SU1648545A1 - Reactor - Google Patents

Abstract

This invention relates to designs of biological reactors used to clean air from odorous and toxic compounds in chemical wood processing | industry, and also improves livestock productivity and purification efficiency while increasing the operating time. The biological reactor includes a housing with nozzles for supplying cleaned and discharging purified air, a device for moving the reactor around and along the axis. The medium for supplying the mineral medium is installed inside the pipe for supplying cleaned air, and the biocatalyst layers are cells of microbiological organisms immobilized on a fibrous carrier, while the pipes for supplying purified air are located between the biocatalyst layers, and one of the pipes is located above the upper biocatalyst layer, and the other - under the bottom. 2 hp ff, 2 silt

Description

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The invention relates to designs of biological reactors used to clean the air from odorous and toxic compounds in the chemical, woodworking, metalworking industries, as well as in livestock farms.

The purpose of the invention is to increase the specific productivity of the bioreactor and the cleaning efficiency while increasing the duration of the bioreactor.

Fig. 1 schematically shows a bioreactor with the installation of nozzles for supplying cleaned air above the upper and below the lower layers of the biocatalyst. incision; figure 2 - the same. with the installation of the nozzle supplying purified air between the layers of the biocatalyst.

The biorejector contains a housing 1. nozzles 2 and 3, respectively, for supplying cleaned and discharging purified air, a collector 4 for the mineral medium, a means 5 for spraying it, a device 6 for moving the bioreactor along and around the axis.

The bioreactor works as follows.

Purified air through the nozzles 2 (Fig. 1) is supplied to the layers of a fibrous biocatalyst containing, for example, immobilized cells of bacteria of the genus Pseudomonas. At the same time, with the help of a herbal remedy 5. for example, injectors, periodic injection of the mineral medium supplied through the collector 4 occurs. The duration of the injection and the intervals between them can, for example, be automatically controlled

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by time relay. The purified air exits through a common collector 4. The bioreactor is equipped with a device 6 for moving it along and around an axis, for example, of a screw type. Using this device, the bioreactor, after a certain period of operation, when the required aerodynamic drag is exceeded, is rotated by 180 ° and raised by the distance between nozzles 2 and 3 (Fig. 2). In this case, one of the pipes 2 is muffled. At the same time, the means for supplying the mineral medium is disconnected and present in this nozzle.

The performance of a biofilter can be unlimitedly increased by increasing the number of biocatalyst layers and, accordingly, the number of nozzles for inlet and outlet of air. In this case, the specific productivity does not change.

The proposed bioreactor makes it possible to increase the specific productivity by 30–100 times, the cleaning efficiency, for example, by toluene, by 6–8 times, and the service life, by 1Д5, to 2 times.

Claims (3)

Claim 1. Biological reactor, comprising a housing with nozzles for supplying and discharging air, means for supplying mineral environment, biocatalyst layers, characterized in that, in order to increase the specific productivity and purification efficiency while simultaneously increasing the operation time, equipped with a device for moving the reactor around and along the axis, while the means for feeding the mineral medium is located in each pipe supplying the cleaned air, and the biocatalyst layers are microorganism cells immobilized on a fibrous carrier, the ratio of the total height of the layers to the diameter of the reactor is 0, 15-0.50. 2. The reactor according to claim 1, characterized in that the pipes for the supply of purified air are located between the layers of the biocatalyst. 3. The reactor according to claims 1 and 2, that is, in that one of the nozzles of the supply of purified air is located above the upper layer of the biocatalyst, and the other - under the bottom. 2