RU2119950C1 - Bioabsorber to treat gas-air emissions - Google Patents

Abstract

FIELD: gas treatment. SUBSTANCE: apparatus contains casing with air-inlet and outlet fittings. Upper part of casing encloses sprinkling unit, under which charge sheets oriented in vertical plane are disposed. EFFECT: improved environmental condition. 3 cl, 3 dwg

Description

 The invention relates to the field of environmental protection and can be used for purification of exhaust gases in the microbiological, chemical, paint and varnish industries and other industries, as well as in the processing of products and agricultural waste.

 The closest analogue of the invention can be considered a bioabsorber with a flat loading and irrigation unit in the form of a Rocket wheel (S.V. Yakovlev and Yu.V. Voronov. Biological filters. - M .: Stroyizdat, 1982, p. 88). The bioabsorber contains a container with a planar loading placed therein. Above the tank there is a sprinkler made in the form of a hollow hub, on which pipes perforated in the radial direction are mounted radially in a plane, the inner cavity of which is rotatably connected with respect to an axis passing through the center of the hub. An irrigation fluid containing microorganisms is brought to the hub by means of a circulation pump. The cleaned gas enters the bioabsorber from below. The rotation of the irrigation unit is carried out as a result of the reactive action of the liquid flowing from the hole in the pipes. The liquid flowing from a flat charge, which has absorbed contaminants from the cleaned air, is collected in the lower part of the bioabsorber and is circulated. A disadvantage of the known bioabsorber should be recognized as an insufficient degree of purification.

 The challenge facing the authors is to develop a more efficient bioabsorber design.

 The technical result obtained by the implementation of the invention is to improve the environmental situation in the vicinity of processing plants due to the degree of gas purification.

 The specified technical result is achieved in that in a bioabsorber containing a housing with fittings for supplying and discharging air, an irrigation unit, a microorganism suspension collector, a circulation pump connected to the irrigation unit and a microorganism suspension collector with the formation of a closed loop, and vertically oriented ones are installed under the irrigation unit nozzle sheets, and the irrigation unit is made in the form of irrigators of any known type located in the upper part of the body above the nozzle sheets in such a way that The microbial suspension from the sprinklers evenly falls onto the nozzle sheets. Between the nozzle sheets, separation grids can be installed to prevent the sheets from sticking together. Non-planar meshes are preferred. The irrigation unit may further comprise a flow switch of the suspension of microorganisms. The inlet and outlet nozzles of the cleaned and purified air can be located in any part of the housing. An air flow inducer (compressor or fan) can be installed at the inlet or outlet of the air flow.

 The invention is illustrated in graphic material, where in FIG. 1 shows a general view of the bioabsorber; FIG. 2 shows a section along line AA, in FIG. Figure 3 shows an embodiment of an irrigation unit using flow switching.

 The following is a preferred embodiment of the invention.

 Bioabsorber (Fig. 1) contains a housing 1 with a cover 2, equipped with fittings supply 3 and exhaust 4 air. In the lower part of the housing 1 there is a collection of a suspension of microorganisms 5, equipped with a nozzle 6 for supplying water, a fitting 7 for sludge discharge, a nozzle 8 for selecting a suspension of microorganisms for feeding by means of a circulation pump 9 to the irrigation unit 10 located in the upper part of the housing 1 and made in the form of a removable collector 11 with perforated pipes 12, wherein the manifold 11 is connected to a flow switch 13.

 Under the irrigation unit 10, shelves 14 are mounted on the walls of the housing 1, on which the ends of the rods 15 abut. On the rods 15, the grids 16 and the nozzle sheets 17 are fastened. The grids 16 and the sheets 17 are fastened to the rods 15 by any known method. The nozzle sheets 17 are located in the housing 1 so that the cleaned air passes through the maximum number of nozzle sheets 17.

 Bioabsorber works as follows. Through the nozzle 6 in the bioabsorber serves water in an amount that ensures filling of the collection 5 of a suspension of microorganisms. When the bioabsorber is launched, a seed culture is fed into the collection 5. After turning on the circulation pump 9, the suspension of microorganisms from the collector 5 through the irrigation unit 10 enters the nozzle sheets 17. After a certain time, depending on the volume of the bioabsorber and the amount of seed, a biofilm layer forms on the nozzle sheets 17. The nozzle 3 is connected to the line of the gas to be cleaned, and the nozzle 4 is connected to the exhaust ventilation line containing a fan as a flow inducer. The cleaned air passes through the nozzle sheets 17, is cleaned with a biofilm of microorganisms, and exits through the purified gas line. During long-term operation of the bioabsorber in the collector 5 of the suspension of microorganisms, sediment accumulates, which is removed through the nozzle 7. In this case, water is added to the collector through the nozzle 6 to compensate for the losses. To reduce the hydraulic resistance of the nozzle elements 16 - 17 and, as a result, reduce energy consumption, a flow switch 13 is used, which periodically connects individual sprinklers to the circulation pump 9.

 The use of this bioabsorber can significantly increase the degree of air purification with low energy consumption.

Claims (3)

 1. Bioabsorbor for cleaning gas-air emissions, comprising a housing with fittings for supplying and removing air, an irrigation unit located in the upper part of the body, a microorganism suspension collector, a circulation pump connected by a piping system to the irrigation unit in a closed loop, characterized in that under the node irrigation arranged vertically oriented nozzle sheets, and the irrigation unit is made in the form of a system of irrigators located above the nozzle sheets.  2. The bioabsorber according to claim 1, characterized in that between the nozzle sheets are non-planar nets.  3. The bioabsorber according to claim 1, characterized in that the irrigation unit comprises a flow switch.

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