NL8901774A - PROCESS FOR THE SMOKING AND PURIFICATION OF GASES AND POLLUTED AIR. - Google Patents

Description

Short designation: Procedure for deodorizing and purifying waste gases and contaminated air.

The invention relates to a method for deodorizing and purifying waste gases and polluted air, wherein the purified gas stream is passed through a fixed filter bed, the fixed filter bed being planted with plants or ornamental plants to be consumed and formed from a the plants and ornamental plants to be consumed suitable substrate such as compost.

It is known to use so-called biofilters for the purification of waste gases, in particular waste gases with stench components. Such known biofilters consist of a biologically active material in which compost is generally used as the carrier. The bioactive materials present in the compost are primarily capable of decomposing the organic substances, such as present in the odor-containing waste gases, and the decomposition of such organic substances primarily leads to the removal of the odors and thus, of course, to a certain extent. Purification. Harmful substances are not supplied to the biofilter in such a known process for removing odors or odor components, because there is a fear that such harmful substances will adversely affect the activity of the micro-organisms.

The known application of such a biofilter is therefore primarily limited to the removal of odors and, in the case of gases, which must be removed from certain odorous or smelly components, such as air from rotting components which do not contain any appreciable concentrations of harmful substances in the gas stream.

Besides the use of compost filters or biofilers, biological washing installations are also known, in which the sludge supplied with microorganisms is used as washing liquid. Such biologically active purification methods also succeed in initially causing a reduction in the odor, because it is possible to remove organic substances that can give an unpleasant odor.

A number of fixed bed filters are known for removing harmful substances, whereby harmful substances are removed via chemical bonding, in particular for the desulphurisation of flue gases such lime-containing adsorbents have already been proposed.

The object according to the invention is to obtain a method as stated in the preamble, with which it is possible to apply a filtering effect as well as for the removal of odors and odorants as well as for the purification and separation of harmful substances, the filter bed also being able to must offer to remove harmful substances in such a way that no environmental problems arise.

In particular, the method according to the invention is directed to obtaining a culture medium with which a rapid growth of useful, such as consumable, plants and ornamental plants is possible.

Such a method is possible according to the invention and it is characterized in that the exhaust gas or the contaminated air with a certain temperature and moisture content is passed through the planted fixed filter bed and the concentration of the gases passed through the fixed bed is brought to less than 4% by volume, possibly by adding fresh air to the gas stream to be discharged. Preferably, the concentration is brought to 1-2% by volume.

Because as a filter consisting of solid material, a substrate planted with usable or ornamental plants, such as compost, is used, a biological effect deviating from the usual biological filters is obtained, which is also capable of converting harmful substances biologically. On the other hand, to use the residual heat from the waste gases, so that a certain acceleration of the growth of the various usable or ornamental plants can already be achieved. In addition, the use of the usable or ornamental plants in such a solid filter results in microbial symbionts (an organism living in symbiosis with another) of the plant root, in particular bacteria and Mykorrhiza, due to the availability of readily degradable carbon compounds and other nutrients from the waste gases. are stimulated, so that an additional stimulation of the growth of the plants is achieved. The root symbionts and their metabolism are one of the main factors of plant nutrition from which the stimulation of plant growth is possible. At the same time, such root symbionts allow the conversion of harmful substances that can usually influence the biological action of a biofilter and thus the biological enable the use of harmful substances in the form of their degradation products as natural substances necessary for the plants and their growth. The degradation of organic compounds such as carboxylic acids, alcohols, esters, nitrogen compounds and hydrocarbons is in principle possible with a number of biofilters known per se, whereby the conversion of nitrogen compounds, in particular ammonia, and the conversion of classical harmful substances such as sulfur and halides by incorporation in the build-up or growth process of the plants is possible, but gives a considerably better purification compared to the known biofilters. At the same time, the planting with usable plants or ornamental plants makes it possible to better regulate the water management of the filter bed and thereby to ensure an equal adsorption of harmful substances present in the gases. While adsorbed organic substances act as a food substrate for the bacteria and are broken down or converted into biomaterial, CO 2, water and possibly nitrogen, in particular the sulfur-containing compounds can be incorporated in the protein synthesis and at least other harmful substances can be converted into a form, which in turn stimulate the growth of the plants as a nutrient or necessary trace element.

In the context of the method according to the invention, it has been bleached that, contrary to expectations, the supply with mixing flue gases does not result in the activity of biological activity being reduced. Because plants to be consumed or useful are able to convert CO 2, the CO 2 concentration of the gases passed through the solid filter can advantageously drop below 4 vol. %, especially 1-2 vol. %, optionally by adding fresh air to the off-gas, whereby the biological performance of the leaf green of such usable plants or ornamental plants can also be fully utilized.

The use of waste gases, in particular of flue gases, as corresponding to a preferred embodiment of the invention, furthermore makes it possible in a simple manner to maintain the desired temperature in the filter bed. According to a preferred method, the procedure is such that the exhaust air and the exhaust gases, in particular flue gases, are pre-purified and mixed in a scrubber and the temperature and moisture content of the cleaned air or flue gases are scrubbed with the scrubber. which allows the supply and cooling of flue gases to take place in a simple manner, it being understood that the operating temperature of the filter bed bearing is kept above 40 ° C, in particular between 25 and 35 ° C. The application of a scrubber serves to carry out a far-reaching pre-purification of the flue gases and moreover makes it possible to accurately adjust the relative humidity of the gases to be passed through the fixed filter bed. A gas vapor saturated with water vapor is usually removed from such scrubbers and the saturation conditions can be adjusted relatively accurately. An undesired formation of mist and thus an undesirably high water content is omitted in this way and the permeability of the filter bed can be accurately maintained.

In order to avoid too heavy a load on the filter bed, it has been found advantageous to carry out the method in such a way that the load per surface of the filter is set at a value lower than 3 2 3 2 50 m / mh, preferably at 20-30. m / m h.

The above-mentioned measures provide the microorganisms in the filter material with the necessary amount of nutrients and the filter temperatures can be set that are optimal for the temperature of the types of microorganisms and microbial biosynthesis that are eligible for the degradation of the harmful substances to be removed at all times. (Biozönoses) approach more than was possible with conventional biological filters. At the same time, a sufficient moisture content of the filter material or a sufficient supply of water for keeping the microbial population in operation, which is capable of the operation to be carried out, is maintained via the consumable or ornamental plants, a more or less independent control can be maintained. reached the moisture content. To the waste gases one must always add a greater or lesser amount of air to be discharged, for example contaminated air, so that a corresponding amount of readily degradable organic substances is added for the growth of the biosludge and furthermore a corresponding amount is added. oxygen to be fed to the microorganisms can be insured. If necessary, an amount of fresh air can be added to maintain a sufficient oxygen supply for the microorganisms, with such fresh air supply again by a corresponding setting of the mixing ratio to the combustion gases or flue gases to be cleaned, the desired Cö, - content can be set.

With such a combination of odor components containing air and combustion gases and possibly fresh air, it is possible to provide the filter bed with substances that were necessary for conventional biofilters and, in addition to the degradation of organic compounds such as carboxylic acids, alcohols, esters, nitrogen compounds or hydrocarbons, such as necessary for the removal of odor, also a breakdown of the nitrogen compounds, in particular of ammonia, under the simultaneous stronger formation of humic acids achieved.

It is precisely this stronger formation of humic acids that then leads to a high-quality lagging substrate, which remains after harvesting or moving the plants as a high-quality food substrate. Moreover, the recurring regeneration of the sorption capacity through the continuous microbial degradation of the dispersed pollutants leads to higher residence times of the filter material when planted simultaneously with consumable or ornamental plants.

As already indicated, the stimulation of the plant growth cannot be traced back solely to the relatively high temperature of the filter material. Various types of greenhouse plants, in particular nightshade plants and strawberries, but also melons, peppers, pumpkins and gherkins are particularly suitable for planting the substrate. Knot-shaped plants are preferably used in the context of ornamental plants, because these plants also have a particularly favorable biosynthesis in the form of root symbionts. In strawberries, it has been observed that instead of the normal time of at least one year until harvest, the first harvest can be reached 3.5 months after germination. When the substrate was planted with black poplars, a trunk diameter of 2 cm and a height of 2 m could be reached after a few months, thus also demonstrating the markedly increased growth performance. Fig trees are also particularly suitable for planting such substrates.

Almost all harmful substances that can be toxic in the form of gas can be bound in the bed of the solid material and used as nutrients by the plant roots. The degradation of nitrogen oxides in the filter substrate according to the invention therefore takes place that most symbionts of roots can reduce nitrates to ammonium ions. Even fluorides which are considered to be highly toxic in gaseous form for green plants can readily be bound in the context of the filter substrate according to the invention, because the filter substrates are generally alkaline.

While with conventional filters made from compost a final condition of 8% humic acids already counts as a good quality, the planting of the compost according to the invention can provide conditions which contain more than 18 to 20¾ humic acids.

In order to further improve the sorption activity of the filter bed for harmful substances, it is possible to successfully proceed with the filter-containing solids containing basic substances, active substances, such as slags from blast furnaces or gypsum-lime mixtures from dry purification of flue gases for the chemical bonding of gaseous harmful substances such as SC ^, Ν0χ, NH ^ / HCl, HF are added. In this way, mineral wastes with basic active substances can also be removed, in particular also the use of mineral wastes from the processing of layered silicates such as kaolin, talc or the like gives a considerable additional use.

By using the temperature of the exhaust gas and the moisture content of the exhaust gas, the normally occurring cooling air with odor components required for exhaust air can be avoided below the dew point for lowering the relative humidity and the waste gases can be use a water vapor saturated state, whereby an additional amount of spray water for the plants or ornamental plants to be used is no longer necessary at the biofilter. The ability to retain water, as desired for the optimal growth of plants, can be improved by adding to the solid filter bed bulking agents such as peat, lignin-enriched hydrolysis residues, comminuted barks, swellable layered silicates and / or activated amorphous silicas, such additives not only being able to retain water but also the adsorption, permeability of gases of the filter material and / or the fixation of microbi favors exo-enzymes and metabolites.

In order to be able to maintain the concentration of oxygen necessary for the living conditions of the biosynthesis, mixtures of air containing odorants, flue gases and fresh air are preferably used as cleaning gases, the supply of fresh air in combination with the air containing odorants the necessary content of oxygen. must insure.

The invention is explained in more detail below with the aid of an embodiment shown in the drawing.

The filter bed 2 of solid materials planted with consumable or ornamental plants 1 is supplemented with loose compost earth 3. Into the fixed bed filter 4 polluted air or off-gases with a corrected moisture content and corrected temperature are supplied from the bottom via a distribution element. To adjust the corrected moisture content or the corrected temperature, a mixture consisting of exhaust air with odor components, flue gases and fresh air is introduced via line 5 into a washing installation 6 for waste gases at the bottom and after washing in countercurrent with water pipe 7 is supplied to the distribution member 4 and the fixed filter bed 2. For an initial cleaning, respectively for adjusting the temperature and the moisture content of the mixture consisting of waste gases with tank components, flue gases and any fresh air, the top 8 from the scrubber 6 supplied water from a water cycle 9. After countercurrent purification of the mixture of waste gases or gases to be purified, the washing water is again introduced into the water cycle 9 at 10 fed from the scrubber 6. Any excess water as well as excessively contaminated wash water can be removed from the water circuit 9 via line 11. In order to set a necessary temperature of the gas mixture, it may be necessary to add additional fresh water to be supplied in the water cycle via line 12 or to replace highly contaminated washing water by the supply of fresh water.

Thus, the invention also relates to a process for the removal of odor and odor and the purification of waste gases and flue gases, wherein the waste gases to be purified are passed through a filter of a fixed bed, the filter of solids being planted with consumable plants or ornamental plants and is formed from a substrate suitable for the plants, such as compost, whereby the waste gases and the flue gases, respectively, are passed through the planted fixed filter bed at a certain temperature and humidity and the concentration of the gas fed through the fixed filter bed is set to a value of less than 4% by volume, in particular 1-2% by volume, optionally by adding fresh air to the off-gas stream.

Claims (8)

A method for deodorizing and purifying waste gases and polluted air, wherein the gas stream to be purified is passed through a fixed filter bed, which fixed filter bed is planted with plants or ornamental plants to be consumed and is formed from a substrate suitable for the plants to be consumed. such as compost, characterized in that the exhaust gas or the polluted air, respectively, with a certain temperature and moisture content, is passed through the planted fixed filter bed and the CO 2 concentration of the gases passed through the fixed bed is brought to below 4 vol. %, possibly by adding fresh air to the gas flow to be vented. Method according to claim 1, characterized in that the CC 2 concentration is set at 1-2 vol. %. 3. A method according to claims 1-2, characterized in that the waste gases and the polluted air, in particular flue gases, are pre-purified in a washing machine and mixed, wherein the temperature and the moisture content of the air and waste gases to be purified are adjusted with using the washing system. Method according to claims 1-3, characterized in that the mixtures are cooled by flue gases such that the processing temperature of the filter bed is kept below 40 ° C, in particular between 25 and 35 ° C. Method according to claims 1-4, characterized in that the load on the surface is less than 50 m / m h, preferably 20-30 m / m h. 6. Process according to claims 1-4, characterized in that substances which act on the fixed filter bed, such as slags from blast furnaces or a gypsum-lime mixture from dry flue gas purification for the chemical bonding of gaseous pollutants such as SOg * Ν0χ, NH4 / HCl, HF are added. Process according to Claims 1 to 6, characterized in that on the fixed filter bed, ballasts such as peat, lignin-enriched hydrolysis residues, comminuted bark material, swellable layered silicates and / or activated amorphous silicic acid to improve the adsorption capacity, the water-absorbing capacity , the gas permeability of the filter material and / or for fixing microbial exoenzymes and metabolites are added. Process according to any one of Claims 1 to 7, characterized in that mixtures consisting of odor components containing air, flue gases and fresh air are used as the waste gas to be purified.