RU2015463C1 - Apparatus for drying compressed air - Google Patents

Abstract

FIELD: drying compressed air. SUBSTANCE: compressed air stream enters dehumidifier 1 wherein moisture is partially separated from it. On leaving the dehumidifier the compressed air stream is branched into two streams. One of the streams enters heat exchanger 3 wherein it is cooled and further condensed. An additional moisture, so formed, is separated in dehumidifier 2. The other stream is fed to the inlet means of vortical tube 4. The cold air stream of tube 4 via heat exchanger 3 is admitted to the passive nozzle of ejector 5. The hot air stream leaving tube 5 is admitted to the active nozzle of ejector 5. Mixing chamber of ejector 5 is connected to the hot end of vortical tube 4 in alignment with its axis. The remainders of the hot and cold streams are exhausted to the environment via regulator valves 6 and 7. EFFECT: intensified air drying. 2 cl, 1 dwg

Description

 The invention relates to a device for air drying and may find application in various sectors of the economy.

 A device for separating drip moisture, which is a centrifugal dehumidifier, is known.

 Closest to the invention is an installation comprising two dehumidifiers connected in series through a heat exchanger into which cold air is supplied from the vortex cooler to cool the air to be drained.

 The disadvantage of this installation is the small depth of air drying due to low thermodynamic efficiency.

 The aim of the invention is to remedy this drawback.

 This goal is achieved in that the installation containing two dehumidifiers connected in series through the heat exchanger and the vortex tube is equipped with an ejector mounted along the axis of the vortex tube from the side of its hot end, connected by a passive nozzle through the heat exchanger to the cold end of the vortex tube, and the active nozzle with the hot end of the vortex tube, and two valves for adjusting the operation of the ejector.

 The drawing shows a schematic diagram of the installation.

 The installation contains two centrifugal dehumidifiers 1, 2 connected through a heat exchanger 3, which is connected in one line to the cold end of the vortex tube 4 and an ejector 5 mounted along the axis of the vortex tube 4 from the side of its hot end and designed to organize the beneficial use of the residual cold flow cold output, moreover, the ejector 5 is additionally connected to the outlet of hot air from the vortex tube 4. In addition, there are two control valves 6, 7, which serve to configure the operation of the ejector.

Installation works as follows. Compressed air due to the compressor enters the dehumidifier 1, where part of the droplet moisture is separated, part of the pre-dried air enters the heat exchanger 3, and part to the inlet of the vortex tube 4. Once in the vortex tube 4, the compressed air is divided into two streams - cold and hot. The cold stream enters the heat exchanger 3, where it cools the drained air to extract additional droplet moisture from it, passing through the heat exchanger 3, it is fed into the ejector 5 as an ejected stream, where hot air is supplied from the vortex tube 4 as an active stream. From the ejector 5 an air stream comes out with a pressure P _abs = 0.12 MPa (this pressure is optimal for the additional flow of the vortex tube 4) and is fed into the vortex tube 4 along its axis from the side of the hot end. Part of the hot and cold air of their vortex tube 4 through valves 6 and 7 is released into the atmosphere.

 Drained air from the heat exchanger 3 enters the centrifugal dehumidifier 2, where the second stage of drying takes place, and enters the consumer.

 Thus, the invention allows to achieve a higher class of drying of compressed air with a sufficiently high thermodynamic efficiency of the installation as a whole.

Claims (2)

 1. INSTALLATION OF DRYING COMPRESSED AIR, comprising two centrifugal dehumidifiers connected in series through a heat exchanger, a vortex tube, characterized in that, in order to increase air drying, the installation is additionally equipped with an ejector, the diffuser of which is connected to the paraxial zone of the vortex tube from the throttle side, the active nozzle is connected to the outlet pipe of hot air, and the passive nozzle through the heat exchanger to the diaphragm of the latter.  2. Installation according to claim 1, characterized in that the control valves are connected to the active and passive nozzles of the ejector through the lines of the outlet of hot and cold flows of the vortex tube.