SU700165A1 - Liquid outgasing device - Google Patents

Claims (2)

The invention relates to a device for degassing a liquid and can be applied in a chemical oil, food industry, in the energy sector for deaeration of feed water, for desalination plants, etc. Known vacuum thermal de. Rotor, including body, spray device, nozzle of concentric shells or. plane-parallel plates, a cone, a steam chamber consisting of a bubbling drum, steam pipe, upper and lower cones, inclined box-shaped trays, suction and drain pipes, 1. Closest to the invention in a-haeclic): to the essence and the achieved result is a device for liquid degassing, including a chamber with nozzles of liquid inlet and liquid and gas outlet in which cavitation elements are installed 2. The disadvantage of known devices is low degassing efficiency . The aim of the invention is to intensify the degassing process by improving cavitation. For this purpose, the cavitation elements are made in the form of cylinders, arranged in rows along the length of the chamber, with holes being made in the chamber walls for each row of cylinders connected to the gas outlet pipe. It is advisable to set the rows of cylinders - at a distance from each other equal to 3-70 cylinder diameters. The ria of FIG. 1 shows a device for degassing a liquid; in fig. 2 - arrangement of cavitation elements and holes, top view. The device contains a pump 1, an injection pipe 2 with a pipe 3, a chamber 4 inside which there are several rows of cavitation elements 5 in the form of cylinders inside which rectangular section has holes 6 communicating with the vacuum chamber 7 and the pipe 8 gas outlet. The device also contains a pipe 9 of the liquid outlet, the reservoir-10, the pipeline 11. The device works as follows. Pump. 1 takes the liquid from the reservoir 10 and delivers it to the chamber 4 through the injection pipeline 2, where the liquid flows around the cylinders. When the fluid reaches a higher speed, cavitation is created critical between the cylinders, i.e. the liquid enters a state of intense cold boiling and stirring. The gases released from the liquid through the system of holes 6 are sucked into the chamber 7, where a deep vacuum is created, for example, a vacuum pump. The degassed liquid enters the tank 9 and, if necessary, several times through chamber 4. The degassed liquid is taken by the consumer through pipeline 11.; To intensify the process, the length of the cavitation (approximately equal to the distance between rows of cylinders) is set is 3-70 bore diameters. At the same time, the time required for the cavitating fluid to move around in the gas suction zone and, moreover, the walls of chamber 4 do not wear out. The temperature increase also contributes to the intensification of the degassing process, since an increase in the temperature of the liquid cavitation starts earlier and at a lower flow rate of cylinders, Cavitation elements can also be non-cylindrical in shape, for example conical, elliptical SS etc. Claim 1. Degassing device includes a liquid-in chamber with nozzles of liquid inlet and gas outlet And gas in which cavitation elements are installed, characterized in that, in order to intensify the process by improving cavitation, cavitation elements are made in the form of cylinders arranged in rows chambers, and in the chamber walls, behind each row of cylinders, holes are made, connected to the gas outlet pipe. 2. The device according to claim 1, about tl and the fact that the rows of cylinders are installed from each other at a distance equal to 3-70 diameters. cylinder. Sources of information taken into account in examination 1, USSR Author's Certificate No. 462802, class C. 02 B 1/10, 1976. 2, .Patent of England 1156417, class. In 1 M, 1969 Gprotioty), ten KG Schz 3 ft B   -eit one/ .2