SU1518624A1 - Air drying unit - Google Patents

Abstract

This invention relates to process air conditioning. The aim of the invention is to obtain the desired depth of air drying without increasing energy consumption. The heat exchanger 3 is installed in the refrigerant circuit between the condenser 2 and the throttle valve 4. The passage of the heat exchanger section 3 in series, the liquid refrigerant is supercooled, while heating the dried air. Next, the refrigerant flows through the throttle valve 4 into the air cooler 5, where it boils, cooling the air. The dried air passes alternately the sections of the heat exchanger 3, where it is heated, and the air cooler 5, where it is cooled with the absorption of moisture on the heat exchange surface. The implementation of the heat exchanger 3 and the air cooler 5 in the form of multi-section apparatuses and the arrangement of their sections alternately along the course of the cooled air reduces the total heating of the air to be dried, and this effectively uses a limited amount of heat to reduce the moisture content of the air leaving the air cooler. 1 il.

Description

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The invention relates to process air conditioning, in particular to installations intended to supply dry air to a consumer.

The purpose of the invention is to reduce the moisture content of the air leaving the plant without increasing energy costs.

The drawing shows a diagram of the installation of air drying.

The installation contains a refrigerant circuit that includes a series-connected compressor 1 for compressing refrigerant vapor, a condenser 2 for condensing refrigerant vapor, a multi-section heat exchanger 3 for heating dried air, a throttle valve, a multi-section air cooler 5 for cooling air with precipitating moisture on the heat exchange surface, the output of which is connected to the entrance to the compressor. Section of the heat exchanger 3 and the air cooler 5 are arranged alternately along the course of the cooled air. The sections of the heat exchanger 3 are installed in the refrigerant circuit in such a way that the general direction of movement of the refrigerant and air in the PP heat exchanger is a coil.

The installation works in the following way.

Refrigerant vapor flows from air cooler 5, compressed with KOMripsor 1 and is injected into condenser 2. Liquid refrigerant from condenser 2 enters heat exchanger 3. Passage of section 3 of heat exchanger 3 in succession, the liquid refrigerant is supercooled while heating dried air. Next, the supercooled refrigerant flows through the throttle valve k into the air cooler 5, where it boils, cooling the air. The dried air passes alternately the sections of the heat exchanger 3, where it is heated, and the air cooler 5, where it is cooled with precipitation of moisture on the heat exchange surface. When air is heated in the section of the heat exchanger 3, its relative humidity decreases, which ensures a reduction in fogging in the air cooling section of the next section along the air path.

Due to supercooling of the refrigerant 8 by the heat exchanger 3, its specific cooling capacity increases and

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cooling capacity of the machine as a whole. Thus, the increase in heat load on the air cooler is compensated, which is increased due to the heating of air in the heat exchanger sections. Energy costs for air dehumidification do not increase.

 The implementation of the heat exchanger 3 and the air cooler 5 in the form of multi-section apparatus and the arrangement of their sections alternately along the cooled air reduces the total heating of the dried air in the sections of the heat exchanger and the amount of heat taken from the liquid refrigerant required to reduce the mass of water mist at the outlet air cooled 1-1T en: 1,

The total directing direction of the coolant and dried air 3 to the heat exchanger provides an opportunity to increase the supercooling of the coolant — and thus increase the amount of heat that can be transferred to the dried air in the heat exchanger sections.

The number of sections of the heat exchanger and air cooler is determined by the required depth of air drying.

All of this provides an efficient cooling system, the use of a limited amount of heat available from the refrigerant leaving the condenser to reduce the moisture content of the air and the exit from the air cooler.

Claims (1)

Thus, the moisture content of the dried air is reduced without increasing energy costs. Invention Formula An air drying unit comprising a closed refrigerant circuit in which a compressor, a condenser, an air cooler, a throttle valve and a heat exchanger are installed, the heat exchanger and the air cooler being located in a line of dried air, so as to reduce the moisture content of the dried air without increasing energy consumption , the heat exchanger and the air cooler are made of multiple sections and their sections are arranged alternately along the air course, the heat exchanger being installed in the circulating circuit and the refrigerant between the condenser and expansion valve.