SU979806A2 - Gas thermoelectric drier - Google Patents

Description

(54) THERMOELECTRIC GAS DRYER

1The invention relates to refrigeration and thermoelectric devices and can be used, for example, in gas analysis systems that serve the purpose of automating technological processes, safety and environmental protection, as well as a device for scientific research.

A thermoelectric air conditioner is known, which contains a rectangular section channel cooled by a thermoelectric battery, an electric battery, heat exchangers from the side of hot and cold junctions of a thermopile 1.

The disadvantage of this design is that the degree of gas cooling in the flow is not the same: as the wall moves away from the thermopile cooled by the thermopile, the gas temperature rises, which leads to a decrease in the cooling efficiency of the gas.

A thermoelectric cooler is known that contains a thermopile with heat exchangers for cold and hot junctions connected by a collector of forced air and with branch pipes for withdrawing hot and cold air, a distribution nozzle and a damper 2.

A disadvantage of the thermoelectric cooler is the uneven cooling of the gas in the flow, i.e., a significant increase in the gas temperature as it moves away from the cooled channel wall.

According to the main author. St. No. 885745 is known for a thermoelectric dryer containing a heat-insulated chamber equipped with inlet and outlet pipes and filled with a porous heat-conducting material having thermal contact with the walls of the chamber, one of which is adjacent to cold spam of the thermoelectric battery 3.

A disadvantage of the thermoelectric gas depletion device is that the temperature of the cooled gas increases significantly and reaches a maximum value as it moves away from the cooled chamber wall. At the outlet of the outlet channel. The significant temperature difference between the gas layers leads to the fact that the average gas cooling temperature differs significantly from the temperature of the chamber wall.

The aim of the invention is to increase the degree of drying of the gas by cooling it more uniformly throughout the mass.

The goal is achieved by the fact that in a thermoelectric gas dehumidifier, there is a heat-insulated chamber equipped with inlet and outlet pipes and filled with a porous heat-conducting material having thermal contact with the chamber walls, one of which is adjacent to the cold slots of the thermoelectric battery, and provided with a vertical a gas outlet tube installed inside the chamber with a gap relative to its wall adjacent to the cold spaces with the formation of thermal contact with the porous material inside the porous material ala, along the axis of the chamber with a clearance with respect to its walls mounted rod, and the gap at a predetermined pitch installed annular partition walls with orifices forming a zigzag path for the gas.

FIG. 1 shows a thermoelectric drier, longitudinal section; in fig. 2 shows section A-A in FIG. one.

Thermoelectric dryer contains chamber 1, with inlet pipe 2 and outlet pipe 3, filled with heat-conducting material 4, having thermal contact with the chamber walls, one of which is adjacent to the cold spa m 5 of thermoelectric battery 6, and supplied with / vertical gas exhaust tube 7 , rod 8, annular partition walls 9 with holes 10 forming a zigzag channel for gas, condensate tray 11, hole 12, radiator 13 of hot junctions 14 of thermoelectric battery b, fan 15.

Hot humid gas through the inlet 2 enters chamber 1. Passing downstream through the chamber filled with thermally conductive material 4, the gas releases thermal energy to the thermally conductive material and the walls of the chamber that are cooled by the cold junction 5 of thermoelectric battery 6. As the gas temperature decreases the condensation of moisture contained in it occurs, which flows into the condensate collector 11.

The gas reaches the lowest temperature and therefore the minimum humidity in the lower part of the refrigerating chamber,

from where it is discharged from the dryer through a discharge pipe 3.

Heat from hot thermopile junctions is removed by radiators 13, which are cooled, for example, by a fan 15.

The installation in the heat-conducting material along the length of the cooling chamber of the rod allows to obtain an annular channel for the passage of gas, and the installation of partitions with openings, the location of which follows a given law, provides

the passage of gas through the refrigeration chamber is not the shortest path, and the more complex (given) trajectory, having a much greater length. This leads to a decrease in the gas temperature at the outlet, i.e., an increase in the cooling efficiency of the gas drying.

Claims (3)

1.Zorin I.V., Zorina 3. Ya. Thermoelectric Refrigerators and Generators. L., “Energie, 1973, p. 95 2. USSR author's certificate number 574585, cl. F 25 B 21/02, 1975. 0 3. USSR author's certificate in application number 2815411, cl. F 25 B 21/02, 1979.