NL1009790C1 - Scrubber for removing ammonia from air from cow sheds, has a tapered exit connection housing an axial ventilator leading from the reservoir section - Google Patents

Abstract

The reservoir section (1) has a tapered exit connection (13) leading from its top side, in which are located one or more axial ventilators for sucking the air from the shed through and out of the scrubber installation. An installation for scrubbing ammonia-containing air from a cow shed or the like, comprises a reservoir with an air distribution section (8) containing at least one side connection (3) for one or more feed pipes from the shed. Above the air distribution section is an absorption section (7), above which is a spray section (9), followed by a drip collection section (11) and an air discharge section (15). The spray section can be connected to a supply (19) of scrubber liquid, so that air from the shed flows up through the absorption section and passes through the spray section where it encounters a downwards counter-flow of liquid before leaving the installation. A collection section (5) for the ammonium salt-containing liquid is located beneath the absorption section, and the collected liquid is treated in a further system to recover scrubber liquid for re-use. A tapered exit connection leads from the top side of the reservoir, preferably from a vertical reservoir side wall, and one or more axial ventilators are located in this exit, preferably at the opposite end to the reservoir, which are used to suck the air from the shed through and out of the installation.

Description

Reduction of ammonia emissions from a cattle shed

The invention relates to an apparatus for washing ammonia-containing air from a livestock stable or the like, as described in the introductory part of claim 1. Such a system is generally known per se.

This known system uses an absorption section, which is flowed upwards through the gas supplied from the stable containing ammonia, and flows downwards through a liquid, mainly water, supplied to this section, the gas and the countercurrent liquid are in contact with each other and react such that mainly cleaned stable air can leave the device at its top and a liquid of mainly water with ammonium salt (s) therein is collected at the bottom of the absorption section in the collecting section mentioned below . In this known system, the collected liquid containing ammonium salts is subjected to further treatment in an associated recirculation system, for example by adding an i:

controlled quantity of sulfuric acidifier forming ammonium sulphate-containing liquid with a desired salt concentration which in turn becomes washing liquid I

20 for the absorption section to be reused.

In the known installation, gas containing ammonia is supplied via a suitable pipeline from the stable space and to the washing device by means of one or more fans or blowers which bring the stable air to be cleaned to the scrubber via suitable connections and which pass the stable air to be cleaned through the e 25 push absorption section.

There are some drawbacks to the known system.

In the first place, in the collecting section located below the absorption section, there is an overpressure of, for example, 10 millibars, so that the many seams, gaps and r

like that. of the reservoir and its associated parts wholly or virtually gastight Z.

Should be 30; a leakage of the ammonia-containing gas prior to cleaning it would therefore give rise to an undesired emission of ammonia gas to the outside air outside the house. The above-mentioned overpressure in the system also has the drawback that all connections for fittings, pumps, measuring and control devices, etc. connected to this overpressured system ξ ion.Q7Qn 2, are subject to highly corroding, aggressive influences of crystallizing ammonium salts containing solutions , whereby undesired leaks can occur as a result of the crystallization of ammonium salts.

The object of the invention is to meet these drawbacks by providing a device which is characterized in that a narrowing outlet connects to the top of the washing reservoir, preferably adjoining the vertical side wall thereof, to which it preferably most of the remote end of the reservoir one or more axial fans are placed with which the stable air can be sucked out through the entire installation. By thus connecting to the top side of the reservoir containing the various sections, a subsequent outflow section, preferably extending upwards from the drip-collecting section, and a powerful suction device at the end of the thus funnel-shaped open part, towards the In order to prepare a free outdoor air-pressing axial fan, the stable air to be cleaned in and below the absorption section will be under a negative pressure condition inside the reservoir, on the one hand this gas will be more effectively extracted directly from the stable space.

Maintaining the washing liquid in the collecting or collecting section at a negative pressure in the installation ensures that dissolved free ammonia gas which is not bound as ammonium salt is removed to a significant extent, in contrast to the situation in which an overpressure is used in which the solubility of free ammonia increases. This has the advantage that when the washing liquid is removed from the collection section, the undesired emission of free ammonia gas will be significantly lower. The aforementioned drawbacks of an overpressure gas to be cleaned and aggressive crystallizing liquids containing highly corroding salts are identified in system pipes throughout the entire installation, including the parts connected thereto, by making the underpressure prevail as strong. reduced 30 sensitive to leaks.

"i 3]! 1009790 3

The invention will be briefly explained with reference to the drawing, in which FIG. 1 is a plan view of the device, FIG. 2 is a schematic side view of the device of FIG. 1,

Fig. 3 shows in a schematic representation the various successive sections of the washing device.

In the exemplary embodiment shown, the device according to the invention has a reservoir 1, which can be connected via one or more connecting pieces 3 and 10 pipe pieces 4 to a stable 6 for removing stable air with ammonia gas contained therein.

In the reservoir 1, as shown in Fig. 3, there are successively: a collecting section 5, an air distribution section 8, an absorption section 7, a spray section 9, a drip collecting section 11, a discharge section 13 and, 20 a discharge section 15 containing a fan section 31.

The device shown is further provided with a usual supply 19 for supplying liquid to the nozzles 21 of the spray section 9. Furthermore, the device is provided with a recirculation system 25 for processing the liquid containing ammonium salts which collects in the collection section 5. leaving the absorption section 7.

Most of the parts mentioned are generally known and need no special further explanation.

When working with such an apparatus, the air 31 to be cleaned from ammonia gas from a stable 6 for livestock or the like is passed in an upward direction through the absorption section 7 in the usual manner. Cleaning fluid is supplied to the nozzles 21 via said supply 19.

This liquid flows through the absorption section 7 in a downward direction, namely via flow bars suitable for this purpose, wherein in each channel there is an interaction between the counterflowing gas flow and the liquid flow 34, whereby ammonia is converted from the upward flow of ammonia-containing gas to be cleaned. and enters the collection section as an ammonium salt-containing liquid. From this section, the resulting liquid is subjected to further processing in the preferably externally placed recirculation system 25 of an essentially known type. The liquid reduced to a certain concentration of dissolved free ammonia is returned to the reservoir 1 in a controlled and controlled manner.

Via the aforementioned outlet 13, which preferably connects funnel-shaped to the open top of the reservoir 1, the axial fan 31 of relatively large capacity arranged in the air extraction section 17 connecting thereto, supplies the gas to be purified through the entire installation via the connector 2. sucked in. In this way an underpressure will continue to prevail throughout the device, as a result of which the effects identified in the introduction are realized. It goes without saying; thereby the recirculation tank 25 in open connection with the liquid (level 35) in the collection section 5. Due to this continuous underpressure, the unbound (free) ammonia gas (NH3) will volatilize. As a result, the odor and ammonia emissions of the discharged liquid, blowdown water, will decrease. During the further processing of the blowdown water, the ammonia and odor emission will be as small as possible, respectively. stay. Systems in which, on the other hand, there is an overpressure above the collection section 5, i.e. in the air distribution section, have been found in practice to give rise to a considerably higher ammonia and odor emission from the blowdown water.

It should also be noted that the free space in the reservoir 1 between the absorption section 7 and the liquid (level 35) in the collection section must be so large that the stall air (31) drawn in from the side can spread homogeneously in the reservoir 1 over the entire flowable area of the absorption section (7).

100979 * i

Claims (3)

Device for washing ammonia-containing air (31) from a livestock stable or the like, which contains a reservoir (1) with an air distribution section (8), which section contains at least one lateral connecting piece (3) for connection to one or more with supply lines (4) connected to the stable space (6) for ammonia-containing stable air, furthermore is provided with an absorption section (7) located above it, a spray section (9) situated above it, a drip catch section (11) placed above it and an air discharge section (15 above). ), wherein the spraying section (9) is connectable to a supply (19) of washing liquid, all arranged in such a way that stall air (31) to be washed from the stable space (6) is passed upwards through the absorption section (7). the spray section (9) passes and is discharged outwardly, while liquid flows downwards in countercurrent through the absorption section (7) via the spray section (9) acts on said upwardly moving stable air flow (31), and furthermore comprises below the absorption section (7) a collecting section (5) for the collected liquid containing ammonium salt, and furthermore the treated collected liquid can be treated in a further system such that a reusable washing liquid can be obtained, characterized in that at the top of the washing reservoir, preferably: adjoining the vertical side wall thereof, a narrowing spout (13) connects to which, preferably, most of the reservoir (1) remote end one or more axial fans (31) are placed with which the air from the house (31) can be extracted through the entire installation. 30 1 1009790 Device according to claim 1, 5, characterized in that the narrowing outlet is formed as a conically narrowing funnel (13), in the narrowest part of which a pipe section (15) with an axial fan (31) placed therein is mounted. 10 Device according to claim 1 or 2, characterized in that the stable air distribution space (8) is dimensioned such that the laterally supplied, stable air (31) can distribute homogeneously over the entire inflowable surface of the absorption section (7). , 1009790