DE2913580A1 - Diesel engine exhaust gas decontamination system - passes cooled gas repeatedly through cooled condensate, dissolving contaminants - Google Patents

Abstract

The procedure for decontaminating Diesel engine exhaust gases is based on the principle that the gases are cooled substantially to precipitate the condensab le portion, and the noxious contaminants dissolved in the condensats. Th cooled gases are passed through several, also cooled, sealed vessels (1, 2, 3) holding condensate in series. Into the last one (3) they are introduced (19) above the condensate surface; into the others below. All gas outlets (13, 17, 22) are above the liq. level. Below it are overflow pipes (4, 5) connecting the vessels; discharge from the last one is via a pipe (6) with its inlet low down but with a high point (6') above overflow-pipe level.

Description

Process for detoxifying the exhaust of a

Diesel engine and exhaust gas purifier for such a method The invention relates to a method for detoxifying the exhaust gases of a diesel engine according to the preamble of claim 1 and an exhaust gas cleaner for such a method.

In the German patent application P 27 44 615.7-13 it was proposed to detoxify the exhaust gases and make the waste heat usable as a drive for one Heating heat pump systems used the diesel engine to initially pass through the engine exhaust gases Release of part of their heat content to the heating circuit and then through partition wall heat exchange with a water storage tank serving as a heat source for the evaporator of the heat pump system, which is also supplied with heat from surrounding heat sources and which is at a low level Temperature level is close to 00 C to cool. A heat pump system with one of these at a low temperature level near 0 ° C standing water storage is in the DE-AS 26 34 233 described on the for a more detailed explanation of this heat pump system is referred. Through the partition wall heat exchange of the engine exhaust gases with the water storage tank there is a drastic cooling of these engine exhaust gases down to about 5 to 200C, whereby the condensable fractions in the engine exhaust condense and pollutants in the formed condensate can be dissolved.

Exhaust gas cleaning in connection with a motor vehicle engine is from DE-OS 21 49 506 known. The exhaust gas cleaning provided here is based on the principle of the sudden adiabatic increase in volume of the engine exhaust gases for the purpose Reduction of the exhaust gas temperature to the critical point in order to condense the im Motorabas contain water particles on the fine soot particles serving as the core and dissolving other toxic exhaust gas components.

According to the magazine "Öl + Gasfeuerung" 12/1976, page 676, takes place in a diesel engine used to drive a heating / heat pump system the exhaust gas purification by the fact that the engine exhaust gases hate through the moisture mist Exhaust gas scrubber "are sent so that pollutants in the exhaust gases in the moisture mist go into solution.

The described methods for exhaust gas cleaning work in this respect still imperfect when the pollutants contained in the engine exhaust gases are not in the desired completeness in the exhaust gas condensate formed or in the moisture mist get knocked down.

The present invention is based on the object of detoxification the exhaust gases of a diesel engine continue to improve and especially soot and tar particles as well as other pollutants in the engine exhaust gases substantially completely precipitate.

This object is achieved according to the invention with the method according to claim 1 or solved with an exhaust gas cleaner according to claim 6. Further development: s of the invention are described in the subclaims.

According to the invention, for example, as a drive for a heating-heat pump system used diesel engine according to German patent application P 27 44 615.7 those cooled by the partition wall heat exchange with the water storage tank Subsequent scrubbing of engine exhaust gases. This is done by the engine exhaust done by at least one hermetically sealed container in which Accumulates exhaust condensate. The engine exhaust gases are below the liquid level initiated and withdrawn from above the liquid level. As long as the exhaust condensate If there is essentially "clear" water in the container, little soot will remain in it hang, because the "fat" particles of hosing and water rush off each other. the The result is that the engine exhaust next a pretty high one Have soot content. In contrast to the ratio of water to soot, however, the soot particles have each other a very good adhesion, so that if over time this is initially clear water enriched with soot particles, the increasing soot concentration ensures that, in turn, an ever larger proportion of the engine exhaust gases flowing through it contained soot particles adheres to the amount of soot already in the water. In this way, when a "critical" amount of already im Soot particles contained in water cause the following soot particles to precipitate done so perfectly that there is essentially no soot left in the cleaned Engine exhaust remains contained. Also other damage contained in the engine exhaust substances become essentially complete as the process proceeds being knocked down by the laundry.

To get the exhaust gas condensate enriched with pollutants into the municipality To be able to discharge the sewerage system, it can be useful, especially the piI value to measure and control the exhaust gas condensate, for example in the cleaning tank Lumps of limestone entered or other neutralizing chemicals fed in will.

The engine exhaust gases cooled by the water storage tank of the heat pump system should not be reheated by the downstream exhaust gas cleaner in order to the precipitation of the condensable components and other pollutants in the Not affecting engine exhaust. S5 is therefore advantageous to use the cleaning container set up in a cool environment, expediently in the immediate vicinity of the at a low temperature level close to 0 ° C.

An improvement in the cleaning effect can be achieved if instead of a single one, a series of cleaning containers connected in series is provided. The each above the fluid clearance of a Engine exhaust gases drawn off from the previous container are below the liquid level of the subsequent cleaning tank initiated.

Only in the case of the last container can it be useful, the engine exhaust gases to be added above the liquid level so that the exhaust gas condensate is not stirred up again Pollutants can escape. The individual cleaning containers are due to overflows connected to each other, with the overflow of the last cleaning tank for Sewerage leads.

An embodiment of an exhaust gas cleaner according to the invention in Use with a diesel engine used to drive a heating heat pump system according to German patent application P 27 44 615.7 is attached below with reference to The drawing is described in more detail, which is a schematic representation of such an exhaust gas cleaner shows.

The exhaust gas cleaner shown consists of three in a row switched cleaning tanks 1, 2 and 3 together. The cleaning containers are connected by overflows 4 and 5, while an overflow 6 from the last Container 3 leads to municipal sewer system 7. The overflow 6 of the last cleaning container 3 opens near the bottom of the container and its highest point 6 'is above it the overflows 4 and 5 of the previous cleaning tank 1 and 2, respectively, so that the liquid level of the exhaust gas condensate in the cleaning container above the opening of the Overflows 4, 5 and so no engine exhaust gases can escape in the short circuit.

An engine exhaust pipe 8, which by the at a low temperature level near 0 ° C water storage tank 9 of the (not shown heat pump system) relocated is, leads into the first cleaning container 1, where it is below the liquid level 10 opens near the container bottom 11. Above the liquid level 10 near the Container lid 12 this first cleaning container 1 opens a Engine exhaust gas discharge line 13 leading to the engine exhaust gas supply line 24 of the second container 2 will. This feed line 14 in turn opens below the liquid level s 15 near the container bottom 16. The engine exhaust gas discharge line 17 of the second container 2 connects close to the container cover 13 and opens out as an engine exhaust gas feed line 19 into the third container 3 just above the liquid surface 20. From the third SE3ehälters 3 are the almost completely cleaned engine exhaust gases by the close the container lid 21 discharged exhaust pipe 22 into the open.

The exhaust gas condensate is created by the lowering of pollutants in the containers 1, 2 and 3 acidic, which is why for neutralization purposes in the containers Limestone chunks 23 are entered. About that with precipitated pollutants to be able to safely discharge enriched exhaust gas condensate into the sewer system 7, It may also be necessary to add further additives, e.g. by means of a valve-controlled Enter inflow 25 on container 1. The dosage of the additives is advantageous by one in particular on the pH value of the exhaust gas condensate in the last container . responsive measuring electrode 24.

Claims (12)

P a t e n t a n s p r ii c h e: 1. Process for detoxifying the exhaust gases of a diesel engine in which the engine exhaust gases are cooled to a low temperature level to condense the condensable components in the engine exhaust gases and pollutants dissolve in the formed condensate, thereby: e k e n n n z e i c h n e that the cooled Engine exhaust gases through at least one hermetically sealed, exhaust gas condensate containing Reservoir (1,2,3) are passed in / in which they are below the liquid level initiated and withdrawn above the liquid level, and that with precipitated pollutants enriched exhaust gas condensate continuously or is discharged intermittently. 2. The method according to claim 1, characterized in that g e k e n nz e i c h n e t, that the engine exhaust gases through a series of cleaning tanks connected in series (1,2,3). 3. The method according to claim?, Characterized g e k e n nz e i c h n e t, that the engine exhaust gases in the last cleaning container (3) above the liquid surface be initiated. , i. Method according to one of Claims 1 to 3, characterized in that Note that the cleaning containers (1,2,3) are kept cool. 5. The method according to any one of claims 1 to 4, thereby g e k e n It is not noted that there are additives in the cleaning containers (1,2,3), e.g. lumps of limestone (23), to be entered, the enriched with precipitated pollutants To be able to discharge exhaust gas condensate safely. 6. Exhaust gas cleaner for the method according to claim 1,: e k e n n marked by at least one hermetically sealed container (1,2,3) for exhaust gas condensate, one that leads into the container and ends near the bottom of the container Engine exhaust gas feed line (8, 14) and an engine exhaust gas discharge line opening near the container cover (1), 17). 7. Exhaust gas cleaner according to claim 6, to e k e n n z e i c h -n e t through an overflow (4,5,6) located in the middle of the container (1,2,3) the exhaust gas condensate enriched with pollutants when a certain value is exceeded Liquid level runs off to the sewerage system (7). 8. Exhaust gas cleaner according to claim 6 or 7, g e k e n nz e i c h n e t by connecting several cleaning containers (1,2,3) in series in such a way that that the engine exhaust gas discharge line (13,17) of a previous container (1,2) to the engine exhaust gas supply line (14,19) of a subsequent container (2,3) is guided; and that the overflow (4,5) a previous container into a subsequent container and the overflow (6) the last container (7;) opens into the sewer (7). 9. exhaust gas purifier according to claim 8, characterized in that g e -k e n n z ei c h n e t that the overflow (G) of the last cleaning container (3) near the container bottom opens and with its highest point above the overflows (4,5) of the previous one Cleaning container (1,2). 10. Exhaust gas cleaner according to claim 8 or 9, characterized in that g e k e n n z e i c h n e t that the engine exhaust gas feed line (19) of the last cleaning container (3) opens above the liquid level (20). 11. Exhaust gas cleaner according to one of claims 6 to 10, £ e k e n n z e i c h n e t by a valve-controlled inflow (25) for additives to the Exhaust gas condensate enriched with precipitated pollutants for discharge harmless close. 12. Exhaust gas cleaner according to claim 11, ge k e n n z e i c h -n e t through Measuring electrodes (24) immersed in the exhaust gas condensate for measuring, in particular, the pil value and to control the inflow (25) of additives.