RU2406021C1 - Instant boiling device - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: device comprises inlet chamber with tangential supply nozzle, channel for steam drain, outlet chamber with nozzle for working fluid drain, throttle installed inside outlet chamber to form a transition channel, which connects inlet and outlet chambers, and having inner channel for steam drain, mounted in end cover of inlet chamber, at the same time device is equipped with the second outlet chamber with nozzle for working fluid drain installed over inlet chamber and coaxially to it, the second throttle installed inside the second output chamber to form a transition channel that connects the second outlet and the second inlet chambers, and having inner chanel connected to steam drain channel, at one side, and to end cover of the second outlet chamber, at the other side.

EFFECT: increased amount of drained steam.

2 dwg

Description

The invention relates to evaporation technology and can be used for desalination and concentration of highly mineralized and sludge-containing liquids in instant boiling units.

Known instant boiling apparatus for evaporating solutions, comprising a housing with nozzles for introducing and discharging the mixture and removing secondary steam, a separator, a vertical baffle separating the apparatus into boiling and separation chambers, as well as a distribution grid over which a nozzle in the form of Raschig rings is placed.

(SU, AS No. 354869, A1, B01D 1/00, 1972)

The disadvantage of this device is that it has a low specific steam capacity per unit boiling surface and requires a separator to produce steam with a high degree of dryness.

Also known is a steam generating device that can be used for desalination of liquids, containing an inlet chamber with a tangential inlet pipe, a channel for discharging steam, an outlet chamber for discharging liquid, an adapter expanding along the liquid, in which a throttle with a bellows is installed, inside of which to move the throttle supply gas.

(SU, AS No. 620731 A1, F22B 3/00, 1978)

The disadvantage of this device is that it has insufficient steam removal performance and complicated throttle movement control.

The closest in technical essence and the achieved result is an instant boiling apparatus containing an inlet chamber with a tangential inlet pipe, a channel for withdrawing steam, an outlet chamber with a pipe for draining the working fluid, a truncated cone throttle installed inside the output chamber with the formation of a transition channel, connecting the input and output chambers, and having an internal channel for venting steam.

(RU, patent No. 2181859 C1, F22B 3/04, 2002)

However, this device has a relatively low productivity due to the limitation of the volume of working fluid supplied to the apparatus and the limitation of the amount of steam produced.

The objective of the invention is to increase the productivity of the device by increasing the channels for draining the working fluid.

The technical result of the invention is to increase the amount of steam released.

The specified technical result is achieved by the fact that in the instant boiling apparatus containing an inlet chamber with a tangential inlet pipe, a channel for withdrawing steam, an outlet chamber with a pipe for draining the working fluid, a throttle installed inside the outlet chamber with the formation of a transition channel connecting the input and output chambers , and having an internal channel for the removal of steam mounted in the end cap of the output chamber, according to the invention, the apparatus is equipped with a second output chamber with a pipe for the removal of working liquid installed above the inlet chamber and coaxially with it, the second throttle installed inside the second output chamber with the formation of the transition channel connecting the second output and input chambers, and having an internal channel connected to the channel for the removal of steam on one side and with the end cover of the second output camera on the other hand.

The invention is illustrated by the following drawings:

figure 1 schematically, in section, presents a General view of the apparatus of instant boiling, in which the throttle is made in the form of a truncated cone; figure 2 - apparatus, top view of figure 1.

The instant boiling apparatus comprises an inlet chamber 1 with a tangential inlet pipe 2, a channel 3 for venting steam, an outlet chamber 4 with a nozzle 5 for draining the working fluid, a throttle 6 in the form of a truncated cone, which can be made of any shape installed inside the outlet chamber 4 s the formation of the transition channel 7 (adapter) connecting the input and output chambers 1 and 4, respectively, and having an internal channel 8 for removing steam, mounted in the end cover 9 of the output chamber 4. In addition, the apparatus contains a second output a chamber 10 with a pipe 11 for discharging a working fluid installed above and in alignment with the inlet chamber 1, a second choke 12 in the form of a truncated cone mounted inside the second outlet chamber 10 to form a transition channel 13 (adapter) connecting the second outlet and inlet chambers 10 and 1, respectively, while the second choke 12 has an internal channel 14 connected to the channel 3 for venting steam on one side and with the end cover 15 of the second output chamber 10 on the other hand.

The device operates as follows.

The working fluid, preheated to a temperature below the saturation temperature, is fed through a tangential pipe 2 to the inlet chamber 1 at a given pressure. When the working fluid moves to the center of the inlet chamber 1, due to the conservation of angular momentum, its speed increases, and the pressure in accordance with Bernoulli’s law drops and at a certain twist radius it becomes less than the saturation pressure for a given temperature, as a result of which the liquid boils, removing heat from the working fluid.

The steam is collected in the center of the vortex inlet chamber 1 and through channel 3, internal channels 8 and 14 of the chokes 6 and 12, respectively, are discharged to the consumer. One part of the concentrated working fluid through the transition channel 7, formed between the inductor 6 and the surface of the outlet chamber 4, enters the outlet chamber 4, from which it is discharged through the nozzle 5. Another part of the concentrated working fluid through the transition channel 13, formed between the inductor 12 and the surface of the second output chamber 10, enters the second output chamber 10, from which is discharged through the pipe 11.

The optimal gaps of the transition channel 7 of the output chamber 4 and the transition channel 13 of the second output chamber 10 are set due to the axial movement of the chokes 6 and 12, respectively.

The introduction of the second output chamber 10 for draining the working fluid allows you to increase the volume of the supplied working fluid and to ensure its regulation. The presence in the throttle 6 of the internal channel 8 installed in the cover 9, and in the throttle 12 of the internal channel 14 installed in the cover 15, increases the amount of steam discharged in comparison with the prototype. Tests of the prototype of the proposed device showed that the combination of all design features allows you to increase the performance of the tested device by more than 20% compared with the prototype. At the same time, it was found that an increase in the productivity of the device by 20% was achieved when performing a throttle of any shape.

Claims (1)

An instant boiling apparatus comprising an inlet chamber with a tangential inlet pipe, a channel for discharging steam, an outlet chamber with a pipe for discharging the working fluid, a throttle installed inside the outlet chamber with the formation of a transition channel connecting the inlet and outlet chambers, and having an internal channel for discharging steam mounted in the end cap of the outlet chamber, characterized in that the apparatus is equipped with a second outlet chamber with a nozzle for draining the working fluid mounted above the inlet chamber and coaxially with s, the second inductor mounted within the second discharge chamber to form a transition channel connecting the second inlet and outlet chamber and having an internal passage connected to the channel for discharging vapor from one side and with the second end cap outlet chamber on the other side.

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