DE2118066C3 - Method and device for cleaning combustion exhaust gases - Google Patents

Description

About the pollution of the atmospheric air with the air laden with the catalyst vapors

by preventing combustion gases at which it mixes.

gases from steam boilers, household or domestic 35 The invention will be described below with reference to the

industrial ovens or also to dispense combustion F i g. 1 to 4 explained for example. Show it

When it comes to internal combustion engines, one has this internal combustion F i g. 1 and 2 axial sections of different

gases treated with a catalyst. Dimensions having steam delivery device

Combustion was also carried out, with cross-flow combustion air,

by using the catalyst of a burner, 40 F i g. 3 a diagram from whose curves the ca-

a steam boiler, a reactor, a motor catalyzer quantities of the devices of FIG. 1 and 2

or a thermogenerator supplied combustion with and without additional air supply, and

air added. In this case, the dosage Fig. 4 is an axial section of a device in

the amount of catalyst in relation to the burning of a further embodiment,

air volume difficult. 45 In the embodiment of FIG. 1 and 2 is

The invention is therefore based on the object of providing a disc 1 made of porous material, e.g. B. made of ceramic

to create a method and a device, with mixed material, of several openings 2 through

by means of which a suitable dosage and an inten- sets and arranged in the feed line, which the

active mixture of air and catalyst vapors. Combustion air before it enters the supply

is enough. 50 supply nozzle3 moves back. This nozzle is sealed

This object is achieved by the fact that the catenation 4 and an intermediate disk 5 between two

The catalytic converter is clamped into the combustion flanges 6 in a vaporous state. On the inner circumference of the

tion air by contacting it with a or washer 5, a groove 7 is formed which

several microporous, with the liquid catalyst via a channel 8 with a liquid catalyst

gate loaded component (eii) is introduced. 55 is supplied.

The microporous combustion air supplied at 9 is preferably allowed to pass through

sen component (s) of the combustion air through the disk 1 and leaves it with catalyst vapors

set or wash around. reloaded at 10.

The device according to the invention for through- The nozzle 3 can be removed from the disk 1 this process is characterized by being arranged in order to provide an additional air supply at 11, that they form a drilled disc opening. However, the nozzle can also be used without of microporous material, or that each additional air is fed, i.e. only with the Microporous component made of a tubular air laden with vapors, which the pane 1 fire-resistant, absorbent fiber fabric has traversed.

the end of which into a container of constant Ni 65 In Fig. 1 shows a device in which

level of catalyst liquid dips. the diameter of the disc of porous material

As a liquid catalyst, tri-33 is now used with an impregnation surface of 12 cm

carbonyl-methyl-cyclopentadienyl-manpane is used. and an air duct with a diameter of

20mm. 3 shows that with a dispensing device with these properties, the amount of catalyst dispensed in 60 minutes is 0.780 cm with additional air supply (curve A) and 1.20 cm ⁵ without additional air (curve B) .

The example in FIG. 2 shows a device in which the diameter of the disk made of porous material is 72 mm with an impregnation ^{surface of 26 cm 2} and an air duct with a diameter VG.1 62 mm the same conditions as above, the amount of catalyst released is 1.98 cm ⁵ (curve C) or 2.26 cm ³ (curve D) .

4 shows an embodiment in which the combustion air does not pass through a microporous element, but rather flows around its outer surface. In this embodiment, the vaporizer consists of a fire-resistant fiber sheath 5, for example made of silicon dioxide, the end of which is immersed in a container 16 with a constant level. The sheath 15 is supported in its horizontal part by a rigid tube 17, for example made of aluminum, which is fastened to the container 16 by means of a fastening screw 18 which is arranged at one end of the tube.

The constant level container 16 has in its vertical axis an outlet pipe 19 which can reach sealingly transversely through the bottom 20 of a container 21 which is closed in its upper part and which contains a liquid organometallic complex compound.

The container 21 is displaceable in an extension

arrangement 22 of the container 16. In Fig 4, st this container is not yet connected to the outlet pipe 19. To connect it to the pipe 19, if you press it to the unien, so that its bottom 20 with the upper end of the tube 19 in contact

ίο comes and continues this movement to the ground to be pierced by the tube 19 penetrating into it. The lower part of the tube 19 determines the constant Level 23 of the liquid, organometallic complex compound in the container 16. A visual

window 24 makes it possible to control this level.

^If the level in the container 16 drops, atmospheric air can rise through the pipe 19 into the container 21 and the liquid, which is then

can run out until this level is restored.

When the container 21 is empty, it can be removed and replaced with another.

The entire device is on the air vent

a ₅ for the combustion air of a burner attached by a plate 25, so that the refractory envelope or the envelopes 15 are flowed around by the air.

For this purpose 3 sheets of drawings

Claims (5)

1 2 ... The method according to the invention results in patent claims: the d; e catalyst bowls finely divided, and in simple 1. Process for cleaning combustion rather way, pollution of the air by exhaust gases by introducing a catalyst into the combustion air, such as that of household and Intors, is characterized by industrial ovens, internal combustion engines and the like the catalyst in a carbon monoxide, significantly reduced,
vaporous state in the combustion air The porous element (s) can be formed by contacting them with one or more discs, which are more or less thick, microporous, with the liquid catalyst and whose diameter corresponds to the volume of the air loaded component (s ) introduced. io is proportional. before they pass through the elements 2. The method according to claim 1, characterized crossed, wherein the catalyst is the disc or the indicates that the microporous disc or discs are impregnated on their periphery. The disc Components) are penetrated by the combustion air or the panes are pierced to close the air duct sets will (will. form. 3. The method according to claim 1, characterized in that the porous element or elements can also be of indicates that the or the microporous a tube with a central channel for the with Component (s) of the combustion air washes around catalyst vapors and air to be loaded is formed (will). the. 4. Device for carrying out the method The porous elements can also consist of tubes rens according to claim 1 and 2, characterized 20 or rods of any diameter that through a disc with holes (2) in the flow path of the combustion air anil) made of microporous material. be ordered and flowed around by this. 5. Device for carrying out the decay- The combustion air can by natural rens according to claim 1 and 3, characterized by a marked or forced draft or by means of a venti drawing, that each microporous component from 25 lators, a compressor, a turbine od. The like. With a tubular, refractory, absorbent atmospheric pressure or a slightly higher pressure Fiber fabric consists, the end of which are fed into a loading. holder (16) with a constant level of catalysis- Such a vapor dispensing device can gate fluid dips. 'more or less close to the air supply nozzle of one 30 burner, furnace, reactor or mo- tors can be arranged and additional, untreated air can also be supplied, which is