranged in a coarse cleaning cycle (22) designed as steaming shells (20) with water feeds and heat exchangers. 15 clone, on the fan for the supply of fresh 2. System according to claim 1, characterized in that i _u f _{t is} connected. This is an improvement in that the swirl device enables a coarse cleaning cyclone designed as a heat exchanger for pre-cleaning and pre-cooling of the flue gases. The outflow from the coarse cleaning cyclone (5), to which a fan (32) for supplying hot air can be connected to heat the completely fresh air. 20 cleaned flue gas before it flows out into the 3. System according to claim 1 and 2, marked-free atmosphere can be used. characterized by a sludge separator (38), I _{n is an} expedient embodiment of the invention which the accumulating in the settling chambers (2,3) also proposed the system for the removal of Sludge supplied and from which the resulting impurities from flue gases with a Water is returned to the first sedimentation chamber (2) to be provided with a sludge separator, which is diverted into the drainage chamber will. Sludge accumulation chambers fed and taken out which the resulting water is returned to the first settling chamber. On the basis of the following description The invention relates to a system for removing 3 ° the invention is explained in more detail. The description from fly ash and other impurities refers to one of the best flue gases from a single figure, in particular a garbage incineration drawing in which in schematic furnace, with a swirl device and two in the smoke longitudinal section, a preferred embodiment of one Gas-way downstream settling chambers with a system according to the invention shown as an example Liquid sump. 35 is. It is a direct cooling device, and in the drawing, numeral 1 denotes a Washing of hot, dusty gases in the counter-concrete structure, which is a first discharge and or direct current under multiple relocating chambers 2 and a second settling chamber 3 the gas flow by 180 ° in each case, which passes along the common base Starting from a container with several, intrinsically one channel 4 are connected to one another. On the closed, concentrically a "ordered and to the roof wall of the concrete structure 1 is above the Ab-part Elcchwändcn inclined towards each other to the bi-setting chamber 2 jin designed as a heat exchanger Venturi-like diffuser spaces known, arranged in the ter coarse cleaning cyclone 5. In mind individual diffuser spaces with spraying device housing this coarse cleaning cyclone 5 extend lines in the gas direction or opposite to this 45 in the vertical direction between a lower are provided (German patent specification 1 260 442). With this air inlet delimited by a partition 7 Apparatus, however, are the achievable cleaning chamber 8 and an upper one, below by means of a compulsory result unsatisfactory. In addition, the intermediate wall 9 is limited air collecting chamber 10 of constructive complexity through the cooling air flowing through the nozzle 11 pipes 11, which in a wreath device and which are arranged in a certain way at an angle to each other 5 ° near the shell wall 6, which to be arranged sheet metal walls complicated. a tangential inlet connection 12 The invention is in view of this status for the flue gases. The smoke gases flow the technology is based on the task, dispensing with helical lines in the coarse cleaning cycle Electrostatic precipitators largely clean clone 5 downwards, as is the case with cyclones z. B. smoke that arises in waste incineration ovens is common to emit the coarsest impurities, gassing of coarse and fine pollutants contained therein. The pollutants fall through the cleaning in a simple, only minimal effort intermediate wall 7 downward adjoining funnel wall of construction costs and maintenance required- 13 and through a pipe 14 into the bottom in to create the plant. the first settling chamber 2 located water 15