DE19848700A1 - Purifying exhaust gases from e.g. combustion engines - Google Patents

Abstract

A cleaning solution is used to remove sulfur compounds from the exhaust gases from combustion engines and burners. Purifying exhaust gases from combustion engines and burners comprises using a reactor unit (1) through which exhaust gases are fed and into which a basic cleaning solution is fed to react with the exhaust gases using the oxygen remaining in the exhaust gases. The cleaning solution collecting in the lower part of the reactor unit is continuously recovered and sprayed through nozzles (4) into the exhaust gas stream so that the substances continuously react with the cleaning solution. The recovered cleaning solution is pumped into the nozzles using a circulating pump (6), at whose pressure side air or a mixture of air and water is added so that the cleaning solution already reacts with the harmful substances before it is fed into the nozzles (4). An Independent claim is included for an apparatus for cleaning the exhaust gases from combustion engines and burners.

Description

The invention relates to a method according to the preamble of Claim 1 for cleaning the exhaust gases of an internal combustion engine, a burner or the like environmentally harmful substances, in particular sulfur sulfur bindings, and a processing device for applying the Procedure.

Various methods have been developed to reduce harmful emissions, which entail increased energy consumption. A problem that arises in particular with many types of fuel oils is the sulfur contained therein, the combustion of which generates environmentally harmful sulfur dioxide (SO ₂ ). To eliminate or significantly reduce emissions of sulfur dioxide, a treatment unit using sodium hydroxide (NaOH) can be used, whose waste water flow is water, sodium sulfates (Na ₂ SO ₄ , NaHSO ₄ ) and sodium sulfites (Na ₂ SO ₃ , NaHSO ₃ ) contains. From an environmental point of view, sodium sulfates are harmless salts, whereas sodium sulfites pollute the environment, in particular due to their property of consuming oxygen. In order to eliminate this disadvantage, the wastewater is brought into a separate oxidation reactor downstream of the processing unit, in which the sodium sulfites form sodium sulfate salts in reaction with oxygen, which are harmless from an environmental point of view. However, the solution is complicated, takes up space and is expensive.

The aim of the invention is to provide an improved method for cleaning the exhaust gases of an internal combustion engine, a burner or the like combustion device of sulfur dioxide (SO ₂ ) contained therein, which is simpler and cheaper in comparison with the method described above, but that in the Exhaust gases containing sulfur oxide eliminated at least as effectively. In addition, it is an object of the invention to provide a method which can be used in particular for cleaning the exhaust gases of diesel engines from sulfur oxide emissions and which enables a more compact solution than before to apply the method.

The objects of the invention can be achieved in a way as described in claim 1 and in the subclaims is. According to the invention, the treatment solution in the Nozzles pumped by means of a circulation pump, at their pressure air or a mixture of air and water is so that the treatment solution with the harmful Sub punching reacts even before it is fed into the nozzles. Consequently, the invention is based on the one hand on the fact that the exhaust fumes, especially those of a diesel engine Contain oxygen and on the other hand on the fact that the Sulfur oxide in the exhaust gases absorbed by the treatment solution is beer, so that in addition to the sulfate salts ge formed sulfite salts as a result of a reaction with the available oxygen will react if additional oxygen is added is added to the basic treatment solution, whereby the Process without using a separate oxidation reactor in the we only forms sulfate salts from environmental policy Visibility are harmless. According to the invention, the oxide takes place tion under pressure and is therefore more effective and saves space of the.

When the pH of the treatment solution is at the bottom Part of the reactor unit accumulates, is determined, a ba sic solution to the treatment solution as required be added before the treatment solution in the nozzles is passed so that the pH of the treatment solution in the reactor unit within desired limits, preferably remains within the range of 6 to 8.  

In the event that the treatment solution in the nozzles Using a circulation pump is pumped to the Air or a mixture of air and water will give, so that the treatment solution with the harmful Substances react before they are directed into the nozzles, can also increase the effectiveness of the process the. Except for the basic chemical reactions for the formation of sulfate salts and sulfite salts is used here expressly referred to reactions by which Sul fat salts are formed from the sulfite salts.

If excess treatment solution gradually Bottom of the reactor unit can accumulate from time to time be emptied as required, as the neutral treatment solution solution as such is not an environmental pollutant.

A processing device that is different from that described above Process operated, is defined in claims 5 to 8.

The invention is described below using an example with Be train described on the accompanying drawing, in which the one Zige figure shows a schematic implementation of the method of the invention shows.

In the drawing, 1 denotes a container-like reactor unit, into which the exhaust gases of an internal combustion engine or the like, not shown, are fed through a line 2 , and after processing are derived from the upper part of the reactor unit through a line 3 . The reactor unit 1 is provided with a set of nozzles 4 for supplying a basic processing solution into the gas stream passed through the reactor unit 1 .

The reference number 5 designates the return circuit for the treatment solution, through which the solution accumulated at the bottom of the reactor unit 1 is recovered and continuously circulated through the nozzles 4 by means of a pump 6 . The device contains a tank 7 , which holds a basic solution ent, and from which a pump 8 pumps the treatment solution into the circuit 5 as required, and a device 9 for air or a mixture of air and water of the treatment solution on the pressure side of the Feed pump 6 . In order to control the supply of the ba solution, the reactor unit 1 is provided with a device 10 for measuring the pH and with a logic unit 11 which acts on the pump 8 . In addition, the circuit 5 contains a drain line 13 which is provided with an outlet valve 12 .

At the beginning of the treatment of the exhaust gases, basic treatment solution is first passed into the reactor unit 1 either through the nozzle device 4 using the devices 7 and 8 or through a separate feed device (not shown) so that the treatment solution with the sulfur compounds of the exhaust gases taking into account the remaining oxygen in the exhaust gases. The processing solution accumulating at the bottom of the reactor unit is continuously circulated with the content of compounds formed by chemical reactions who in the circuit 5 with simultaneous supply of air or a mixture of air and water, thereby obtaining a continuous reaction process can be.

The basic solution to be supplied can advantageously be sodium hydroxide, as a result of which chemical reactions occur according to at least one of the following equations:

2 NaOH + SO ₂ + ½O ₂ → Na ₂ SO ₄ + H ₂ O (1)

2 NaOH + SO ₂ → Na ₂ SO ₂ + H ₂ O (2).

The environmentally harmful sodium sulfites react further with oxygen by means of the method according to the invention, so that the environmentally harmless sodium sulfate is formed as follows:

Na ₂ SO ₃ + ½O ₂ → Na ₂ SO ₄ (3).

Instead of sodium hydroxide (NaOH), other ba sical solutions are used to fulfill this purpose, such as B. Calcium hydroxide (CaOH), wherein in the above. Equations only sodium (Na) is replaced by calcium (Ca).

One aim is that the pH of the treatment solution accumulating at the bottom of the reactor unit remains neutral through the use of devices 7 , 8 , 10 and 11 , which value can vary, for example, within the range of 6 to 8. This ensures that a waste solution is formed in the reactor unit, which is as harmless as possible to the environment and which can be drained from the reactor unit by means of the valve 12 and the drain line 13 who can if there is a sufficient amount of it at the bottom the reactor unit has accumulated. Emptying of the reactor unit can be carried out simultaneously with the treatment of the exhaust gases, the treatment solution being continuously fed through the recirculation circuit 5 into the nozzles 4 .

The invention is not limited to the embodiment shown, as some modes within the scope of the appended claims are possible.

Claims (7)

1. A method for cleaning the exhaust gases of a Brennkraftmaschi ne, a burner or the like combustion device from environmentally harmful substances, in particular sulfur compounds, through the use of a container-like reactor unit through which the exhaust gases are passed and into which a basic treatment solution is supplied to reacting with the exhaust gases using the oxygen remaining in the exhaust gases, the treatment solution accumulating at the lower part of the reactor unit being continuously recovered and further atomized into the exhaust gas stream through nozzles, so that the substances continuously react with the treatment solution, characterized in that the processing solution recovered from the lower part of the reactor unit is pumped into the nozzles by means of a circulation pump, to the pressure side of which air or a mixture of air and water is added, so that the processing solution ng already reacted with the harmful substances before it is fed into the nozzles. 2. The method according to claim 1, characterized in that the pH value of the lower Processing solution collecting part of the reactor unit is true, and that a basic solution to the treatment solution is added before the treatment solution in the Nozzles are guided as needed so that the pH of the Treatment solution in the reactor unit within the desired Limits remain, preferably within the range of 6 till 8.   3. The method according to claim 1, characterized in that at the bottom of the reactor unit accumulating excess treatment solution as needed is dissipated. 4. Processing device for cleaning the exhaust gases of an internal combustion engine, a burner or the like combustion device of environmentally harmful substances, in particular of sulfur compounds, which device contains a container-type reactor unit ( 1 ) through which the exhaust gases are passed and which are provided with a nozzle device ( 4 ) in order to lead a basic treatment solution into the exhaust gas stream, the treatment solution accumulating at the lower part of the reactor unit being pumped through the nozzle device ( 4 ) in order to be continuously fed back into the reactor unit ( 1 ), characterized in that that the treatment solution is pumped into the nozzles ( 4 ) by means of a circulation pump ( 6 ), on the pressure side of which air or a mixture of air and water is added, so that the treatment solution reacts with the harmful substances before it enters the nozzles ( 4 ) is performed. 5. Processing device according to claim 4, characterized in that the reactor unit ( 1 ) is provided with a device ( 10 ) for measuring the pH value in order to measure the pH value, which accumulates on the bottom of the reactor unit, on treatment solution, and that the device Vorrichtun gene ( 7 , 8 , 11 ) for adding a basic solution to the treatment solution, so that the pH in the processing solution accumulating at the bottom of the reactor unit ( 1 ) remains within half desired limits, preferably within the loading range from 6 to 8. 6. Treatment device according to claim 4 or 5, characterized in that the device contains a separate transmission line ( 5 ) for pumping the treatment solution into the nozzles ( 4 ). 7. Treatment device according to one of claims 4 to 6, characterized in that the device has a valve ( 12 ) for removing excess treatment solution accumulating at the bottom of the reactor unit ( 1 ) as required.