RU2664860C1 - Bioreactor for the intensive process of growing aerobic microorganisms - Google Patents

Abstract

FIELD: biochemistry.

SUBSTANCE: invention relates to biochemistry. Bioreactor for the intensive process of growing aerobic microorganisms is proposed. Bioreactor includes a housing with a heat exchange jacket, a stirrer shaft, four gas dispersion discs, rotatable baffles, a defoaming disc, a waste air outlet, a culture fluid supply connection to the defoaming disc, a culture fluid recirculation pump and a bubbler. Moreover, each of the four gas dispersion disks is a corrugated perforated disc and is a mixer stage, and the drive shaft of the agitator provides a speed of movement of the rim of the disks of gas dispersion of not less than 5 m/s, drive for turning the baffles is in the form of a ring located under the cover of the bioreactor.

EFFECT: invention provides efficient defoamer operation with variable parameters of the culture liquid in the periodic process of growing aerobic microorganisms and the rate of mass transfer of oxygen optimal for a growing population of microorganisms.

1 cl, 1 dwg

Description

The invention relates to the field of biotechnology and can be used for growing aerobic microorganisms.

A mixing device for multiphase media is known from the prior art, comprising horizontal perforated disks mounted on a vertical shaft, and a drive, characterized in that, in order to reduce the specific energy costs for interphase transfer of medium components, the disks are made with radial corrugations mounted on the shaft with the possibility of rotation, and the minimum number of corrugations on the disk is determined by the ratio expressing the ripple frequency (RU 2021849 C1, B01F 7/16, C12M 1/02, 10.30.1994). The difference from this device is that the tiers of the bioreactor mixer are small in height (not more than 0.1 from the diameter of the mixer), which allows more even distribution of the input energy due to the installation of 4 or more tiers and to ensure the mass transfer of oxygen at a level of more than 10 kg / m ³ ⋅ hours (at the above constant rotation speed, ensuring the operation of the hydromechanical defoaming device).

A plant for growing microorganisms is known from the prior art, including a column with a removable cover, an air outlet, a nozzle for draining the culture fluid and wash water, nozzles for supplying a nutrient medium, a titrating agent and a seed culture, a multi-tiered disk mixer with a drive placed in the column, an aerator characterized in that the column consists of two cylindrical containers placed one above the other, and the upper tank is made of a larger diameter for placement in it in a transp the installation position of the lower tank for growing the uterine culture and has a flange fixed in the lower part with bolts for fastening and sealing the tanks, the disk mixer shaft is made integral, the lower part is tubular and placed in the tank for growing the mother culture, and the upper part is in the form of a solid a cylinder mounted in a removable cover of the installation and inserted into the lower tubular part of the composite shaft of the mixer with the possibility of movement relative to each other, on the upper cylindrical part of the shaft and a disk mixer is equipped with a disk that can be moved along the shaft and fixed by means of pins at a given height, and on the lower tubular part of the shaft of the disk mixer, the disks are placed at the ends of the tubular lower part, while the installation is equipped with lifting mechanisms located under the flange of the upper tank for combining the containers with the other in the operating position of the installation (RU 2408720 C1, C12M 1/02 (2006.01) C12M 1/04 (2006.01), 01/10/2011). The difference from this device is that the tiers of the bioreactor mixer are small in height (not more than 0.1 from the diameter of the mixer), which allows more even distribution of the input energy due to the installation of 4 or more tiers and to ensure the mass transfer of oxygen at a level of more than 10 kg / m ³ ⋅ hours (at the above constant rotation speed, ensuring the operation of the hydromechanical defoaming device).

The closest analogue is the hydromechanical method of extinguishing foam in fermenters (article by Shevchenko V.T., Pechurkin N.S. in collection. Controlled biosynthesis and biophysics of populations. Krasnoyarsk, 1969, pp. 230-231). The differences of the proposed device from this method is that the tiers of the mixer are small in height (not more than 0.1 from the diameter of the mixer), which allows more even distribution of the input energy due to the installation of 3 or more tiers and to ensure the mass transfer rate of oxygen at a level of more than 10 kg / ⋅chas m ³ (at the above constant speed of rotation, providing work hydromechanical defoaming apparatus), the baffles are mounted on shafts with the possibility of changing position during cultivation mikroor anism by 90 degrees, which allows you to change the input power by at least 20 times without changing the speed of rotation of the shaft and defoaming disc, ensuring stable extinguishing of foam at any time during the batch process (with changing biomass, foaming intensity, oxygen demand of the culture) , the electric drive is connected to a single drive shaft for the rotation of the partitions, and the rotation is transmitted to the driven partitions using pins mounted on the ring located above.

The problem solved by this invention is to ensure the effective operation of the device hydromechanical extinguishing foam with variable parameters of the culture fluid in the periodic process of growing aerobic microorganisms and the optimal mass flow rate of oxygen for a growing population of microorganisms.

This problem is solved due to the fact that the bioreactor for the intensive process of growing aerobic microorganisms consists of a bioreactor body with a heat transfer jacket, a shaft of a stirring device, a gas dispersion disk (mixer tier), a rotary reflective partition, a drive shaft of a rotary mechanism of reflective partitions, a drive shaft seal assembly reflective partitions, knot of the shaft seal of the mixing device, the offset disk, the ring of the rotation mechanism of the reflective partitions with pins, fitting and the exhaust air outlet, the nozzle for supplying the culture fluid to the defoaming disc, the “sprocket” gears for the rotation of the reflective baffles, the bearing bearings of the reflective baffles, the culture fluid recirculation pump, the bubbler, the air supply pipe, and the agitator shaft drive ensure the speed of the rims of the gas dispersion disks (tiers) agitators) not less than 5 m / s, the drive for turning the reflective partitions is made in the form of a ring located under the apparatus cover, the partitions are rotated The movement of the pins in the grooves of the ring allows the ring to rotate by turning the axis of one of the partitions, the rest of the drive axles do not have reflective partitions mounted on axes located along the midline of the partitions and can rotate 90 degrees, corrugated perforated discs for gas dispersion have a height of not more than 0.1 D, where D is the diameter of the mixer.

The technical result is to ensure the intensity of the mass transfer of oxygen, corresponding to the oxygen demand growing to a high population density of aerobic microorganisms by eliminating the use of chemical defoamers that create additional diffusion resistance to the mass transfer of oxygen from the gas phase to the liquid; the ring, which ensures the rotation of the reflective partitions, prevents the microbial mass from sticking to the upstream walls and the cover of the bioreactor.

The invention is illustrated in the drawing, namely FIG. one:

1 - bioreactor body with a heat transfer jacket;

2 - shaft mixing device;

3 - gas dispersion disk (mixer tier);

4 - rotary reflective partition;

5 - drive shaft of the rotary mechanism of the reflective partitions;

6 - site seal shaft drive reflective partitions;

7 - node seal shaft mixing device;

8 - repayment disk;

9 - a ring of the mechanism of rotation of the reflective partitions with pins;

10 - exhaust pipe fitting;

11 - fitting for supplying the culture fluid to the defoaming disc;

12 - gears "sprocket" of rotation of the reflective partitions;

13 - support bearing units of reflective partitions

14 - pump recirculation of the culture fluid;

15 - bubbler;

16 - pipe air supply.

The invention works as follows:

A nutrient medium is poured into the bioreactor, a seed culture of microorganisms is introduced, the air supply and the stirrer drive are turned on. At the same time, the resulting foam is quenched due to the mechanical effect of the defoaming disk on the foam, as well as due to rapidly flying drops of the culture fluid from the upper surface of the defoaming disk, where it is fed by a recirculation pump. In addition, droplets of the culture fluid form from the foam falling into the gap between the underside of the defoaming disc and the plane of the drive ring of the reflective partitions. At the beginning of the process, an excess of oxygen is not only not needed, but can also reduce the efficiency of the process, increasing the proportion of substrate that is oxidized to carbon dioxide. Therefore, it is possible to rotate the baffles around the axis by 90 degrees, i.e. from a radial position to a position parallel to the shell. In this case, the hydrodynamic resistance of the partitions changes by more than 20 times. This is a sufficient range of power control of the mixer, providing optimal process control with an increase in biomass concentration from 2-3 to 100 g / l. At the same time, at any concentration of biomass, the hydromechanical foam extinguishing system works stably and constantly at the same speed (maximum) without energy overruns and without the need to control the rotation speed of the mixer drive motor.

Scope: all periodic processes in which aerobic microorganisms are used, for example, 1) cultivation of crops in the production of alcohol, feed yeast, amino acids, organic acids, vitamins and other products of microbiological synthesis, 2) conducting periodic cultivation processes - most amino acid biosynthesis processes , enzymes, vitamins are periodic.

Claims (1)

Bioreactor for an intensive process of growing aerobic microorganisms, including a housing (1) of a bioreactor with a heat transfer jacket, a stirrer shaft (2), a gas dispersion disk (3), which is a tier of the stirrer, rotary reflective partitions (4), a drive mechanism for the rotation of reflective partitions with pins (9), the drive shaft of the rotary mechanism for baffle plates (5), the shaft seal assembly of the drive shaft of the baffle baffles (6), the mixer shaft seal assembly (7), the defoamer disk (8), the exhaust air outlet fitting the ear (10), the nozzle for supplying the culture fluid (11) to the defoaming disc, sprocket gears (12) for turning the reflective baffles, pillow blocks (13) of the rotary baffles, recirculation pump (14) for the culture fluid, bubbler (15) , an air supply pipe (16), characterized in that it contains at least four gas dispersion disks (3), each of which is a tier of the mixer, the drive of the mixer shaft (2) provides the speed of the rims of the gas dispersion disks (3) no less than 5 m / s, rotary drive This reflective partition (9) is made in the form of a ring located under the cover of the bioreactor, the rotary reflective partition (4) is rotationally driven by pins in the grooves of the actuator (9), the actuator (9) is rotated by turning the axis of one of these partitions (4), while the rest of the rotary reflective partitions (4) do not have a drive, rotary reflective partitions (4) are mounted on axes located along the midline of the partitions and are rotatable 90 degrees around axis, and disks for gas dispersion (3) are corrugated perforated disks with a height of not more than 0.1 D, where D is the diameter of the mixer.

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