RU2038811C1 - Apparatus for production of fodder protein - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: apparatus comprises cylindrical sleeve 10 enveloping conical perforated partition 9. Installed in the lower part of the sleeve is a liner connected with drive shaft 6. A lower disc is made as flexible membrane 7 installed in the liner. The cylindrical wall of sleeve 6 has an opening. A vibrator has the form of a string passing through the sleeve opening and connected by one end to said flexible membrane, and a valve located outside of the sleeve and connected to the other end of the string. EFFECT: improved design. 2 dwg

Description

 The invention relates to techniques for the production of fodder protein after anaerobic-aerobic treatment of effluents of animal and poultry vital products and can be used for fodder preparation at treatment facilities, preferably agriculture.

 A well-known installation of fodder protein production, comprising a housing with nozzles for supplying and discharging liquid media and washing liquid, a drive shaft with mounted lower and upper disks, a conical perforated partition between them and a vibrator connected to it, having a low productivity, is mounted.

 The purpose of the invention is improving productivity.

 It is achieved by the fact that the installation is equipped with a cylindrical cup enclosing a conical perforated partition and a sleeve installed in its lower part connected to the drive shaft, while the lower disk is made in the form of an elastic membrane mounted in the sleeve with the possibility of reciprocating movement, and in a cylindrical wall a hole is made in the cup, and the vibrator looks like a string passing through the hole in the cup, connected at one end to an elastic membrane, and a valve located outside the cup connected to the other end of the string.

 When filtering the biomass of aerobic microorganisms on a conical perforated septum, a sediment layer moving under the action of the tangential component of inertia is formed, which vibrates the septum and the lower disk in the form of an elastic membrane connected by strings to a valve that limits the size of the septum deformations. The use of inertia forces and vibrations of the septum improves water separation from the biomass of microorganisms and increases productivity.

 In FIG. 1 shows the installation, a longitudinal section; in FIG. 2 vibrator assembly, enlarged.

 The feed protein production installation comprises a housing 1 with nozzles 2 and 3 for supplying and 4 and 5 for discharging liquid media and washing liquid, a drive shaft 6 with lower 7 and upper 8 disks mounted on it, a conical perforated partition 9 mounted between them and a vibrator connected to it . The installation is equipped with a cylindrical cup 10 covering the conical perforated partition 9 and a sleeve 11 installed in its lower part connected to the drive shaft 6, while the lower disk 7 is made in the form of an elastic membrane mounted in the sleeve 11 with the possibility of reciprocating movement, and in a cylindrical a hole 12 is made in the wall of the glass 10, the vibrator having the form of a string 13 passing through the hole 12 in the glass 10, connected at one end to an elastic membrane 7, and a valve 14 located outside the glass 10 and of the connections with the other end of the string 15 to the bottom 13. The cylindrical sleeve 10 is attached pressure tank 16, holes communicated with the cavity 17 of the sleeve 11 under the elastic membrane 7 in turn the sleeve 11 communicates with the cavity openings 18 between the cylindrical cup 10 and conical perforated partition 9.

 Installation feed protein works as follows.

The livelihoods of animals and poultry are hydrolyzed and hydro-fused to anaerobic treatment, and clarified water of anaerobic treatment is sent to aerobic microorganisms for cleaning, which increase biomass due to the biogenic nutrients of clarified water. Water, with aerobic microorganisms suspended in it at a concentration of 4-40 g / m ³ , flows through the pipe 2 to the lower disk 7, and from it to the conical perforated partition 9. Under the action of inertia forces arising from the rotation of the partition 9 on the drive shaft 6 and its vibration due to deformation of the septum under the action of biomass concentrate, the lower disk 7 rises, and under the action of the incoming liquid medium falls, i.e. departs from the nozzle 2. Such vibrations of the lower disk 7 in the sleeve 11 lead to deforming vibrations of the partition 9, which improves water loss and, accordingly, the performance of the installation. Separated water from the cavity between the partition 9 and the cylindrical glass 10 is discharged through the openings 12 into the housing 1, and from it in the spray torch along the tangential pipe 4.

 The biomass concentrate formed on the partition 9 with a concentration of 800-850 g / l under the influence of the tangential component of the inertia and vibration forces is displaced and from the upper disk 8 in the spray torch is removed from the housing 1 through the tangential nozzle 5. Periodically, the flow of liquid medium through the nozzle 2 is stopped and the nozzle 3 through the pressure cavity 16 of the hole 17 in the bottom 15 in the cavity of the sleeve 11 under the lower disk 7 serves a washing liquid. Under the action of centrifugal pressure created by the washing liquid in the cavity of the sleeve 11, the lower disk with the elastic membrane 7 rises from position “a” to position “b” and opens the holes 18 in the sleeve 11. At the same time, the movement of the elastic membrane of the lower disk 7 with the string 13 pulls the valve 14 , which closes the hole 12 in the cylindrical glass 10 and begins filling the cavity between the glass 10 and the partition 9 with washing the latter and restoring the filtering ability, which increases the productivity of the installation. After washing, a fluid supply begins through pipe 2 and centrifugal pressure moves the lower disk with an elastic membrane 7 from position “to” to position “a” and the valve 14 opens an opening 12 for draining water from the cup 10.

 The very low concentration of biomass obtained by microbial water treatment and the lack of separation equipment were a hindrance to the transition from activated sludge treatment to treatment by selected microorganisms adapted to agricultural runoff and its pollution. The transition from activated sludge treatment to treatment with selected bacteria reduces the volume of treatment facilities by tens of times and reduces the treatment time. The combination of wastewater treatment with the production of fodder protein allows you to translate the operation of treatment plants into cost-effective operating conditions. The resulting microbial feed protein is 60-80% composed of lipids and proteins and, in terms of amino acid composition, approaches the proteins of beef meat. The use of fodder protein during feed preparation reduces the consumption of conventional feed by 20-30%, while egg production, milk yield, and meat gain increase. Given that in the production of eggs, milk, meat, feed costs account for 70% of all costs, the production of fodder protein opens up the possibility of cheaper food production.

Claims (1)

 FOOD PROTEIN PRODUCTION INSTALLATION, comprising a housing with nozzles for supplying and discharging liquid media and washing liquid, a drive shaft with mounted lower and upper disks, a conical perforated partition between them and a vibrator connected to it, characterized in that, in order to increase productivity , it is equipped with a cylindrical cup covering a conical perforated partition and a sleeve installed in its lower part connected to the drive shaft, while the lower disk is made in the form a circular membrane mounted in the sleeve with the possibility of reciprocating movement, and a hole is made in the cylindrical wall of the glass, the vibrator having the form of a string passing through the hole in the glass, connected at one end to an elastic membrane, and a valve located outside the glass and connected to the other end strings.

Images