DE2605606A1 - Removal of gaseous organic impurities from gases - using biologically active adsorbent such as partially rotted compost - Google Patents

Abstract

Filter device for sepg. gaseous organic impurities from exhaust gases consists of a vessel contg. a regeneratable adsorbent through which the gas is passed. This adsorbent is a waste material from a biological rotting process or from an activated sludge process. It should be partially rotted so as to retain some biological activity. There is a system for introducing and removing the adsorbent continuously or in batches. The exhaust gas is fed through the adsorber by means of fans. Probes can be inserted in the line from the fan to carry out a continuous analysis. This can be used for control. The device is of use in removing organic odours and contaminants in exhaust gas streams, e.g., from intensive animal forming, animal processing plants, fermentation and rotting processes as well as other industrial operations. The use of a biological process greatly improves the efficiency of the system.

Description

Device for separating gaseous

Organic Pollutants From Exhaust Gases The invention relates to to a filter device for separating gaseous organic contaminants from exhaust gases, consisting of a container through which the exhaust gas flows from the bottom, which is filled by a regenerable absorbent.

Among gaseous organic pollutants are all the exhaust gases to understand, for example, from intensive animal husbandry, from processing in animal carcass recycling plants, from fermentation and rotting processes as well as from processing plants originate from industry.

It is known to separate gaseous contaminants from exhaust gases Filters to be used that consist of a drum-like separating aggregate rotating around an axis and which are used as filter material, e.g. smoldering coke from peat or brown, stone or contain charcoal, see DT-OS 1 619 861. After exhaustion The adsorptive capacity is always a new batch in the separation unit bring in. This removes gaseous impurities, especially in the form of sulfur dioxide Can be removed by adsorption from exhaust gases by standing in the presence of oxygen and Rrasserdampf forms sulfuric acid, which in one of the adsorption downstream Procedure must be released.

With the help of such facilities, the aforementioned As experience has shown, organic impurities can only be removed imperfectly or even implement it. Not all impurities and foreign substances can occur The porous surface of such adsorbents is also bound by the in Suspended solids in the exhaust gases mentioned were quickly added to what might be upstream filter also applies.

After a proposal that does not belong to the state of the art, you can organic compounds from exhaust gases are filtered out much better, if they are passed through a biologically active absorbent that acts like a migrating layer passes through a container through which the exhaust gases flow from top to bottom; the Absorbent is not yet obtained by an aerobic rotting process Completely rotted compost from organic waste and / or sewage sludge. That Used filter material is continuously discharged from the container and continuously replaced by fresh material.

It has now been shown that with one such, with one biological active absorbent working filter the residence time of the exhaust gases in the absorbent as well as those there for those involved in the implementation of the impurities Micro-organisms prevailing living conditions are decisive for the filter effect. The living conditions for micro-organisms are known through the temperature, through the humidity and can be influenced by the partial gas pressure.

It is also known that the amounts of exhaust air to be filtered are not always uniform occur, but are subject to strong fluctuations in amount and degree of contamination are.

These fluctuations cause pressure fluctuations in the container of the filter, which inevitably leads to undesirable changes in the living conditions of the Nikro organisms and thus lead to changes in the filter properties.

The invention is based on the object, one with a biological to train active absorbent filter device so that for the filter process participating micro-organisms over the entire duration of this filtering process optimal living conditions that are as constant as possible are to be maintained.

Starting from a filter device of the type mentioned above This object is achieved according to the invention in that when using a after a biological rotting process obtained from organic waste and / or sewage sludge, at least partially rotted compost as a biologically highly active absorbent of the Container with an introduction and a discharge device for the batchwise Bringing in the compost and with each one the exhaust gas to be cleaned through the container leading pressure and suction fan is connected.

According to a further feature of the invention are in that of the suction fan generated exhaust gas flow probes for continuous gas analysis and is a Controller to which the actual values measured by the probes are fed and setpoint values are specified are, the delivery rate of the pressure and suction fan can be regulated.

With the help of the device according to the invention can be in a simple Way, namely via the flow rate, the residence time of the to be cleaned Control exhaust gases and their partial pressure in the container.

Fluctuations causing disturbances in the biological degradation and remodeling process in the case of the amount of exhaust gas to be cleaned or in the gas pressure, you can use the controller by changing the delivery rate of pressure and / or suction fans in a simple manner be adjusted. Those involved in the implementation and degradation of the gaseous organic Contaminants involved, in certain areas within the absorbent pile settled micro-organisms thus retain their optimal ~ living conditions and thus their optimal effectiveness.

Via the introduction and discharge device assigned to the container the absorbent charge in the container is then discharged and passed through a new batch is replaced when the probes in the exhaust pipe detect it Absorbency of the absorbent decreases.

The batch discharged downwards, i.e. the inactive compost, can then be stored in a heap somewhere where he is in complete peace and quiet can regenerate without any biological burden. He can then go to one later brought back into the filter device as an absorption mass will.

Through the stream of cleaned exhaust gas generated by the suction fan arranged probes is the composition of the exhaust gas in a continuous manner measured, for example the proportion of methane, the proportion of sulfur hydrogen, the amount of ammonia and the like.

According to an advantageous embodiment of the invention, the controller at least two filter devices connected to one another via a switching device assigned to the type according to the invention, each of which has a filter device Exhaustion of the filter wiring of the currently effective filter device via the controller can be activated.

A fully automatic operation and control is possible in this simple way the filtering of exhaust gases is possible, since the regulator is based on each filter device the set target values and the actual values measured by the probes, the flow velocity controls and controls the exhaust air to be cleaned through the respective effective filter device when the filter effect is exhausted in the currently effective filter device Exhaust air is fed through the switching device of the second filter device, which is over the controller is regulated in the same way.

The invention is more or less based on one in the drawing schematically illustrated device described below. It shows Figure 1 a cross section through a filter device according to the invention Figure 2 a Top view of the filter device according to Figure 1 and Figure 3 a second embodiment of a filter device according to the invention.

In a container 1, which is cylindrical, with an insulating layer 2 provided metal housing is formed, there is a biologically highly active Platerial heap 3 as an absorbent. It either consists of a through over the Air supply controlled rotting of organic waste or compost from a rotting controlled by the air supply with an organic one Carbon carrier mixed sewage sludge-derived compost. The rotting is allowed has not yet been fully completed so the compost is still biologically active is. Such composting methods are, for example, in DT-AS 2 252 188 or described in the DT-AS 2 253 OG9.

The container 1 has a bottom surface 4 with a slight slope, Via the discharge device that enables a uniform discharge 5 can move. This device can, for example, be a milling cutter or a worm be. The discharge device is driven by a drive, not shown, which is movable about an axis 6, so that the discharge device is additionally slowly move across the bottom of the container on their own clockwise motion can. The heap of material is removed in layers via the discharge device and discharged through an opening 8 at the center of the bottom of the container. That The discharged material falls onto a conveyor device 10, which it moves in the direction of the arrow brings to a transport device 20. tUber the transport device 20 can the discharged material can be brought to any location.

To fill the container 1, an entry 11 is used, which has a steep conveyor 13 is connected, through which the material to be introduced into the container from above is introduced. The material introduced is uniform via a rotary distributor 15 distributed in the container opening.

The container 1 described is with the help of an approximately semicircular lid 7 covered, which is provided with a connection piece 9 in the direction of the axis 6.

Via a pressure blower 16 and a pipeline system 17, the exhaust gases to be cleaned or the exhaust air to be cleaned in the lower area of the container 1, that is, initiated at its sole. A nozzle system 18 is used for this purpose.

The exhaust gases fed in from below in the direction of the arrow flow through the container from bottom to top and are there over the connecting piece 9 and a line 22, in which a suction fan 23 is arranged, sucked off and arrive from there out into the open. When flowing through the container 1, the cleaning takes place of the exhaust gases through absorption and conversion with the filter material. The absorption and the implementation are biological processes, so that here a rotting process in the heap of material arises, which leads to a loss of rotting. This rotting loss or rotting shrinkage can by adding fresh material via the feeding device 12 continuously or from Be replaced from time to time, so that the container 1 is always almost completely with Filter material is filled.

About arranged in the line 22 measuring probes 24, 25 and 26 is running the CH4 (methane), H2S (hydrogen sulfide) and the NH3 (ammonia) content are measured. These measured values are sent to a controller 32 via lines 28, 29 and 30 fed, the delivery rate as a function of the setpoint values supplied via the bundle of lines 33 the pressure fan 16 and the suction fan 23 is set so that the desired Filter effect is achieved. As soon as the specified target values can no longer be achieved are, the controller switches off the fan and brings an alarm device, not shown to respond, by which the operating personnel is signaled that the absorption capacity of the PEterialhauSwerk is exhausted. The material building located in the container is now discharged via the discharge device 5 and a new filling is To be filled into the container via the introduction device 12, 13. Only then is the Filter device ready for use again.

If the exhaust gases to be cleaned contain heavy metal ions, in this way, bentonite powder can also be fed into the filter material via the introduction device 12 are added, the dosage of which can be determined by simple experiments.

The container 1 has a volume of approximately 10 to 200 m3, preferably 50 m3. The volume is in accordance with the amount of gas produced and the type and to choose the volume of impurities.

In order to enable continuous operation, the in Figure 3 shown from £ # hrtingsbeispiel the controller 32 two filter devices I and II of the type described above and is also a switching device 34 is provided, which is controlled by the controller 32, the exhaust air to be cleaned once the filter device I and on the other hand the filter device II supplies +) heavy metal ions in water-insoluble complexes convicting and the pressure and suction fans 16 and 25 or 16 ' and 23 'with the controller 32 connects. The filter devices I and II are respectively constructed identically and each have the reference numerals corresponding to FIG. 1. One of the filter devices I and II is activated via the controller 32, and the switchover always takes place when the currently effective filter device I or II is exhausted in its filter effect. The respective exhausted filter device is then provided with a new batch via the discharge and introduction device.

The alarm device mentioned above is also present here, as is then switches on if faults occur in the operation of the filter devices.

Claims

Claims (4)

Claims 1. Filter device for separating gaseous organic Impurities from exhaust gases, consisting of one through which the exhaust gas flows from the sole BehRger, which is filled by a regenerable absorbent, thereby g e k e n n z e i c h n e t åaß when processing one after a biological rotting process at least partially rotted material obtained from organic waste and sewage sludge or sewage sludge Eompost as a biologically highly active absorbent (3) the container (1) with a feed and a discharge device (11, 12, 5, 10) for introducing the batchwise Compost and with one each leading the exhaust gas to be cleaned through the container Pressure and suction fan (16, 23) is connected. 2. Filter device according to claim 1, characterized in that g e -k e n n z e i c h n e t that in the exhaust gas flow generated by the suction fan (23) (line 22) probes (24, 25, 26) are arranged for continuous gas analysis. 3. Filter device according to claims 1 and 2, characterized g e k e n n z e i c h n e t that via a controller (32) to which the probes (24, 25, 26) measured actual values are supplied and target values (lines 33) are specified, the delivery rates of the pressure and suction fan (16, 23). are adjustable. 4. Filter device according to claims 1 to 3, characterized g e k e n n z e 1 c h n e t that the controller (32) at least two via a switching device (34) interconnected filter devices (filters I and II) according to the characteristics of claims 1 to 3 are assigned, each of which has a filter device (I or II) when the filtering effect of the currently effective filter device is exhausted (Filter I or II) can be activated via the controller (32).