SU1011954A1 - Unit for recovering heat energy in conditioning system - Google Patents

Abstract

INSTALLATION FOR UTILIZATION OF THERMAL ENERGY IN THE AIR CONDITIONING SYSTEM, containing inlet and exhaust channels and heat exchangers installed in them, connected by a circulating liquid circuit in countercurrent circuit, and the inlet channel heat exchanger has a sump and irrigation device, which is designed to increase efficiency recycling and improving the reliability of operation, the exhaust duct heat exchanger is equipped with a pallet and irrigation device connected respectively to the irrigation device and the heat exchanger tray - the inlet channel, the channels being placed vertically, and the distribution devices installed above the heat exchangers. V (L SO ate 4

Description

The invention relates to techniques for ventilation and air conditioning, in particular to installations for the utilization of heat of exhaust air.

A known installation for the utilization of thermal energy in an air conditioning system containing a supply and exhaust channels and heat exchangers installed in them, connected by a circulating liquid circuit in a countercurrent circuit, the heat exchanger of the supply channel having a pan and an irrigation device [11 The disadvantages of this installation are low recycling efficiency and low reliability work. This is because the exhaust air cools below the dew point. Therefore, on the part of the surface of the heat exchanger located in the exhaust air channel, a condensation zone forms, where the total heat transfer increases.

At the same time, in the heat exchanger in the supply air channel, only “dry” heating occurs with low heat transfer. In addition, frost formation occurs in the heat exchanger from the exhaust air side, which leads to a decrease in the reliability of the installation.

The purpose of the invention is to increase the efficiency of disposal and increase the reliability.

This goal is achieved by the fact that in the installation for the recovery of thermal energy containing the supply and exhaust channels and the heat exchangers installed in them, connected by a circulating liquid circuit in a countercurrent circuit, the heat exchanger of the supply channel having a pan and an irrigation device, the exhaust channel heat exchanger is equipped with a pan and irrigation device connected respectively to the irrigation device and the tray of the heat exchanger of the supply channel, moreover, the channels are placed vertically, and the sprinkler Units installed above the heat exchangers.

The drawing shows a schematic diagram of an installation for the utilization of thermal energy.

The installation contains a supply and exhaust channels 1, 2 and heat exchangers 3 and 4 installed in them, connected by a circulating liquid circuit 5 in a countercurrent circuit, and the heat exchanger 3 of the supply channel 1 has a tray 6 and an irrigation device 7. The heat exchanger 4 of the exhaust channel 2 is equipped with a tray 8 and irrigation device 9, connected respectively to the irrigation device 7 and the pan 6 of the heat exchanger 3 of the supply channel. 1, and channels 1 and 2 are placed vertically, and irrigation devices 7 and 9 are installed above heat exchangers 3 and 4.

In addition, the installation is equipped with circulation pumps 10, 11 and 12 and separators 13 and 14.

Installation works as follows.

Exhaust air before entering the heat exchanger 4 is subjected to irrigation with a liquid sorbent, for example, a 30% aqueous solution of calcium chloride, and the spray torch is directed along the air. In this case, cooling occurs to the “dew point” and its moisture content increases. The exhaust air is cooled in the heat exchanger 4 by an intermediate coolant with a low freezing temperature circulating in circuit 5. When air is cooled below the “dew point”, condensation of water vapor occurs on the surface of heat exchanger 4; the condensate together with the irrigation brine forms a liquid film on the surface of the heat exchanger, which does not freeze at a negative temperature of the ^5th intermediate heat carrier, which eliminates frost formation and increases the operational reliability of the installation. Condensation of water vapor occurs on the entire surface of the heat exchanger, which increases the total heat transfer by several times compared with “dry” cooling. The brine with a slightly reduced concentration due to dilution with condensate is collected in the pan 8 and pump 11 is fed into the irrigation device 7.

The intermediate heat carrier, circulating along the circuit 5, transfers the utilized heat of the exhaust air to the supply cold air. At the same time, the surface of the heat exchanger 3 is irrigated with brine using an irrigation device 7, 40, the spray torch is directed by the movement of the supply air and creates a liquid film on the entire surface of the heat exchanger 3. Heat transfer increases several times in comparison with the “dry” heating of the air upon evaporation of water from the brine film ⁴⁵ . The moisture content of the supply air increases and brine regenerates. The brine with the restored concentration is collected in the pan 6 and pump 12 is fed into the irrigation device ₅₀ , located above the heat exchanger 4. The intermediate heat carrier is cooled in the heat exchanger 3 of the supply channel and the pump 10 is sent to the heat exchanger 4. The processes of heat and mass transfer in the heat exchangers 55 supply and exhaust channels are physically identical.

The proposed installation can improve the efficiency of disposal and reliability.

Claims (1)

INSTALLATION FOR DISPOSAL OF THERMAL ENERGY IN THE CONDITIONING SYSTEM, containing the supply and exhaust channels and heat exchangers installed in them, connected by the circulating liquid circuit in a counter-current circuit, the heat exchanger of the supply channel having a tray and an irrigation device, characterized in that, in order to increase the efficiency of utilization and increase reliability of operation, the exhaust duct heat exchanger is equipped with a pan and an irrigation device connected respectively to an irrigation device and a pan Ohm of the heat exchanger is the supply air channel, moreover, vertically, and mounted on top of the heat channels, the heat exchanger devices are located. P7