SU831780A1 - Apparatus for culturing microorganisms - Google Patents

Description

(54) APPARATUS FOR DRAWING SCROORANISMS

Claims (2)

The invention relates to the microbiological industry, it can be used to grow microorganisms, mainly hydrogen bacteria, in a liquid nutrient medium. A known apparatus, dp, for the growth of microorganisms, contains, a tank, a pump, an ejector unit, and a piping system for circulating a liquid medium and gases llj. However, this apparatus is characterized by a small useful volume and low mass transfer characteristics, which adversely affect the intensity of the growing process. The aim of the invention is to intensify the growing process. The goal is achieved by the fact that the tank is made in the form of cylitsra and is divided by a vertical spiral partition into two communicating one with the other CAVITY, and the block of ejectors is located in the entrance zones of these cavities, tangentially to the generator of the cylinder and its inlet nozzles are connected to the pressure arms. the pump nozzle, and the central part of the pump is connected to the suction nozzle of the pump. The section of the spiral partition is hollow to circulate coolant. The drawing shows the proposed device. The device consists of a tank 1, a pump 2 with a discharge port 3, recirculated 1 (ion tube 4 and ejectors 5 with nozzles 6) combined with a liquid chamber 7 and a gas chamber 8. The tank 1 is divided into two parts by a vertical spiral partition 9. external cavity 10 and internal 11. The inner section of the spiral partition 9 is made hollow (cavity 2) for circulating the cooling of the liquid. The apparatus works as follows. The culture fluid located in the tank 1 is sucked in by the pump 2 and in the discharge nozzle 3 n The ejectors 5 are delivered into the liquid chamber 7 of the block, where the nozzles 6 are injected into the gas chamber 8. The liquid jets capture the gas mixture located here and through the ejectors 5 where they are dispersed, the aeteric culture fluid enters the inlet zone of the spiral cavities 10 and 11 When the aerated culture fluid moves along spiral trajectories, gases dissolve in it. Insoluble gases when approaching the central part of the tank, where the speed of movement of the culture fluid decreases, in Return through tube 4 to the gas chamber 8 for recirculation. To remove the heat released by the cultivation of microorganisms into the hermetic cavity 12, coolant is supplied. Circulating culture fluid along a curvilinear trajectory increases its residence time under conditions of intensive mass exchange. The placement of the ejector block in the entrance zones of the cavity of the tank, formed by the separation of the last spiral partition, and the direction of the ejectors tangentially to the generator cylinder provide the greatest aeration. The gas for recirculation is removed from the zone where the speed of movement of the culture liquid allows the gas phase to separate, which ensures stable operation of the pump. The presence of a sealed cavity for circulating coolant in the zone with minimal gas saturation allows. more accurately maintain the temperature regime of cultivation. All this contributes to the improvement of mass transfer characteristics, which, in turn, intensifies the growing process. Claim 1. An apparatus for growing microorganisms, mainly hydrogen bacteria in a liquid nutrient medium, containing a tank, a pump, an ejector unit and a piping system for circulating a liquid medium and gases, distinguished by the fact that, in order to intensify the growing process, the tank is made as a cylinder and is divided by a vertical spiral partition into two communicated with one another cavity, and the block of ejectors is placed in the entrance zones of these cavities, directed tangentially to the generator of the cylinder, and e The inlet nozzles are connected to the pump headpipe, and the central part of the tank is connected to the suction port of the pump. 2. The apparatus according to claim 1, wherein the section of the spiral partition is made hollow for the circulation of coolant. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 400617, cl. From 12 to 1/10, 1971.