SU1665090A1 - Compressor unit - Google Patents

Abstract

The invention relates to gas-drying compressor units and allows for greater efficiency. In chamber (K) 6, air is deposited at the entrance to the first stage 1 of compression. A portion of the solution formed in K 6 is circulated through K 6, tank 16, pump 17 and separation unit 15. Another, a smaller part of the solution undergoes regeneration, is circulated through the heater 7, chamber 8, cooler 10. The solution is heated in the heaters 7 by utilizing the heat accumulated by the water circulating in the water cooling circuit 11 of the plant. 1 hp f-ly, 1 ill.

Description

The invention relates to compressor units with absorption drying of gas.

The aim of the invention is to increase the efficiency of the installation. 5

The drawing schematically shows the proposed compressor installation in a two-stage design.

The compressor installation contains at least two compression stages 1 and 2 with water cooling shirts 3 and 4, an interstage heat exchanger '5 installed at the entrance to the first stage 1 of the chamber 6 for air drying with a sorbent solution, a vacuum sorbent regeneration unit, made in the form of a solution heater 7 , chambers 8, a vacuum condenser 9 and a sorbent cooler 10, and a closed water cooling circuit including water cooling shirts 3 and 4, an interstage heat exchanger 5. a water tank and a pump 13, while the heating solution 7 li ne of the heating side in a closed cooling water circuit 11, and a closed loop 11 is formed by serially connected between a water tank 12, pump 13, jackets 3 and 4 of the water cooling, interstage heat exchanger 5 and the heater 7 of the sorbent solution. A vacuum condenser 9 is connected to the water tank 12 via a condensate line 14.

The installation also contains a separation unit 15, a tank 16 and a sorbent solution pump 17, as well as a water-jet pump 18.

The compressor installation operates as follows.

The dried air from the drying chamber 6 enters the first stage 1, where it is compressed to an intermediate pressure. Then the air is cooled in the intermediate heat exchanger 5, pressurized in the second stage 2 of the installation and sent to the consumer.

Water circulating in a closed cooling circuit 11 by means of a pump 13, passing through shirts 3 and 4 and an interstage heat exchanger, is heated to 70-80 ° C, and in the heater 7 of the sorbent solution it is cooled to 10 ~ 30 ° C and returned to tank 12.

The sorbent solution, heated and diluted with moisture in the chamber 6, is divided into two streams in the separation unit 15.

The main stream (approximately 70%) circulates through the node 15, chamber 6, tank 16 and pump 17, and the other stream (approximately 30%) is directed through the heater 7 for regeneration into the chamber 8, and then through solution cooler 10 it returns to | tank 16.

In chamber 8, adiabatic boiling of moisture occurs under reduced pressure (15–20 mmHg). In this case, the bulk of the solution is cooled. The vacuum in the chamber • 8 is maintained by means of a vacuum condenser 9, non-condensable impurities of which are pumped out by the water-jet pump 18.

The condensate from the condenser 9 along the line) 14 is sent to the feed tank 5.

This embodiment of the installation allows to increase its efficiency due to the use of heat accumulated in the cooling water in the heater 7.

Claims (3)

1. A compressor installation containing at least two compression stages with water cooling jackets, inter-stage heat exchangers installed) at the entrance to the first stage, an air drying chamber with a sorbent solution, a vacuum sorbent regeneration unit made in the form of a solution heater, chamber, vacuum condenser and cooler j sorbent, and a closed loop of water cooling, including water cooling jackets, interstage heat exchangers, a water tank and a pump, characterized in that, in order to increase) nomical, solution heater is turned on by the heating side of the closed loop water cooling, and the closed loop formed by the serially connected water tank, pump, water cooling jackets 5, interstage heat exchangers and preheater sorbent solution. 2. The installation according to claim 1, with the fact that the vacuum capacitor is connected to 3 with a water tank using a condensate line.