SU1725030A1 - Solar absorption air conditioning system - Google Patents

Abstract

The invention relates to a technique of ventilation and air conditioning. The aim of the invention is to reduce energy costs and improve the accuracy of controlling the parameters of the supply air. The solar absorption unit contains successively located in the intake duct 1 along the air flow the sorption heat exchanger 2, the water heat exchanger 3 and the intake fan 4. The sorption heat exchanger 2 is connected in series by means of a water-salt circuit 5 with the circulation pump 6 and the solar generators 7 and the cooling cooler cold supply, and the water heat exchanger 3 is connected to the circulation circuit 10 with the pump 11. In the supply air duct 1 between the water heat and mass exchanger 3 and the supply air m fan 4 is mounted to the air preheater 12 a heat medium flow line 13. In the water-salt circuit 5 between the solar generators 7 and the cooler 8 there is a three-way control valve 14, connected by the inlet 15c to the solar regulators 7, one output 16 -c input 17 of the line 13 heat carrier in the air heater 12, and the other output 1.8-with output 19 of the line 13 the heat carrier from the air preheater 12 and the cooler 8, and is connected to the temperature controller 20 of the supply air temperature. The control valve 21 of the cooling supply line 9 of cooler 8 is connected to a dew point thermostat 22. 1 il. WITH

Description

The invention relates to the technique of ventilation and air conditioning,

The aim of the invention is to reduce energy costs and improve the accuracy of controlling the parameters of the supply air.

The drawing shows the principle of A.lna scheme of helioabsorption air conditioning system,

Helium-absorption air conditioning system contains successively located in the intake duct 1 in the course of the air sorption heat exchanger 2, water inlet heat and gas exchange 3 and inlet fan 4, Sorption heat exchanger 2 is connected in series with the help of a salt circuit 5 with a circulator. 6 to solar collectors and cooler 8 with cooling supply line 9, and the water heat and mass exchanger 3 is connected to circulation circuit 10 with pump 11.

In the supply air duct 1 between the water heat and mass exchanger 3 and the supply fan A, an air preheater 12c is installed with a flow-through line 13 of the heat transfer medium.

In the water-salt circuit 5 between the solar regenerators 7 and the cooler 8, a three-way control valve 14 is installed, communicated by the inlet 15 with the solar regulators 7, one output 16 - with the input 17 lines 13 of the heat carrier to the air heater 12, and the other output 18 - with the output

19 lines 13 of the coolant from the air heater 12 and cooler 8, and is connected to the temperature controller 20 of the supply air temperature.

The control valve 21 of the cooling supply line 9 9 is connected to a dew point thermostat 22,

The helio-absorption air conditioning system operates as follows.

An external or a mixture of external and recirculated air passes successively through the sorption heat and mass exchanger 2, the water heat and mass exchanger 3, the air preheater 12 and the fan 4 is supplied to the consumer.

In the sorption heat mass exchange

20, the air is dried and cooled with a water-saline solution previously cooled in a cooler 8. The saline solution is regenerated when the latter passes in solar generators 7, in which the solution is freed from moisture using solar energy. The resulting strong solution is then subsequently cooled in an air preheater 12 and cooler 8,

Dew Point Temperature Control

performed by a thermostat 22, which is. It controls the control valve 21. The supply air temperature is controlled by the temperature controller 20, which controls the three-way

control valve 14.

Form u l a iso-rec and Heli-absorbing air conditioning system containing sequentially located in the supply air

Air duct sorption teplomassoobmennik course, a water supply teplomassoobmennik and fan, wherein the sorption teplomassoobmennik sequentially connected using left vodoso- circuit with a circulation pump and to gelioregeneratoram cooler with cooling line and a water teplomassoobmennik connected to the flow circuit with a pump, This is due to the fact that, in order to reduce energy. costs and improve the accuracy of adjusting the parameters of the supply air, the system additionally contains

an air heater with a coolant flow line, installed in the supply air duct between the water heat exchanger and the supply fan, regulating the cold supply line valve,

a three-way control valve installed in the water-salt circuit between the solar generators and the cooler, and the thermostats of the dew point temperature and the supply air temperature, and

A three-way control valve is connected to an inlet with solar power generators, one output. - to the inlet of the heating medium line to the air preheater, another output - to the output of the heating medium line from the air preheater and a cooler.

the supply air temperature thermostat and the refrigeration supply line control valve is connected to the dew point thermostat.

Claims (1)

Formula of the invention A solar-air absorption air conditioning system comprising a sorption heat and mass exchanger, a water heat and mass exchanger and a supply fan sequentially arranged in the supply air duct along the air flow, the sorption heat and mass exchanger being connected in series via a water-salt circuit with a circulation pump to the solar heat exchanger and the cooler , and the water heat and mass exchanger is connected to the circulation circuit with the pump, so that Ener reduce pour-_-energy costs and improve the accuracy of ^{PE-1-regulation} of the supply air parameters, the system further comprises an air heater with flowing coolant line mounted in the supply air duct between the water and teplomassoobmennikom supply fan, cooling line control valve, three-way regulator valve installed in vodosolevom the circuit between the helioregenerators and the cooler, and thermostats for dew point temperature and supply air temperature, with three The bottom control valve is connected by an input with solar heat generators, one exit - with the coolant line inlet to the air heater, another outlet - with the coolant line exit from the air heater and a cooler and is connected to the supply air temperature thermostat, and the cooler line control valve is connected to the dew point thermostat.