SU1161488A1 - Methane tank - Google Patents

Abstract

METANTBNK, including a cylindrical tank with inlet and outlet pipelines. a gas bell with rollers mounted on it, mounted in a tank with the possibility of vertical movement, a guide device associated with the rollers, from the fact that, in order to accelerate the fermentation process by using the energy of the gas formed in the tank to mix the sediment, it the supply of a frame rigidly fixed along the perimeter of the lower part of the gas bell with a series of nakloyny blades set at an angle of 2045 ° & to the horizontal axis. ,: (L

Description

The invention relates to the processing and disposal of organic waste and may find application in agriculture and utilities.

The aim of the invention is to accelerate the fermentation process by using the energy generated in the tank gas to mix the sludge.

The drawing shows the proposed digester, longitudinal section.

The digester contains a sealed cylindrical tank 1 for fermenting the reaction medium, which is equipped with a pipe 2 for introducing the reaction medium, a fermented mass output pipe 3, a tank emptying pipe 4 and a gas input / output pipe 5. L · the cylindrical tank 1 is mounted with the possibility of vertical movement of the gas bell 6 with the upper 7 and lower 8 rollers fixed on it, connected with the guiding devices 9 and 10. In the lower __ part of the cylindrical tank 1 is mounted a support 11 of the gas bell 6 in the lower position . In the lower part of the gas bell 6, a frame 12 with a number of inclined blades 13 mounted at an angle of 20-45 ° to the horizontal plane is rigidly fixed along its perimeter. In the upper part of the gas bell 6, a hook 14 is fixed for lifting it using lifting devices (not shown). 35

Metantenk works as follows.

Manure from the manure collector (not shown) is fed into the cylindrical tank 1 through pipeline 2. At the beginning of operation 40, the gas bell 6 is in the lower position on the support 11. During anaerobic digestion, gas is released which accumulates in the gas bell 6. As the gas accumulates - 45 gas flow due to increasing pressure there is a gradual vertical movement of the gas bell 6 along the guiding devices 9 and 10 using the rollers 7 and 8. The rollers 50 7 and 8 prevent the skew of the gas bell 6 during movement. Accumulating gas is stored in the gas bell 6 and, if necessary, is supplied through the pipeline 5 for input-output 55 of gas to the consumer. When this happens, the lowering of the gas bell 6. In the process of vertical movement of the gas bell 6 attached to it frame 12 with a number of inclined blades GB performs uniform mixing of the sediment.

If it is necessary to accelerate the lowering of the gas bell 6 (for example, to intensify the mixing process), the accumulated gas is pumped out by the compressor through the pipeline 5 for input / output of gas into the adjacent digester (not shown). To accelerate the lifting of the gas bell 6, a metal hook 14 is provided for connection with a hoist or other mechanical lifting device.

The region for choosing the angle of inclination of the scapula to the horizontal axis is experimentally determined on a test specimen digester. The experiment is carried out on a model medium: 100 g of coarse-grained salt is poured into 14 l. To increase the viscosity, paper pulp is added to the solution. The concentration of the solution during mixing is determined by a conductometer. Since the rate of dissolution of solid particles is directly proportional to the intensity of mixing of the medium, the time from the beginning of mixing to complete dissolution can be judged on the effectiveness of the mixing device. The greatest mixing efficiency is provided at the angles of inclination of the blades to the horizontal axis. From 20 to 45 °. At angles less than 20 °, sediment compaction is observed in the lower part of the digester due to an increase in resistance when the frame with blades moves. At angles of more than 45 °, the contact of the frame with the medium does not create sufficient resistance to turbulize it and prevent the deposition of solid particles.

“In addition, to increase the intensity of the framing process, fibrous material can be attached to the blades to ensure the adsorption of methane bacteria.

The proposed digester, providing storage of gas released during the fermentation process in a gas bell, accelerates the process of fermentation of the reaction mass by 12.5%. In addition, an external drive is not required for mixing, which ensures energy savings.

Claims (1)

METANT, including a cylindrical tank with inlet and outlet pipelines, a gas bell with rollers fixed on it, mounted in the tank with the possibility of vertical movement, a guide device associated with the rollers, which means that, in order to accelerate the fermentation process by using the energy generated in the gas tank for mixing the sediment, it is equipped with a frame rigidly fixed around the bottom of the gas bell with a number of inclined blades mounted at an angle of 2 045 ° to the horizontal axis. 1 1161488. 2