SU1038738A1 - Air cooling plant - Google Patents

Abstract

INSTALLATION FOR COOLING-. AIR AIR, containing the channel of the oyne; flow with the absorber, divided after the last into the channels of the main and auxiliary air flows, the air-breathing sound heat exchanger and the evaporation chamber located in the channel of the auxiliary flow; in order to reduce energy consumption, it is equipped with two external air channels, each of which has an evaporation chamber and an air-air heat exchanger along the air, and the first and second external air channels heat exchangers and are respectively connected to the second channel and kanalog vsvomogatepnogo stream before evaporating chambers of these air channels move. S 7 to tz

Description

110 The invention relates to a technique for terminating air dosing. A known device for cooling air, comprising a channel for a common stream with an absorber, divided after the latter into channels of the main and auxiliary air streams, an air-to-air heat exchanger placed in them and an evaporation chamber tlD located in the channel of the auxiliary stream. due to the significant resistance of the heat exchanger. The purpose of the invention is to reduce energy consumption. The goal is achieved by that the installation, containing a common flow channel with an absorber, is divided into the main and auxiliary air flow channels, the air-to-air heat exchanger located in them and the evaporation chamber located in the auxiliary flow channel are equipped with two outside air channels, each of which along the air are the evaporation chamber and. an air-to-air heat exchanger, wherein the heat exchangers of the first and second external air channels are connected respectively to the second channel and the auxiliary flow channel in front of the evaporative chambers of these channels during the course of the air. I The drawing is a schematic diagram of an installation for cooling air. The installation contains channel 1 of the common flow. with the absorber 2, divided after the last on channel 3 and 4 of the main and auxiliary air streams, the air-to-air heat exchanger 5 placed in them and the evaporation chamber 6 located in the channel 4 of the auxiliary flow in each of which, along the air path, there are evaporation chambers 9 and 1O and air-breathing heat exchangers 11 and 12, the first of which are heat exchangers 11 and 12; The second cannons 7 and 8 of the outside air are connected respectively to the second channel 8 and the channel of the MorarefrbHoro flow 38, the pepper evaporating chambers 10 and 6 of these canaps along the air path. Absorber 2 has a regenerator 13 with a nozzle 14 of the vapor outlet and heater 15, as well as a capacity 16, a cooler 17 and circulation pumps 18 and 19. In the main flow channel 3, in some cases, an evaporator can be installed. in a way. The first external air flow is directed by a fan (not shown) through the channel 7 to the evaporation chamber 9, where adiabatically the surface of the water and between the wetted plates that the chamber can be equipped with, cools and passes through the heat exchanger 11, with a minimum loss of temperature is cold to the second stream of outside air, additionally cooling the gademus in the evaporating ca-. measure 1O. In heat exchanger 12, accumulated cold is transferred to the auxiliary stream. Thus, the cold is pumped to the final flow to the main flow through the heat exchanger 5 and then further cooled in the evaporation chamber 20 in the case of a high degree of relative humidity. The outer air of 5O% includes the absorber 2, which drains the auxiliary and main air currents. For efficient operation, the reheat unit in heat exchangers should be carried out at minimum temperatures of 0.5–1 ° C, which is possible only in direct plate heat exchangers of direct cooling provided that their plates are sufficiently large. Absorber 2 uses a solution with minimal heat absorption (for example, a concentrated solution. During air drying, the solution is pumped by pump 18 from the tank to cooler 17 to absorber 2, from where it is discharged into tank 16, Part of the solution enters the regenerator 13, where it is evaporated by heater 15 and pump 19 is supplied to tank 16. The proposed installation allows for a reduction in energy costs.

Claims (1)

INSTALLATION FOR COOLING AIR, containing the channel of the general flow with the absorber, divided after the latter into the channels of the main and auxiliary Ательного beneficial air flows, the air-to-air heat exchanger placed in them! and an evaporation chamber located in the auxiliary flow channel, characterized in that, in order to reduce energy consumption, it is equipped with two external air channels, in each of which an evaporation chamber and an air-air heat exchanger are located along the air flow, the heat exchangers of the first and second external air channels being connected respectively to the second channel and the auxiliary flow channel in front of the evaporation chambers of these channels along the air.