SU1015231A1 - Condenser - Google Patents

Abstract

A CONDENSER containing a case provided on the inner surface of the side wall with a porous layer of lyophobic material and separated by a porous cermet wall with cooling pipes placed inside it to the central supply and peripheral outlet channels, the latter of which is connected to the condensate collector with its end section in which zone the side the wall of the housing is perforated, characterized in that, in order to increase the reliability of operation by reducing the capture of non-condensing gas in ondensatosbornik, the end portion of the peripheral channel is separated from the condensate more perforated baffle, provided with a side peripheral channel layer of the lyophilic porous material and arranged with a bias toward the side wall of the housing. § (L 01 co

Description

The invention relates to heat engineering and can be used in devices for the separation of gas-vapor mixtures under weightless conditions.

Known capacitor, comprising a housing with an inlet pipe and a porous cermet wall, inside of which are placed the cooling tubes, as well as a condensate collector located in the lower part of the housing 1.

The disadvantage of this condenser is that it is designed to condense and trap vapors of the freeze-dried product condensing as a solid structure. This narrows its operational capabilities and limits its scope. In addition, the condensation process must periodically be stopped to thaw the frozen product.

Closest to the present invention is a condenser comprising a housing provided on the inner surface of the side wall with a porous layer of lyophobic material and a divided porous cermet wall with cooling pipes placed inside it to the central supply and peripheral discharge channels, and the latter is in communication with the condensate collector in its end section , in the zone of which the side wall of the housing is perforated 2.

A disadvantage of the known condenser is the reduced reliability of operation due to the increased capture of non-condensable gas in the condensate trap.

The purpose of the invention is to increase the reliability of the condenser by reducing the capture of non-condensing gas. in the condensate collector.

This goal is achieved by the fact that in a known capacitor comprising a housing provided on the inner surface of the side wall with a porous layer of lyophobic material and separated by a porous cermet wall with cooling pipes placed inside it to the central supply and peripheral outlet channels, the latter of which is connected to the condensate collector with its end section, in the zone of which the side wall of the housing is perforated, the end section of the peripheral channel is separated from the condensate drain rnika more perforated baffle, provided by the peripheral channel of the lyophilic porous material layer and arranged with a bias toward the side wall of the housing.

The drawing shows schematically a condenser, a general view.

The condenser comprises a housing 1 provided on the inner surface of the side wall with a porous layer 2 of a lyophobic material and divided by a porous cermet wall 3 with cooling pipes 4 placed inside it to the central supply channel 5 and peripheral discharge channel 6. Its last terminal 5 communicates with the condensate collector 7. section, in the zone of which the side wall of the housing 1 is perforated. The end section of the peripheral channel 6 is separated from the condensate collector 7 by a perforated partition 8, equipped with

On the side of the peripheral channel 6 with a layer 9 of a porous lyophilic material and located with a slope towards the side wall of the housing 1. In the zone of the initial section of the channel, the side wall of the housing 1 is solid.

The capacitor works as follows.

The vapor-vapor mixture under pressure is directed from the inlet channel 5 through the porous wall 3 with cooling pipes 4 into the outlet channel 6. The vapor-vapor mixture is cooled and the steam is completely condensed inside the porous material of the wall 3. The condensate saturates the porous wall 3 and is squeezed out of non-condensing gas. the external surface of the wall 3. Non-condensable gas, due to the fact that the side wall of the housing 1 in the zone of the initial section of the discharge channel 6 is made flat, flows along the channel 6 in the direction of the condensate collection chamber 7 and forcing the same direction in the main part of the condensate, which moves as a film on the wall surface 3 vneschney.

Another part of the liquid in the form of droplets formed by the passage of non-condensing gas through the liquid film on the external surface of the porous wall 3 moves along the layer 2 of lyophobic porous material or in a gas stream. After the gas-liquid flow reaches the output section of the channels 6,

Q continuous gas removal through the layer 2 of the porous lyophobic material and the perforated wall section of the housing 1. At the same time, the gas-liquid mixture is continuously supplied from the porous cermet wall 3. The overall direction of the gas-liquid flow is maintained along channel 6, but the fluid content in the flow is continuously increasing. Passing along the porous cermet wall 3, the gas-liquid flow enters a wedge-shaped converging channel formed

0 a layer 2 of porous lyophobic material on the side wall of the housing 1 and a porous freeze layer 9 on the partition 8. When this moves the liquid film moving along the porous metal-ceramic wall 3 onto the porous freeze layer 9.

5 in the wedge-shaped channel there is a continuous phase rejection through porous materials permeable to them - liquid through

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layer 9 and partition 8 get into the condensate through them. In the corner of the wedge-shaped skosatosbornik 7, the gas through the layer 2 is discharged to the spherical channel there is a complete delamination

out. Available in gas-liquid gas-liquid flow and complete drainage

dispersed aggregates (drops of liquid phases through permeable for them, they are porous

or vapor bubbles) drift to the corner of the cana materials.

la and / three reaching the cross section of the channel, 5 The proposed device is a capacitor

where their size is equal to the channel width, these argens allow the capture of non-condensing units to touch the surface of the permeable gas to the condensate collector 7, which are beneath them, spread along them and improve the reliability of the capacitor.

1015231

Claims (1)

A CAPACITOR comprising a housing provided on the inner surface of the side wall with a porous layer of lyophobic material and separated by a porous cermet wall with cooling pipes placed inside it into a central inlet and peripheral outlet channels, the last of which is connected to the condensate collector by its final section, in the area of which the side wall the housing is perforated, characterized in that, in order to improve reliability by reducing the capture of non-condensable gas in the condensate Sato collector, the final section of the peripheral channel is separated from the condensate collector by an additional perforated partition provided with a layer of porous lyophilic material on the side of the peripheral channel and located with a slope towards the side wall of the housing.