SU1035347A1 - Heat energy recovering plant - Google Patents

Abstract

INSTALLATION FOR DISPOSAL OF HEAT ENERGY containing a heat exchanger of horizontal heat pipes installed in the supply and exhaust air ducts with a possibility of deviation from the horizontal position, placed under the heat pipe in each duct condensate collectors, bypass channel for supply air, paired air valves installed in the intake pipe air duct and bypass channel, and air heater, reconfiguring {so that, in order to dispose of condensed moisture, air heater along the flow Air is installed after the valve in the bypass channel, the latter is made under the heat exchanger and is equipped with a pallet connected to the condensate collectors. 1 oo ate oo 4: / 2 ui.1

Description

The invention relates to air conditioning technology.

A known device for utilization of heat energy, comprising a heat exchanger of horizontal heat pipes, installed in the intake and exhaust ducts with a possibility of deviation from the horizontal position, located under the heat pipes in each duct condensate collectors, bypass channel for inlet air, paired air valves installed in supply air duct and bypass channel, and air heater 1.

The disadvantage of this installation is that it does not allow the utilization of concentrated moisture, and this necessitates the use of special moisturizers.

The purpose of the invention is to provide utilization of condensed moisture.

The goal is achieved by the fact that the air heater along the supply air is installed after the valve in the bypass channel, the latter is made under the heat exchanger and is equipped with a pallet connected to the condensate collectors.

FIG. 1 shows an installation for utilizing thermal energy; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one.

The installation for utilization of thermal energy contains a heat exchanger 1 of horizontal heat pipes 2, installed in the supply and exhaust ducts 3 and 4 with a possibility of deviation from the horizontal position, located under the heat pipes in each duct condensate collectors 5 and 6, bypass channel 7 for the supply air, coupled air valves 8 and 9, installed in the supply air duct-3 and bypass channel 7, and the heater 10.

The heater 10 in the course of the supply air is installed after the valve in the bypass channel 7, the latter is made under the heat exchanger and provided with a pallet 11 connected to the condensate collectors 5 and 6.

The heat exchanger 1 has a fixed horizontal axis 12 and a drive 13 reverse.

Air movement is carried out by fans 14 and 15.

Installation for utilization of thermal energy works as follows.

In the cold period of the year, when the exhaust air temperature is higher than the supply air temperature, the heat exchanger 1 p3 of heat pipes 2 is turned with

the drive 13 of the reverse around the fixed horizontal axis 12, so that the part of the heat exchanger 1 through which the exhaust air flows is located below the other part of the heat exchanger. The exhaust air flow under the action of the vacuum generated by the fan 14 moves through the duct 4 to the heat exchanger from the heat pipes 2, where it is cooled and removed. In the case where the cooling is accompanied by draining, the condensate released through the condensate collector 6 flows by gravity into the tray 11. The intake air moving through the duct 3 countercurrent under the action of the vacuum generated by the fan 15 is supplied to the paired air valves 8 and 9. Here the flow is inlet air is divided into two parts. One part passes the heat exchanger 1 from the heat pipes 2, where it is heated. Another part of the supply air enters the bypass channel 7. This part of the supply air is heated in the air heater 10 and humidified above the condensate surface in the pan 11. The air is heated before humidification by positioning the air heater 10 to the pan 11, which significantly improves the efficiency of the humidification process. After the merging of both parts of the supply air, it is supplied to the room through the fan 15 and the ratio of the parts of the incoming air passing through the heat exchanger from the heat pipes 2 and through the bypass channel 7 is determined from the conditions for maintaining the required thermal humidity conditions of the room. In addition, the bypass channel 7 can be used to protect the heat exchanger 1 and the heat pipes 2 from freezing at sufficiently low outdoor temperatures.

In the warm period of the year, when the outside air temperature is above the temperature of the exhaust air, the heat exchanger 1 of the heat pipes 2 is rotated with the help of the reverse actuator 13 around a fixed horizontal axis so that that part of the heat exchanger 1 through which the supply air flows is below the other part heat exchanger. The movement of air flow is similar to that described above. In this case, the air heater 10 can be used as an air cooler, and the condensate discharged in the supply air stream is removed.

Thus, the condensate is disposed of in the exhaust air stream, which significantly increases the thermal efficiency of the plant for the utilization of thermal energy.

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Claims (1)

INSTALLATION FOR DISPOSAL OF HEAT ENERGY, containing a heat exchanger from horizontal heat pipes installed in the supply and exhaust ducts with the possibility of deviation from the horizontal position, condensate collectors placed under the heat pipes in each duct, a bypass duct for the supply air, paired air valves installed in the supply air and a bypass channel, and an air heater, characterized in that, for the purpose of utilizing condensed moisture, the air heater along the supply zduha installed after the valve in the bypass channel, the latter formed by a heat exchanger and provided with a tray connected with the condensate collector. SB SL with>