SU1575047A1 - Condenser - Google Patents

Abstract

The invention relates to vacuum technology, in particular to capacitors for a medium moving at supersonic speed, used in gas-dynamic systems for discharging rarefied gases. By using the invention, the gas dynamic losses in the condenser are reduced. The condenser contains a series-mounted chamber (K) 1 mixed with an inlet section 2 and a separator (C) 3, as well as a condensate drain collector 4 and a cooler. C 3 is set at an angle to K 1, less than the limiting angle of the oblique shock wave. Wall 5 С 3, located at an obtuse angle to the flow direction in K 1, intersects with an imaginary plane 6, to which the opposite wall 7 K 1 belongs. At the exit wall section 5 С 3 a groove 8 is made, communicating with the collector 4. 1 Il.

Description

The invention relates to vacuum | technique, in particular, to capacitors for a medium moving at supersonic speed, used in gasdynamic systems for discharging discharged gases.

The purpose of the invention is the reduction of gas-dynamic losses in the condenser along the gas stream. ed

I The drawing schematically shows the arrangement of a capacitor.

| The capacitor contains sequentially mounted mixing chamber 1 with the output section 2 and the separator 3, forming channels of rectangular cross section. The condenser contains taffe collector 4 condensate drain and cooler. The separator 3 is installed at an angle to the mixing chamber 1, less than 2θ chic of the limiting angle of the oblique jump yn. The wall 5 of the separator 3, located at an obtuse angle to the direction of flow in the mixing chamber 1, intersects with an imaginary plane 25 of the bone 6, to which the opposite wall 7 of the mixing chamber 1 belongs. A groove 8 is made in the outlet section of the wall 5 of the separator 3, which is in communication with the collector 4 of the condensate outlet and the cooler. The mixing chamber 1 is provided with a casing 9 from the collectors 10 for supplying a cooler.

The condenser works as follows, 35 ί Hot vapor-gas mixture enters the inlet section 2 of the condenser cd at a supersonic speed. In the mixing chamber 1, a cooler is injected into the vapor-gas mixture stream in the form of jets emerging from the openings of the casing 9. The cooler is mixed with steam and condenses a significant part of it. In the separator 3, when the flow meets the wall 5, located at an obtuse angle to the direction of flow, an oblique shock wave is established in which the supersonic flow is tuned in the direction of the separator channel. Inertia drops of condensate and cooler do not change the direction of movement and fall on the wall 5, on which a liquid film is formed. The specified film moves along the wall 5 and enters the groove 8, from which it is removed using the collector 4 _{0 The} supersonic gas stream freed from the liquid is removed from the condenser.

The proposed capacitor allows you to condense the steam and separate the condensate of the supersonic flow with low gas-dynamic losses.

Claims (1)

Claim A condenser for a medium moving at a supersonic speed, comprising sequentially mounted mixing chamber with an inlet section and a separator forming rectangular channels and a condensate and cooler drain manifold, characterized in that, in order to reduce gas-dynamic losses, the separator is installed at an angle to the chamber mixing, smaller than the limiting angle of the oblique shock wave, and its wall, located at an obtuse angle to the direction of flow in the displacement chamber, intersects with an imaginary plane to which rinadlezhit opposing mixing chamber wall, and at the outlet portion of said separator wall a groove communicated with the condensate collector and the coolant outlet.