RU179216U1 - PLANT FOR INDUSTRIAL GROWING OF MICROWEEDS - Google Patents

Abstract

The utility model relates to the microbiological industry and agriculture, namely, to the intensive technology for the industrial scale cultivation of microalgae used as bioactive additives and vitamin top dressing. The objective of the proposed utility model is to create a plant for the industrial cultivation of microalgae, aimed at eliminating the disadvantages of the prototype, which will lead to to a higher yield of specific products while reducing their cost. The problem is solved I suggest that we propose a plant for the industrial cultivation of microalgae, which contains a container for growing microalgae with a lid with a sealant, light sources, tubes with valves for filling the nutrient solution and draining the suspension of microalgae and means for mixing the suspension of microalgae, while the container for growing microalgae carries a lid with ventilation openings with dust filters, a luminescent lamp installed inside the microalgae growing tank entent lamps, with a timer and with a sealant; the microalgae growing tank is equipped with a water pump with a time switch to provide periodic automatic mixing of the microalgae suspension and an electric motor with a time switch and a valve for periodic automatic discharge of the mature microalgae suspension; the installation additionally contains a container for yeast fermentation of cereal crops with a removable lid with a seal and a vent with a dust filter, equipped with a heat heater with a temperature controller to automatically maintain the optimum temperature of the fermentation medium and an electric motor with a screw on the axis and with a timer for periodic automatic mixing of the fermentation medium and equipped a tube with an electric motor with a time relay and a valve for periodic automatic supply of br zheniya in a container for growing algae; the installation additionally contains a container for the mineral nutrient mixture with a removable cover with a ventilation hole with a dust filter, equipped with a tube with an electric motor with a time switch and a valve for periodic automatic supply of the mineral nutrient mixture to the container for growing microalgae. The technical result is an increase in the efficiency of the installation.

Description

The utility model relates to the microbiological industry and agriculture, namely, to the intensive technology for the industrial-scale cultivation of microalgae, used as bioactive additives and vitamin top dressing.

Known tray installation (RU 155563) for growing microalgae, including a container for a suspension of microalgae, a frame, a suspension temperature sensor and an associated temperature controller, fans and lighting lamps, where the container is equipped with a fitting with a valve for supplying a nutrient solution and a starting portion of the suspension, a fitting with a valve for draining the suspension, a fitting with a valve for supplying carbon dioxide from a cylinder with a reducer, a valve for bypassing the gas medium, a pressure gauge, a safety valve for gas pressure, two timers mi - for the frequency of illumination and operation of the electric motor - by an illumination sensor built into the chain of fluorescent lamps located on the tank and made of translucent material with a lid with sealing gaskets, having clamps to secure the lid on the tank body, located under the bottom of the tank and firmly attached to the outside of the tray with sealed gaskets having a front portion protruding outside the container with a sealed lid, the pallet being sealed tightly relative to its bottom and bottom These installations are equipped with two longitudinal partitions that do not reach its transverse walls, in the front of the pan there is a fan heater with a temperature regulator for the closed circulation of the air-coolant in the pan, and hermetically fixed glass pipes with fluorescent lamps are located inside the tank, which carry folding fans and removable folding fans at the ends plugs, and equipped with two split removable rings and threaded ring device for mixing the suspension and consisting h of three vertical and two horizontal strips, made with the possibility of moving by means of an electric motor with a demultiplier and a reverse lever with the help of a kinematically connected with them and fixed longitudinal installation with a threaded rod, a fan heater, a temperature regulator, sensors, timers, a tray with partitions, glass pipes with luminescent lamps, electric motor with demultiplier, vertical and horizontal strips of the device for mixing and cleaning the bottom.

As practice has shown, the disadvantages of the analogue are a significant specific consumption of electricity and a low yield of specific products, which negatively affects its cost.

The utility model (RU 168821), selected as a prototype, relates to the microbiological industry and agriculture and is intended for the industrial-scale cultivation of microalgae used as bioactive additives and vitamin top dressing. Installation for the industrial cultivation of microalgae, including translucent containers located one above the other on a metal frame, equipped with light sources between the containers, the containers having upper bends of the walls outward with seals on them and equipped with caps that are hermetically fixed to the bends with clamps and operating pressure relief valves gas; light sources are equipped with corner reflectors and an ambient light sensor with a relay and a timer; horizontal tubes are cut into the tank at the bottom to drain the suspension and fill the nutrient solution and supply an aqueous solution of carbon dioxide, while the parts protruding outward are equipped with valves and union nuts; horizontal tanks of depressurization with valves outside are embedded in the tank above the level of the suspension; inside the containers, frames for mixing and collecting the suspension are moved, consisting of three vertical tubes to which vertically the middle and horizontally lower plates are attached; from above, the vertical tubes hermetically enter the upper horizontal tube, to which the inner hose for collecting the suspension is connected by a fitting of the frame, joining the inner fitting cut into the wall of the tank; inside each of the containers two shelves with sides are installed above the level of the suspension along opposite longitudinal walls, while in one of the shelves there is a recess for the inner hose for collecting the suspension; the horizontal tube of the frame carries vertical and horizontal wheelsets for moving along the shelves; on the horizontal tube of each frame, an annular cable is fixed on top to move the frame; on opposite walls of containers tightly installed drawers and cabinets; each drawer has a sealed door, carries a passive pulley for holding an annular cable and a reverse button; each cabinet has a sealed door, is equipped with an electric motor with a gearbox and a timer for moving the frame, carries an active pulley and a button to turn off the electric motor and turn on the timer for the periodicity of its operation; the bottom of each cabinet hermetically enters the external tube for collecting the suspension in a frame way; along the side walls of containers with cabinets, a vertical suspension drain pipe passes in a frame way; along the side walls of containers with boxes there are: a vertical depressurization pipe having lateral branches with union nuts, with which it is connected to horizontal depressurization pipes, a vertical suspension and filling solution drain pipe and a vertical carbon dioxide water supply pipe.

As practice has shown, the disadvantages of the prototype are the high specific energy consumption due to the use of energy-intensive equipment, the location of lighting sources outside the installation, which reduces the level of illumination of the suspension and leads to a decrease in the growth of the mass of microalgae, the lack of automation of the processes of filling the nutrient mixture and the discharge of mature suspension of microalgae, which leads to the need to use manual labor to ensure the operation of the installation, the use of water supply tubes carbon dioxide solution under pressure into the installation with a sealed cover, which can create a danger to the maintenance personnel in an emergency. These disadvantages of the prototype increase the cost of production.

The objective of the proposed utility model is to create a plant for the industrial cultivation of microalgae, aimed at eliminating the disadvantages of the prototype, which will lead to a higher yield of specific products while reducing its cost.

The problem is solved by the fact that the proposed installation for the industrial cultivation of microalgae, which contains a container for growing microalgae with a cover with a sealant, light sources, tubes with valves for filling the nutrient solution and draining the suspension of microalgae and means for mixing the suspension of microalgae, while the container for growing microalgae has a lid with ventilation openings with dust filters installed inside the tank for growing micro orosley luminaire with fluorescent lamps with time switches and sealing; the microalgae growing tank is equipped with a water pump with a time switch to provide periodic automatic mixing of the microalgae suspension and an electric motor with a time switch and a valve for periodic automatic discharge of the mature microalgae suspension; the installation additionally contains a container for yeast fermentation of cereal crops (products of fermentation of cereal crops - rye, wheat, oats - possess the properties of an additional nutrient mixture with organic components and biostimulants for the development of microalgae and can significantly increase the output of microalgae) with a removable cover with a sealant and a vent with a dust filter equipped with a thermoelectric heater with a temperature controller to automatically maintain optimal temperature fermentation medium and an electric motor with a screw on the axis and with a time relay for periodic automatic mixing of the fermentation medium and equipped with a tube with an electric motor with a time relay and valve for periodic automatic feeding of fermentation products into the tank for growing microalgae; the installation further comprises a container for the mineral nutrient mixture with a removable lid with a ventilation hole with a dust filter, equipped with a tube with an electric motor with a time switch and a valve for periodic automatic feeding of the mineral nutrient mixture into the container for growing microalgae.

The utility model is illustrated by drawings:

FIG. 1 Installation for the industrial cultivation of microalgae, longitudinal section.

The installation contains a container for growing microalgae 1, a cover 2 with ventilation holes 3 with dust filters, inside the container there is a lamp 4 with fluorescent lamps, with a time switch and with a sealant. The installation comprises a water pump 5 with a time relay, an electric motor 6 with a time relay and a valve 7 for discharging a suspension of microalgae. The installation also contains a fermentation tank 8 with a cover 9 with a ventilation hole 10 with a dust filter, a heating element 11 with a temperature controller, an electric motor 12 with an axis screw and a timer for periodic automatic mixing of the fermentation medium, and a tube 13 for supplying fermentation products to the tank 1 for growing microalgae, by an electric motor 14 with a time switch and a valve 15. The installation also contains a container 16 for the mineral nutrient mixture with a cover 17 with a vent 18 with a dust filter trom, tube 19 for periodic automatic feeding of the mineral nutrient mixture into the container for growing microalgae 1; capacity 16 is equipped with a valve 20 and an electric motor 21 with a timer.

Installation works as follows.

Before starting work, the covers of 2, 9 and 17 containers are opened for growing microalgae 1, fermentation 8 and mineral nutrient mixture 16, respectively; then, in the tank 1, the starting suspension of microalgae is poured, and in the tank 16 the mineral nutrient mixture is poured; portions of holoserine cereal and yeast culture are introduced into the container 8 and water is poured, after which the lids of all containers are closed; then, on the time relay of the water pump 5 of capacity 1, the frequency of its operation is set, and on the time relay of the electric motor 6 of capacity 1, the time period for the cultivation of microalgae is set; on the thermoregulator of the heat electric heater (TEN) 11, the fermentation temperature of the cereal grain and yeast culture is set, and on the timer of the electric motor 12 with a screw on the axis, the frequency of mixing the fermentation medium; on the time relay of the electric motor 14 sets the frequency of the portioned supply of fermentation products of the grain-free cereal into the tank 1; on the time relay of the electric motor 21 of the tank 16, the frequency of the portioned supply of the mineral nutrient mixture to the tank 1 is set. During the cultivation period, the water pump 5 periodically mixes the suspension of microalgae, and the timer of the lamp 4 ensures the frequency of fluorescent lamps in the tank 1; a heat electric heater (TEN) 11 provides an optimal temperature for the fermentation of bare grain cereal, an electric motor 12 with a screw on the axis periodically mixes the fermentation medium, and the electric motor 14 periodically opens and closes the valve 15, feeding portions of fermentation products to the tank 1; the electric motor 21 periodically opens and closes the valve 20 of the tank 16, portionwise feeding the mineral nutrient mixture to the tank 1; after the end of the cultivation period of microalgae, the electric motor 6 opens the valve 7 of the tank 1, allowing the mature suspension of microalgae to be drained from the tank 1. After the cultivation period expires, the tanks 1, 8, 16 are washed with clean boiled water, and the cultivation cycle is repeated.

The technical result is an increase in the efficiency of the installation.

Claims (1)

Apparatus for the industrial cultivation of microalgae, which comprises a container for the cultivation of microalgae with a lid with a seal, light sources, tubes with valves for filling of nutrient solution and draining slurry of microalgae and means for mixing the slurry of microalgae, characterized in that the container for the cultivation of microalgae bear cover with ventilation holes with dust filters, a luminaire with luminescent lamps installed inside the microalgae growing tank lamps, with a timer and with a seal; the microalgae growing tank is equipped with a water pump with a time switch to provide periodic automatic mixing of the microalgae suspension and an electric motor with a time switch and a valve for periodic automatic discharge of the mature microalgae suspension; the installation additionally contains a container for yeast fermentation of cereal crops with a removable lid with a seal and a vent with a dust filter, equipped with a heat heater with a temperature controller to automatically maintain the optimum temperature of the fermentation medium and an electric motor with a screw on the axis and with a timer for periodic automatic mixing of the fermentation medium and equipped a tube with an electric motor with a time relay and a valve for periodic automatic supply of br zheniya in a container for growing algae; the installation further comprises a container for the mineral nutrient mixture with a removable lid with a ventilation hole with a dust filter, equipped with a tube with an electric motor with a time switch and a valve for periodic automatic feeding of the mineral nutrient mixture into the container for growing microalgae.

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