SU928164A1 - Counter-current recuperative heat exchanger - Google Patents

Description

The invention relates to heat engineering equipment, in particular to plate heat exchangers, and can be used in ventilation systems and air conditioning systems for recovering the heat of exhaust air.

Known cross-flow recuperative heat exchangers, containing a package of flat plates from the channel-. Corrugated plates made of two parts, short and long, arranged in series and at a distance from one another, the short part of the corrugated plates being installed on the inlet side of the hot coolant, and the length occupies the rest of the channel tl.

The disadvantage of this heat exchanger is significant losses due to the lack of recovery arising from the parallel, one above the other, placing smooth sections on. plates, obrazukdai channels.

Countercurrent recuperative heat exchangers are known, containing a stack of plates provided with fins on both sides and forming channels for the circulation of working media 21.

The waste of this heat exchanger is the impossibility of its use in the ventilation and air conditioning systems when disposing of the heat of exhaust air, namely, the temperature of exhaust air at the exit of the heat exchanger must be maintained above a certain value at which the icing of the coldest part of the heat exchange surface begins in areas of the heat exchange surface with the highest temperature, a decrease in the intensity of heat exchange is possible 15 due to the absence of vapor condensation from them of air when the wall temperature It appears above the dew point.

The aim of the invention is to improve the cost-effectiveness of operation by reducing the losses from heat under-recovery. .

The goal is achieved by the fact that in a known countercurrent regenerative

25 of the heat exchanger, which contains a package of plates provided with ribs on both sides and forming channels for the circulation of working media, the ribs are located at least half of their length from the entrance of the media into the channels at a distance of 30 research institutes.

FIG. shows a heat exchanger; in fig. 2 is a graph showing the change in circulating temperature in the working medium heat exchanger channels (cold and warm) .; in fig. 3 is a graph of enthalpy change of working media circulating in the heat exchanger channels (cold and warm).

The heat exchanger contains plates 1, provided with ribs 2 and forming channels 3 and 4 for the circulation of working media.

The heat exchanger operates as follows.

One of the working media, for example, exhaust air with a temperature tgi enters the channels 3 of the heat exchanger and, by convection, gives off heat to the plate 1 having a temperature t (, j in the area free from the ribs. In the channels 4 countercurrent flows another working medium — fresh air. Since the plate 1 on the side of the inflowing air coming out of the heat exchanger has fins 2, due to the small temperature difference between the plate and the supply air, the maximum temperature of plate 1 is less than the dew point temperature tcT-mcax tp. Because at the exit of the heat exchanger in the warm path, the ribs 2 are made on the side of exhaust air, the difference between the temperatures tg and t is small, as a result of which the maximum temperature of the exhaust air and the increase in the amount of heat in the fresh air dmfc -t occur in the heat exchanger.

The efficiency of the heat exchanger is increased and in this case is determined by the ratio of the amount of external air heating it to the temperature difference Atp tg-t {,

Thus, in the proposed heat exchanger, the degree of heat utilization is increased,

according to i-7 /

where Ig is the heat content corresponding to the dew point temperature

1 „- heat content of air,

IBP is taken at appropriate temperatures along the I-d diagram.

This allows you to reduce energy costs for heating outdoor air from 50 to 90%.

Claims (2)

1. US patent number 2952445, 5 | kl. 165-166, published. i960. 2. The patent of France 1308290, cl. F 28 D, publ. 1962.