SU909547A1 - Heat exchanger - Google Patents

Description

The invention relates to heat exchangers that utilize thermal energy from a gas stream, and can be used, for example, in the ventilation system of livestock buildings.

Known heat exchanger containing a bunch of finned heat pipes with zones of evaporation and condensation, placed in the chambers for flows of the respective heat-exchanging media, and the pipes in the evaporation zones have a common fin [1].

A disadvantage of the known heat exchanger is their low reliability.

The purpose of the invention is to increase reliability by preventing freezing of moisture on the surfaces of heat pipes.

This goal is achieved by the fact that the heat pipes in the beam through one are made gas-controlled, and moreover, the finning of the condensation aeon is individual.

The drawing shows a structural diagram of a heat exchanger.

The heat exchanger contains a bundle of finned heat pipes 1 with zones of evaporation 2 and condensation 3, placed in chambers 4 and 5 for flows of the corresponding heat-exchanging media, and pipes 1 in zones 2 of evaporation have a common finning 6. Heat pipes 1 in the bundle are made gas-controlled 7 through one , in the fins of 8 zones 3 condensation is made individual,

The heat exchanger operates as follows.

During the circulation of hot and cold gases through chambers 4 and 5, heat pipes 1 and 7 transfer heat flow, and as a result, the thermal energy of the hot gas emitted into the atmosphere is used to heat cold air.

Moreover, depending on the temperature of the cold gas, gas-controlled heat pipes 7 also transmit heat flux if their temperature is positive. Freezing of moisture on the surface of pipes 1 and 7 does not occur. When the temperature of the cold gas decreases, the surface temperature of the heat pipes 1 and 7 decreases and it can reach zero temperature, while the gas-controlled heat pipes 7 cease to transmit heat flux. The heat energy taken by the surface of their evaporation zones from hot gas 15 through a common fin 6 is supplied to the surface of the evaporation zones of heat pipes 1 due to heat conduction 1. At the same time, due to the individual finning of heat pipes 1 and 7 in the condensation zones, the area of heat transfer to cold gas decreases. As a result, the surface temperature of the heat pipes 1 is maintained positive and freezing of moisture on their surface does not occur.

The proposed design of the heat exchanger without additional means can prevent freezing of moisture on the evaporative part of the heat pipes, which increases the reliability of the heat exchanger and ensures its high efficiency.

Claims (1)

The invention relates to heat exchangers utilizing heat energy from a gas stream, and can be used, for example, in the ventilation system of livestock buildings. A heat exchanger is known that contains a bundle of finned heat pipes with evaporation and condensation zones placed in chambers for the flows of the corresponding heat exchanging media, with the pipes in the evaporation zones having a common fin 1. The disadvantage of the known heat exchanger is their low reliability. The purpose of the invention is to increase reliability by preventing freezing of moisture on the surfaces of heat pipes. This goal is achieved by the fact that the heat pipes in the beam are made gas-regulated through one, and the finning of the condensation zones is individual. The drawing shows the structural scheme of the heat exchanger. The heat exchanger contains a bundle of finned heat pipes 1 with evaporation zones 2 and condensation 3 placed in chambers and 5 for flows of corresponding heat exchange media, with pipes 1 in evaporation zones 2 having a common fins 6. Heat pipes 1 in the beam are made through gas adjustable 7 in The finning of 8 condensation zones 3 is individual. The heat exchanger operates as follows. During the circulation of hot and cold gases through chambers and 5 heat pipes 1 and 7 transfer heat flux, as a result of which the heat energy of the hot gas emitted into the atmosphere is used to heat cold air. 390 At the same time, depending on the temperature of the cold gas, gas-regulated heat pipes 7 also transfer heat flux if their temperature is positive. Freezing of moisture on the surface of pipes 1 and 7 does not occur. When the temperature of the cold gas decreases, the surface temperature of the heat pipes 1 and 7 decreases and it can reach zero temperature, while the gas-controlled heat pipes 7 stop transmitting heat flow. The heat energy taken away by the surface of their evaporation zones from the hot gas through the common fin 6 is supplied to the surface of the evaporation zones of the heat pipes 1. Due to the individual finning of the heat pipes 1 and 7 in the condensation zones, the heat transfer to the cold gas decreases . As a result, the surface temperature of the heat pipes 1 is maintained positive and freezing of moisture on their surface does not occur. The proposed design of the heat exchanger without additional means prevents the freezing of moisture on the evaporation part of the heat pipes, which increases the reliability of the heat exchanger and ensures its high efficiency. Claims An inventive heat exchanger comprising a bundle of finned heat pipes with evaporation and condensation zones placed in chambers for flows of appropriate heat exchanging media, the tubes in the evaporation zones having a common finning, characterized in that, in order to increase reliability by preventing freezing of moisture on thermal surfaces pipes, heat pipes in the beam through one are gas-regulated, and the fins of the condensation zones are made individually. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 616518, cl. F 28 D 15/00, 197.