SU1495529A2 - Wave-type pressure exchanger - Google Patents

Abstract

The invention can be used in turbochargers for internal combustion engines. The purpose of the invention is to increase the reliability and efficiency of the wave pressure exchanger by reducing the loss of mixing of the compressed air jets at the exit, intensifying the wave effects and ensuring the centrifugal effect of channel cleaning. The throat circumference of the unipolar hyperboloid of rotation is displaced in the direction towards its base from the side of the windows 4.5 inlet and outlet of compressible gas. The diameter of the side surface located on the side of the windows 2.3 of compressible gas exceeds the diameter of the side surface on the side of the windows 4.5. 3 il.

Description

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The invention relates to mechanical engineering, can be used in pressurization devices for internal combustion engines by direct exchange of energy between the exhaust gases and charge air and is. perfection of the invention auth.St. № 13431 23 ,,

The purpose of the invention is to increase the reliability of operation and efficiency by reducing the loss of mixing of compressed air jets when exiting the intensification of wave effects and ensuring the centrifugal effect of channel cleaning.

Figo depicts a wave pressure exchange, longitudinal section; FIG. 2 shows a section A-A in FIG. 1; FIG. 3 shows a section B-B in FIG.

The wave pressure exchanger contains a housing 1 with windows 2-5 for supplying and discharging compressive and compressible gases and a drum 6, accessories for pressure exchange channels 7 with inlet 8 and outlet 9 holes, Axes of channels

7 are located along forming a single-cavity hyperboloid of rotation coaxial to the axis of the drum 6, and the input

8 and the outlet 9 holes of each channel 7 are located on its side surface. The throat circumference of the monotonic hyperboloid of rotation is displaced in the direction towards its base from the side of windows 4 and 5 of the supply and removal of compressible gas about the diameter D of the lateral surface located

from the side of windows 2 and 3 of the supply and removal of compressing gas, made greater than the diameter T) of the lateral surface from the side of windows 4 and 5 of the supply and removal of compressible gas

Wave exchanger works as follows

When the inlet opening 8 is aligned with window 2, pressure wave begins to propagate along the pressure exchange channel 7, the gas in it (air) begins to flow. By the time the wave reaches pressure at the outlet 9, the latter is in communication with window 5, and compressed air

starts to expire from the pressure exchange channel 7-,

The process of exhaustion of air continues until the approach to the window 5 of the rarefaction wave, which is formed as a result of the passage of the inlet 8 of the window 2 during the rotation of the drum 6

Upon further rotation of the latter, the inlet hole 8 communicates with window 3, through which the compressing gas flows out. The resulting dilution wave reaches hole 9 at the time of communication with window 4. As a result of a double reflection of the wave from the open ends of the flow-exchange channel 7, fan and filling. Channel cleaning

7, the exhaust gas is promoted by the centrifugal force acting on the gas as a result of the rotation of the channel 7 around the axis of the drum 6. Then the cycle repeats. An increase in the efficiency of high-pressure exchange processes is achieved by increasing the speed of the inlet connection.

8k to windows 2 and 3, as well as reducing the loss of jet displacement in the nozzle of window 3 due to a decrease in the distance between the outlets 9.

Claims (1)

Invention Formula Wave pressure exchanger according to automatic number 1343123, characterized in that, in order to increase reliability and efficiency by reducing loss of mixing of compressed gas jets at the exit, intensifying wave effects and ensuring the centrifugal effect of channel cleaning, the circumference of a single-cavity hyperboloid of rotation is displaced towards its base from the side of the supply and removal of compressible gas, and the diameter of the side surface located on the side of the supply and removal of the compressible gas, is made larger than the diameter of the side th surface from the windows of the supply and removal of compressible gas Editor 0. Head 9ut3 Compiled by L. Aisisimova Tehred A. Kravchuk Order A233 / 33 Circulation 522 BEARS OF THE STATE COMMITTEE ON INVENTIONS AND OPENINGS AT THE SCST OF THE USSR 113035, Moscow, Zh-35, 4/5 Raushsk nab. Proofreader I. Muska Subscription