DD291934A5 - DEVICE FOR REMOVING SOLIDS FROM EXHAUST GASES AND SMOKE GASES - Google Patents

Abstract

Contents of this invention is the device for the removal of solids from exhaust gases or flue gases. The invention relates to a system for solids removal from waste or flue gases, in particular the reduction of carbon particles in exhaust gases of fossil fuels. According to the invention, the device consists of a high-voltage generator installed in an exhaust pipe, electrostatic precipitators and means for removing separated particles, the separator consisting of a pair of conductors connected to the respective pole terminals of the generator, between which the exhaust gases are passed. The solid particles are then combusted by means of a heating complex under oxygen supply, wherein two exhaust pipes can be operated in alternation. Fig. 1 {exhaust gas; Flue gas; Carbon emissions; Solids removal; Engine exhaust; Heating gas}

Description

For this 1 page drawings

Field of application of the invention

The invention provides a system for removing solids from exhaust gases and fumes generated by the burning of fossil fuels, in particular to the reduction! the emission of particulates in exhaust gases of diesel engines or in flue gases resulting from all applications involving the combustion of diesel fuel or heavy oils, even in mixtures with aromatic fractions (heating systems, mobile power supplies, large e'ke etc.) or coal are connected.

Characteristic of the known state of the art

Combustion of hydrocarbons and other fossil fuels results in high emission of carbon particles (solids) due to lack of air in the mixture or due to poor mixing. The combustion of hydrocarbons, starting with molecules of about ten carbon atoms or simple aromatic molecules, not only produces the traditional combustion products, such as CO, CO ₂ and H ₂ O, but also products such as unburned organic compounds, carbon black and nitrogen oxides.

The composition of exhaust gas may vary widely depending on the amount of air used for combustion. However, for a good process yield (eg, to achieve sufficient performance), the air-fuel ratio is set close to certain values, making it difficult to avoid the emission of solids. Automobile diesel engine operators are accused of producing a high level of environmental pollution and severely damaging people's health because of the generally visible exhaust emissions. In essence, these allegations are unfounded; Compared to petrol engines, diesel engines encounter four to six times less carbon monoxide (which is a potent poison because it inhibits oxygen exchange in the blood), about half the amount of unburned hydrocarbons (which are highly carcinogenic), and about half of nitrogen oxides (the belong to the compounds responsible for the acid rain).

However, diesel engines encounter about forty times more carbon particles (which can cause long-term bronchitis and other respiratory illnesses) and sulfur oxides (which are also responsible for acid rain, but could be eliminated if the diesel fuel were desulphurized, as is the case with gasoline). out. It should also be noted that soot absorbs unburned hydrocarbons and thus acts as a vector for these carcinogenic substances.

In conclusion, there can be no doubt that the soot developed by the combustion of diesel fuel, heating oil and the like is extremely unpleasant and therefore such emissions should be eliminated or at least substantially reduced.

Some reduction in the amount of solids produced by the combustion of hydrocarbons can be achieved by ceasing combustion by electronic means. However, this setting causes only a reduction of the amount of smoke by about 20%, which is not sufficient for many applications. As a result, many efforts have been made to solve this problem.

Numerous patents (eg J 63-232817, EP 283240 and 114696, US Patents 4622810, 4604868 and 4571938, etc.) use ceramic filters of varying description which mechanically capture the solids and are regularly called, for example, by combustion using a special burner Gases or a stream of preheated air to be regenerated. The filter is also often impregnated with a catalyst, for example platinum, to facilitate combustion.

In this way, the amount of solids is substantially reduced. The complexity of the previously chosen solutions, the cost and fragility of the ceramic filters, as well as the cost and degradation of the effectiveness of the catalysts (e.g., by poisoning) have heretofore made the use of such filters, especially on vehicles, uneconomical. US Pat. No. 4,741,746 suggests the use of a corona discharge electrostatic precipitator for precipitating the carbon particles from diesel exhaust gases.

US Pat. No. 4,587,808, which also relates to diesel engines, contemplates the use of a molecular disassociation apparatus which effects, with a charge up to 15OkV, the decomposition of the CO, CO ₂ and NO ₂ 'molecules and unburned hydrocarbons into the elemental chemical constituents and subsequently eliminates the carbon particles produced in this way and the carbon particles already contained in the exhaust gas with the aid of an electrostatic precipitator and a cyclone. However, it was reported at the Paris Meeting "Air Pollution by Transport" in 1987 that when incorporating industrial systems into motor vehicles, their effectiveness is dubious (as in the case of cyclones), they are too large or their complexity (electrostatic precipitators) is a hindrance (see Pollution Atomsphörique, special issue, December 1987, pp. 268-285).

The mentioned problems in the separation of solids from flue gases are thus far from being solved, in particular not in plants with size limits (eg in motor vehicle diesel engines, domestic heating systems).

Object of the invention

The aim of the invention is to reduce the solid emissions of such flue gases that are produced during the combustion of hydrocarbons from fossil fuels.

Essence of the invention

The invention has for its object to achieve the reduction of the solid emission by means of a simple, inexpensive and compact device, which consists of a system of deposition and removal of deposited particles. According to the present invention, a dust removing device characterized by the combination of the following parts is incorporated in the exhaust pipe of fossil fuel burning systems

- high voltage generator

- means for the electrostatic deposition of soot

- means for removing the collected soot.

The said means for electrostatic precipitation of soot comprises at least one pair of conductors between which the exhaust gases or flue gases pass, each of said conductors being connected respectively to one of the pole terminals of said voltage generator and a charge of opposite sign for charging said conductors owns another leader.

As a further possibility, said current conductors may consist of a conductor in which at least one point points in the direction of the other conductor from which it is suitably insulated.

In a further embodiment, one of said conductors may be formed by the inner surface of a pipeline and the other of which is suitably isolated from the former by an elongated conductor mounted along the axis of said pipeline.

The said means for removing the collected soot may consist in a means for increasing the temperature of the solids and their combustion by the action of the exhaust gases themselves or by air. The trapped soot can also be eliminated by exchangeable and replaceable means taken from the system and cleaned, while known means can be used for some applications

 The means mentioned for increasing the temperature of the collected solids may be:

- a small additional burner that directs hot, oxidant-rich gases to the solids

- oin electric heater, which heats the solids in a stream of exhaust gas or air or in a mixture of both. For applications in which the exhaust or flue gas duct is vertical, such as in chimneys, chimneys and the exhaust system of some commercial vehicles, said means for removing the dust particles may consist of a collection separator located at the lowest part of the solids removal system at the point where the Gases enter the vertical line. The collection of solids in the separator is facilitated by the use of a suitable system, such as a vibrator, which operates during an interruption in the combustion process or gas flow.

Another embodiment contemplates the use of a solids removal system of suitable size which also serves as a soot container which can be taken out of the exhaust / flue line so that it can be removed and cleaned from time to time and then reused and reused.

This invention will now be described in more detail with reference to the accompanying drawings, which illustrate them by way of example only, but in no way limit their scope and scope:

- Fig. 1 shows a sectional view of an embodiment of the invention

Figure 2 is a sectional view of the solids removal section which may be taken from the remainder of the exhaust / flue gas system. *

Referring to Figure 1, the steel (preferably stainless steel) flue gas pipe 1 is also one of the solids removal ladder connected to the positive pole of a high voltage generator (not shown)

The exhaust gases flow via the line 9. The other, connected to the other Pol dos generator conductor 2 is inserted through the insulator 8 in the tube 1 and extends over oine certain distance along the axis of said tube, being partially isolated by means of the insulator 3. The free end of the conductor 2 is held by a suitable insulator 4 in the form of small, with spaces between the tube 1 and the conductor 2 arranged rods. The pipe 1 also has an outer heater 5, a pipe 6 and ignition or glow plugs 10.

During operation, exhaust gases are introduced via the pipe 9 into the pipe 1 and flow through it from right to left. In the space 8 between the conductor 2 and the tube 1, which are both connected to the pole terminals of the voltage generator, the carbon particles are electrically charged and attracted to the inner wall of the tube 1, where they are discharged and settle in the form of the deposit 7.

If this deposit has reached a certain level or if the accumulation of carbon throughout the conductor 1 has reached a stage where the conductors 1 and 2 can no longer be completely isolated from each other, the voltage between the conductors will in some cases drop very considerably.

At this point, the heater 5, which may also be an electrical resistor, is used, and / or glow or spark plugs 10 are turned on, and / or very hot gas from an auxiliary burner or air is blown through. These operations, which take place separately or coupled with at least one of the other operations are to increase the temperature of the carbon deposition 7 to a value which is usually between 400 and 55O ⁰ C, and wherein the carbon burn.

In order to facilitate this operation, at least two of said tubes 1 are arranged in parallel, and the soot is removed from the exhaust gas in at least one of them, while the dust that has previously settled is eliminated in at least one of the other tubes. In this way, each tube acts alternately as a soot separator and as a disposal device.

The choice of the desired functions and the operation of the valves directing the exhaust gases from one pipe to the other can be advantageously controlled automatically by a timer or a microprocessor receiving its values from special sensors.

With reference to Fig. 2, in which the same numerals denote the same parts as in Fig. 1, it can be seen that the pipe 1 forms the end piece of the exhaust pipe 11 with which it is connected via the connecting part 12, which is, for example, a bayonet lock can act, is connected.

The manner in which the device functions with respect to soot deposition is the same as the operation described in the embodiment of FIG. Here it is also possible to arrange at least two pipes in parallel, wherein the exhaust gas is passed alternately only through one of said tubes or, if more than two tubes are present, the passing through for the process of soot removal is done only by some of these tubes.

In the arrangement shown in Fig. 2, the pole terminal 1, when the layer of deposited soot reaches a certain value, separated from the main pipe 11 so that it can be cleaned separately and replaced by another clean pole terminal.

Experiments show that the solids content of exhaust gases and flue gases can be easily reduced by at least 50%.

As a further embodiment, it has been shown that air can be introduced into the tube 1 even without interruption of the exhaust gas flow.

In this way, the difficulties in the parallel arrangement of more than one pipeline and the formation of soot can be avoided, which can leave the exhaust pipe in the form of a block due to vibrations, impact or similar processes.

The present invention has been tested on the exhaust system of a diesel generator unit having an engine with displacement 3860cm ³ and a generator with an output of 4OkW at 1500U / min. The engine was operated at speeds between 1300 and 1480rpm during testing.

The soot removal apparatus consisted of one or two steel cylinders (arranged in parallel and either together or alternately) with a length of 1000 mm and an inner diameter of 150 mm, with a 15 mm diameter steel rod mounted axially.

At 0.5 A, a voltage was applied between the sweeter cylinder and the axial rod. Each test ran for one hour, with a constant sampling of 500 liters of the gases flowing through the device. The sample was passed through a porous filter and the particles collected in this way were weighed. The results are given in the table.

table

Engine RPM Number of parallel inserted tubes Voltage yes / no Trapped solids mg / m ³ Eliminated percentage (A-B / A) A1300 B1300 1 1 no Yes 13.46 6.4 52.4 A1350 B1350 CM CM No Yes 15.0 4.9 67.3 A1380 B1380 2 2 no Yes 16.4 7.32 55.4 A1410 B1410 1 1 no Yes 17.5 7.2 58.9 A1430 B1430 1 1 No Yes 21.3 9.83 53.8 A1430 B1430 CM N no Yes 22.0 7.33 66.7 A1480 B1480 1 1 No la 24.8 13.9 43.9

The deposited soot was quickly burned when an air stream at a temperature of 490 ° C was passed through the separator piping.

If the exhaust gas was enriched with air, it was burned during the deposition process. The number for the eliminated percentage would have improved by 12 to 13 counters.

Claims (10)

1. A device for removing solids from exhaust gases or flue gases, which are generated by the combustion of fossil fuels, characterized in that incorporated in an exhaust or flue gas pipe, a high voltage generator; Means for electrostatic precipitation of the solids and means for removing the deposited particles; wherein the means for electrostatic precipitation of particulate solids consists of at least one pair of conductors between which the exhaust gases / flue gases are passed, each of the conductors correspondingly connected to one of the pole terminals of said voltage generator. 2. Apparatus according to claim 1, characterized in that the conductors of a pair of conductors consist of two mutually insulated, facing walls in a pipeline. A device as claimed in claim 1, characterized in that one conductor of a conductor pair has at least one point directed towards the other conductor consisting of a wall extending in front of the other conductor, being electrically isolated from the other conductor. Device according to Claim 1, characterized in that one conductor of the conductor pair consists of the inner surface of one pipeline and the other, suitably insulated from the former, consists of an elongate conductor running along the axis of said pipeline. 5. The device according to claim 1, characterized in that the means for removing the solids from a device for increasing the temperature of the separated solids and their combustion either with the aid of the exhaust gases themselves, which may be enriched with air, or with air. Device according to claim 1, characterized in that the means for removing the solid substance consist of detachable, exchangeable parts which can be removed from the system so that they can be cleaned separately and replaced by other similar, already cleaned parts. 7. Apparatus according to claim 5, characterized in that the means for increasing the temperature of the Feststoffsubstan • consists of an auxiliary burner which directs hot gases with high oxidant content to said solid j st dance. 8. Apparatus according to claim 5, characterized in that the means for increasing the temperature of the solid substance consists of an electric heating complex which heats said solid substance in the presence of a flow of exhaust gases or air or a mixture of air and exhaust gases. , 9. Apparatus according to claim 8, characterized in that the heating complex consists of at least one ignition or glow plug. 10. The device according to claim 1, characterized in that the exhaust gases are enriched during the deposition process of the solids with air to cause the combustion of at least a portion of the solids.