SU418204A1 - DEVICE FOR CLEANING GAS MEDIUM FROM THE EXCESS OF CARBON-GAS GAS IN THE CAMERA FOR LIFTING FRUITS AND VEGETABLES \ - \\ ^^ - Google Patents

Description

one

The invention relates to issues related to the storage of fruits and vegetables for a long period of time, namely, devices for cleaning the gaseous medium from excess carbon dioxide in the chambers for storing fruits and vegetables.

Similar devices are known that contain an adsorber associated with a clan storage chamber of fruits and vegetables and a fan.

Such devices are inconvenient because oxygen enters the chamber from the atmosphere, and the sorbent is moistened with atmospheric moisture. This reduces the effectiveness of devices.

A distinctive feature of the proposed device is that it is equipped with a vacuum pump, and in the canister there is a manifold connected by means of a valve to the suction line of this pump. The internal cavity of the adsorber is in communication with the chamber through the choke.

The drawing shows a storage chamber for fruits and vegetables provided with the proposed device.

Chambers 2 with fruits, for example blocks, are placed in the chamber 1, and the cooler 3 of the refrigerating machine and the fan 4 are installed, circulating the gaseous medium through the proposed device for cleaning gaseous medium from excess carbon dioxide.

gas. The latter contains an adsorber 5 filled with a sorbent, for example a zeolite, equipped with valves 6 and 7 for connecting it to the chamber. The internal cavity of the adsorber is in communication with the chamber 1 through the choke 8.

A manifold 9 is placed in the adsorber, which is connected to the suction line of the vacuum pump I by valve 10. A vacuum gauge 12 is connected to the suction line of this pump.

to control the pressure i in the system. As a vacuum pump, a mechanical oil pasos with a gas ballast device can be used, which ensures the pumping of water vapor with the achievement of residual

vacuum in the order of mm. Hg Art.

During the storage of fruits and vegetables, chamber 1 creates a gaseous environment that is different from atmospheric air by gaseous composition. The most common block for most varieties is, for example, the following composition of the gaseous medium (in%): oxygen 3, carbon dioxide 5, nitrogen 92.

As the metabolic process proceeds, the fruits absorb oxygen and release about the same amount of carbon dioxide in volume. The average respiration rate of a block is 2.5 l CO – y per 1 ton of fruit per 1 hour. The capacity of industrial chambers with a gaseous medium is 200-300 tons of block, which corresponds to emissions of carbon dioxide in quantities up to 12-18 m in 1 day. To remove the excess carbon dioxide released by the fruit during breathing and to maintain its concentration in the chamber atmosphere within the prescribed limits, the gaseous medium is passed through fan 4 through adsorber 5. Valves 6 and 7 are open, valve 10 is closed, vacuum pump 11 is off . Carbon dioxide, which is absorbed by the adsorbent, is removed from the gaseous medium passing through the adsorber. The capacity of the used adsorbents can reach 4.0 g COs per 1 liter of the absorbent. After the adsorber has been fully developed (saturation of the absorber), the adsorber is transferred to the regeneration mode. To do this, valves 6 and 7 close, valve 10 open and turn on the vacuum pump. Due to a decrease in the partial pressure of carbon dioxide in the gas phase, the equilibrium of the adsorbate adsorbent system is disrupted. There is a desorption of gases, the absorbed adsorbents. In the cleaning mode. The desorption products, mainly water vapor and carbon dioxide, are removed to the surrounding atmosphere. During gas desorption, the temperature of the adsorbent decreases by several degrees (in the tests carried out, the temperature decreased from 27 ° C to 8.5 ° C), which dramatically increases the efficiency of the device, increasing the capacity of the absorber and reducing the number of regeneration cycles. As a result of the absence of contact of atmospheric air with the adsorbent, the amount of moisture penetrating into the adsorber is small. The transfer of atmospheric oxygen from the environment into the chamber 1 through the device is excluded. To simplify the design of the valves 6 and 7, to facilitate their opening and to achieve a non-impact mode switch, after the desorption is completed, the valve 10 is closed and the throttle 8 is opened. As a result, the adsorber is filled with a gaseous medium, after which the device switches to cleaning mode. BACKGROUND OF THE INVENTION A device for cleaning a gaseous medium from excess carbon dioxide in chambers for storing fruits and vegetables, including an adsorber connected to the chamber by means of valves, and a fan, characterized in that. that, in order to exclude atluspheric oxygen from entering the chamber, to prevent the sorbent from wetting with atmospheric moisture and to increase its efficiency, it has a vacuum, a pump, and a manifold connected to the suction line of the pump is located in the adsorber, the internal cavity of the adsorber is connected to camera through the throttle.