SU1418548A1 - System for technical condition of inert gases - Google Patents

Abstract

Invention m. used in the storage of fruits and vegetables. The purpose of the invention is to reduce energy costs. The gas duct (D) 3 connected to the conditioned object 4 through the distributor 5 is connected to the mixing chamber 16 communicated with the exhaust D 14. The dryer 1, the heat exchanger 2, the gas cleaning and cooling 6 are installed in series. The device 6 is communicated by the inlet 7 with a source of 9 inert gas, and the outlet 10 with a desiccant 1. G 14 is equipped with a cooler 15. At the outlet 17 of the source 9 m. a contact afterburner is installed 18. Between the dryer 1 and the heat exchanger 2 m. a collector is installed. In D 3.14, fans 24.25 are installed. Apparatus 6 m. it is made in two stages, the stage 26 is of the bubbling type, the second is of the Venturi type scrubber. The mixture of gases in the chamber 16 ensures the maintenance of 4 microclimates in the object. 1 il. "E (L

Description

The invention relates to the technical conditioning of gases and can be used, in particular, in the transportation and storage of fruits and vegetables.

The purpose of the invention is the reduction of energy costs.

The drawing shows a schematic diagram of a system for the technical conditioning of inert gases.

The inert gas technical conditioning system contains a desiccant 1, a heat exchanger 2, and a supply duct 3 connected in series to the air-conditioned object 4 through an i-gas distributor 5 in series with the gas.

The apparatus 6 for cleaning and cooling gases is communicated by input 7 through an adjustable element 8 with a source of 9 inert gases (exhaust duct of the engine, boiler, etc.), and output 10 with a desiccant 1.

The heat exchanger 2 is connected through adjustable elements 11 and 12 to a source of inert gases 9 and the input 7 of the apparatus 6 for cleaning and cooling gases.

The air-conditioned object 4 through the receiver 13 and the exhaust duct 14 with a cooler 15 is in communication with the mixing chamber 16 installed in the supply duct 3.

At the outlet of the 17th gases, a tactical afterburner 18 can be used. The apparatus 6 for cleaning and cooling the gases is connected to the tank 19.

Between the desiccant 1 and the heat exchanger 2, a droplet eliminator 20 can be located.

Apparatus 6 for cleaning and cooling gases, dehumidifier 1 and cooler 15 are connected to pump 21.

The exhaust gas duct 14 exit 22 through the fan 23 is in communication with the atmosphere. In the supply and exhaust ducts 3 and 14, fans .24 and 25 are installed.

The apparatus 6 for cleaning and cooling gases can be made in two stages, the first stage 26 of which is bubbler type, and the second stage 27 is of the type of a venturi scrubber.

The system operates as follows.

Exhaust gases from a source of 9 inert gases enter the gas purification and cooling apparatus, where, after two purifications of stages 26 and 27 and cooling of the gas purification and cooling, as a result of direct contact with the water pump 21 supplied, the gases are cooled to the temperature of a wet thermometer and purified from solid ones. liquid and gaseous impurities during the passage of exhaust gases sequentially apparatus gases.

Then they are fed sequentially to the desiccant 1, the droplet eliminator 20 and then fed to the heat exchanger 2, in which the gases are heated in the cold period of the gas using the heat entering the exhaust gas from the source 9. The degree of heating of the gases in the heat exchanger 2 is regulated using the elements 8, 11 and 12.

The water contaminated in the apparatus 6 for cleaning and cooling gases is discharged into the tank 19, where it undergoes special treatment before removal.

After the heat exchanger 2, gases with a certain gas composition temperature and humidity through the supply duct 3 enter the mixing chamber 16. At the same time, gases are taken from the air-conditioned object 4 through the receiver 13 and also sent with the necessary flow rate through the exhaust duct to the mixing chamber 16.

Excess gas entering the exhaust gas duct is vented by the fan 23 to the atmosphere.

After the gases are displaced in the mixing chamber, they are fed through a distributor to the air-conditioned object 4 with the aim of maintaining a microclimate with a certain gas composition, temperature, humidity and internal gas mobility in the object 4.

Claims (1)

Claim An inert gas technical conditioning system comprising a desiccant, a heat exchanger and a supply duct connected in series to an air-conditioned facility, a gas purification and cooling apparatus communicated with an inert gas source and an outlet with a desiccant, and an exhaust duct connected to the facility, characterized in that, in order to reduce energy costs, the heat exchanger is connected to a source of inert gases and to the input of the gas purification and cooling apparatus, the exhaust gas duct is equipped with a cooler, and chny - a mixing chamber in communication with the exhaust duct.