SU1151721A1 - Jet-type pump - Google Patents

Abstract

JET PUMP, comprising a housing with an axial inlet for supplying a passive medium, a transitional confusor section and a cylindrical mixing chamber and arranged around the circumference coaxially with the nozzle, active nozzles located at an acute angle to the axis of the housing in front of the confusion section, characterized in that, in order to increase the ejection coefficient The angle of the nozzles is 6-10 ° C, and the diameters of the circumference and inlet section of the confuser section are 1.1 -1.5 and 1.2-2.0, respectively, of the diameter of the displacement chamber. (L SP 1s

Description

This invention relates to the field of jet apparatus.

FIG. 1 shows a jet pump, a longitudinal section; in fig. 2 shows experimental dependences of the ejection coefficient K on the ratio of the diameter of the circle (d) to the diameter (dj) of the mixing chamber with the ratio of the diameter (d) of the inlet cross section of the confuser section to the diameter (d) of the mixing chamber equal to 2.33 and for different values of (b) the total pressure of the ejecting gas and the ejected gas; in fig. 3 - experimental dependences of K on the ratio dj / ds with di / d2 l, 2-1.35.

The jet pump includes a housing 1 with an axial nozzle 2 for supplying a passive medium, a transitional confused section 3 and a cylindrical mixing chamber 4 and coaxially arranged around the circumference of the nozzle 2 active nozzles 5 located at an acute angle of ° C to the axis of the housing 1 in front of the confusing section 3; nozzles 5 is equal to 6-10 °. and the diameters d. and d circumference and inlet section

confuser section 3 are respectively 1.1 -1.5 and 1.2-2.0 of the diameter d of the mixing chamber 4.

Jet pump works in the following way.

The active gas entering the transitional confused section 3 through the nozzles 5 ejects the passive medium supplied through the nozzle 2. The energy exchange between the active and passive media begins in section 3 and ends in the mixing chamber 4, as a result of which the pressure of the passive medium increases. Placing the nozzles 5 at an angle of 6-10 ° to the axis of the housing and the choice of the geometry of the flow path (dx (1.2-2.0) dj nd (1.1 -1.5) dj) allows to achieve high efficiency in this jet pump mix active and passive environments.

Thus, in the jet pump of the described geometry, a more complete exchange of energy occurs between the active and passive media, which leads to an increase in the ejection coefficient.

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150

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FIG. 2

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Claims (1)

A JET PUMP comprising a housing with an axial nozzle for supplying a passive medium, a transitional confuser section and a cylindrical mixing chamber and active nozzles arranged at a sharp angle to the axis of the housing in front of the confuser section, coaxial with the nozzle, characterized in that, in order to increase the ejection coefficient , the nozzle angle is 6–10 °, and the diameters of the circle and the inlet section of the confuser section are 1.1–1.5 and 1.2–2.0 of the diameter of the mixing chamber, respectively.