NL8603146A - METHOD FOR THE PURIFICATION AND DEODORIZATION OF GAS AND APPARATUS FOR APPLYING THIS METHOD - Google Patents

Description

NL 33956-dJ / cs «·

Method for the purification and deodorization of gas as well as a device for applying this method.

The present invention relates to a process for the purification and deodorization of gas by passing this gas through a carrier and supplying elements which ensure the biological equilibrium of the medium. The invention also contemplates an apparatus for applying this method.

From French patent application no. 78 22 335 of July 24, 1978, filed by GERFO, such a process is known which more particularly relates to the deodorization of gases produced in skinning factories. This process involves passing the gases to be deodorized through a support consisting of peat beds containing microorganisms to which phosphates have been added to ensure bacterial growth, as well as a carbonaceous substrate necessary for biological equilibrium . By the application of this method, absorption of the gases to be deodorized by the peat beds takes place, whereby the micro-organisms assimilate certain constituents of the gas, such as ammonia and the amines, among others.

The supply of nutrients, which are formed by the phosphates and the carbonaceous substrate, which for instance consists of glucose or lactose serum, makes it possible to avoid the saturation of the peat by these components and the assimilation of the latter by the micro-organ promote nisms.

One of the limitations of this method, however, is that the support, consisting of the peat beds, is subject to subsidence resulting in preferential gas passages which are detrimental to good purification.

Another drawback lies in the fact that the passage of air, depending on the ambient hygrometry, can cause the carrier to dry out, which impairs the proper functioning of the process. After all, the proper functioning is linked to bacterial growth, which is only 8603148 - 2 -

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ét ** can be produced in a moist medium. Meanwhile, European patent application no. 142 872 a method known which solves the problem of the formation of preferred passages and for the drying out of the support.

However, the method described in this European patent application has the drawback that the method does not permit perfect growth of the bacterial medium.

The method according to the present invention is applicable to all pollutants of a biodegradable nature present in the gas to be purified, such as solvents, amines and so on.

The present invention aims to provide a method of the previously described kind for the purification of gas, which contains pollutants of a biodegradable nature, the method not having any of the disadvantages of the known methods and moreover permitting a biological balance regardless of the operating conditions.

In the method according to the invention, the de-odorisation and purification of the biodegradable contaminant-containing gas is effected by passing this gas through a support consisting of beds of peat, calcium carbonate, vegetable waste, compost, bark. or analogous materials, in the presence of microorganisms and a foodstuff, characterized in that the foodstuff is fed directly to the carrier in the form of a nutritious aqueous solution and the carrier is relieved by light and low fermentability or not - fermentable ingredients to mix through.

The support is lightened by adding components which are slightly or non-fermentable and wetted by supplying the nutritious aqueous solution.

The microorganisms can be bacteria which are naturally present or which have been seeded. They can be natural or artificially prepared bacteria.

According to a preferred embodiment of the method, the wetting is effected by spraying the nutritious aqueous solution directly over the carrier.

According to another preferred embodiment of the invention, the gas to be treated is pre-washed by gas / liquid contact.

According to yet another preferred embodiment of the invention, the light components are moss or vegetable waste.

According to an embodiment of the method, the nutritive solution is an aqueous solution containing one or more components such as phosphates, a carbonaceous substrate, nitrogenous salts and other salts commonly used as foodstuffs.

According to a further embodiment of the method of the invention, in the case of treatment of solvent vapors, the carrier used is a peat bed and the nutritious solution is an aqueous solution containing nitrogen-containing salts, optionally supplemented with phosphate.

According to yet another embodiment of the method according to the invention, in the case of gases loaded with sulfur-containing products, the carrier is a bed containing a large amount of calcium carbonate, while the nutrient solution mainly contains a nitrogen source and optionally the phosphate source.

Thus, the previously noted drawbacks are avoided.

The present invention also relates to a device for applying the above method, which device consists of a tray containing the seeded carrier which rests on a grid, which together with the bottom of the tray provides a volume, in which volume gas distribution pipes are arranged, which are connected to a pipe for supplying the gas to be purified, as well as pipes for atomizing the nutrient solution, which are located above the carrier-containing tray.

The invention is explained in more detail below with reference to the following description, which is given by way of example only, with reference to the appended drawing, of which the only figure very schematically represents a purification device for applying the method .

In the selected embodiment and shown in the only fig. 8603146 t / - 4 ring form, the purification installation, which is intended for applying the method according to the invention, consists of a tray 1, for example of concrete, which is placed in the bottom 2. is buried.

This trough 1, which has the shape of a parallel piped and which is open at the top, comprises vertical walls 3, which have been opened up to grids, and a bottom 4 which has a slight outflow slope to a liquid outlet 5.

A grid 7 is arranged above bottom 4 over the entire surface of the tray 1, thus providing a space 8 between this grid 7 and the bottom 4.

A line 10 for supplying the gas 11 to be purified is connected to one or more pipes or hoses 12 for the distribution of the gas; these pipes are arranged in space 8 and have openings 13 for distributing the gas to be purified.

On top of the grid 7, in the tray 1, a support is provided consisting of successive beds of peat 14, which contain suitable microorganisms, for example heterotrophic microorganisms. According to the invention, the carrier 14 is made lighter by mixing in it, in appropriate proportions, light and low or non-fermentable constituents, such as moss, dry coarse vegetable waste, etc.

Instead of peat, one can use carriers of a similar nature, such as bark, vegetable waste, compost, or of a different nature, such as calcium carbonate, and so on.

At the top of the tray 1 are spraying tubes 16 for supplying, with the aid of a pump 17, from a tray 18, of the nutritious aqueous solution contained in the latter tray 18, which contains the appropriate nutrients.

In addition to the aforementioned phosphates and the carbonaceous substrate, these additives can also be components required to achieve a good biological balance, such as nitrogenous salts and other salts. These additives are adapted to the nutrient deficiency of the gas to be purified and to the nature and to the supply possibilities of the carrier.

In addition to supplying the necessary nutritious solution to the carrier, this spray ensures wetting of this carrier and prevents dehydration which is detrimental to the proper operation of the device.

It may happen that the gas to be purified, in addition to biodegradable impurities, has properties that are detrimental to the proper functioning of the system, for example dust or fats that can clog the carrier, or even a high temperature that most of the the carrier can destroy micro-organisms present.

In this case, a preliminary washing of the gas is advantageously provided in a suitable gas / liquid contacting device, for example a venturi, whereby a good retention of the particles and bubbles and also a good heat exchange is ensured. The pre-washing also has the advantage that it contributes to the desired wetting of the carrier.

The method has numerous applications, including the following, without limiting the applications thereto: - the purification of solvents from the air resulting from a treatment with paint, - the purification of amines originating from the hardening treatment of foundry sand, 25 - the treatment of cooking gases from painting workshops.

Other objects and advantages of the present invention will become apparent upon reading the following examples, which do not limit the present invention.

EXAMPLE I

The method is applied to the treatment of a cooking and ventilation gas flow from a painting workshop with a flow rate of 15000 m3 / hour. It is a case where the medium is disturbed with regard to sulfur and nitrogen and therefore requires the use of a carbonaceous source for its equilibrium.

The nature of the impurities present in the gas stream and the efficiency of the process are indicated in 8603146-6 - in the table below.

Nature of the impurities Initial content Purification mg / m3 percentage%. ammonia 100> 95 5. amines 10> 99. H2S and mercaptan 100> 99. aldehyde and ketone 1 not increased

In this case, the adsorbent used is a peat bed and the food is an aqueous solution mainly containing a carbonaceous source to which phosphates have been added.

EXAMPLE II

The operations of Example I are repeated on a gas containing the following impurities: Nature of the impurities Initial content Purification mg / m3 percentage%. methyl ethyl ketone 150> 90. aldehydes 120> 90

Since in this case the medium is rich in carbon, a support consisting of a peat bed is used to obtain the equilibrium under the reaction conditions, while the nutritious solution then consists of an aqueous solution of nitrogenous and phosphate-containing substances.

EXAMPLE III

The operations of Example I are repeated on a gas containing the following impurities:

Nature of the impurities Initial content Purification mg / m3. percentage%. H2S 1000> 90 30 In this case, the carrier used is mainly formed from calcium carbonate and the foodstuff is mainly an aqueous source of nitrogenous and phosphate-containing substances, the phosphate-containing substances being present in the carrier.

When comparing the method according to the invention with other methods used for the treatment of odors (thermal or catalytic oxidation and chemical treatment waxes) it is characterized by investment costs, comparable to. the chemical treatment, but due to operating costs, including depreciation, 10 which are very clearly lower than in the case of chemical treatment and also very clearly lower than that of the thermal oxidation treatment.

On the other hand, it is important to note that in a properly operated facility no secondary waste stream is generated.

Of course, the present invention is not limited to the described and disclosed embodiments; she knows countless variants that are accessible to the expert without deviating from the inventive idea. Thus, the vertical walls 3 are not necessarily cut open and can form a solid wall which does not have the function of a grid. Likewise, the gas distribution tubes 12, especially in the case of small or medium-sized devices, can be replaced by a single inlet tube (not shown).

8603148

Claims (11)

1. Method for the deodorization and purification of gas containing biodegradable impurities by passing this gas through a support consisting of beds of peat, calcium carbonate, vegetable waste, compost, bark 5 or analogous materials, in the presence of micro-organisms and a foodstuff, characterized in that the foodstuff is fed directly to the carrier in the form of a nutritious aqueous solution and the carrier is lightened by mixing light and slightly fermentable or non-fermentable ingredients through it. Method according to claim 1, characterized in that the wetting is effected by spraying the nutritious aqueous solution directly over the carrier. A method according to any one of claims 1 and 2, characterized in that the gas to be treated is pre-washed by means of gas / liquid contact. 4. A method according to any one of claims 1-3, characterized in that the light components are moss or vegetable waste. 5. A method according to any one of claims 1-4, characterized in that the nutritious solution is an aqueous solution containing one or more components such as phosphates, carbonaceous substrate, nitrogenous salts and other salts commonly used as foodstuffs. 6. A method according to any one of claims 1-5, characterized in that in the case of the treatment of solvent vapors, the carrier used is a peat bed and the nutritious solution is an aqueous solution containing nitrogen-containing salts, whether or not supplemented with phosphate. 7. A method according to any one of claims 1-5, characterized in that in the case of gases loaded with sulfur-containing products, the carrier is a bed containing a large amount of calcium carbonate, while the nutritious solution mainly contains a nitrogen-containing source and optionally the phosphate source. 8. A method according to any one of claims 1-7, characterized in that the microorganisms consist of the 8603146-9-9 naturally present strains. A method according to any one of claims 1-7, characterized in that the microorganisms are fixed and of natural origin or obtained by supply. Device for applying the method according to any one of claims 1 to 9, characterized by a tray (1) which contains the seeded carrier (14), which rests on a grid (7), which together with the bottom (4) ) of the tray provides a volume (8), in which volume (8) one or more pipes or hoses (12) for the supply of gas are located, which are connected to a pipe (10) for the supply of the to be purified gas, while the nutrient solution spray tubes (16) are located above the tray (1) containing the carrier (14). 11. Device according to claim 10, characterized in that it comprises a plurality of gas distribution tubes (12). 8603146