RU2181859C1 - Instant boiling apparatus - Google Patents

Abstract

FIELD: evaporation equipment. SUBSTANCE: invention can be used for desalination and concentration of highly mineralized and slime-carrying liquids in instant boiling plants. Instant boiling apparatus has inlet chamber with tangential feeding branch pipe, pipe to release steam, outlet chamber with branch pipe to discharge working fluid, adapter with throttle made in the form of truncated cone that includes internal conduit for additional release of steam and is uniaxially installed in face cover of outlet chamber with use of threaded connection. EFFECT: raised steam production, simplified control over throttle. 2 dwg

Description

 The present invention relates to evaporation technology and can be used for desalination and concentration of highly mineralized and sludge-containing liquids in flash boilers.

 Known, for example, an apparatus for instant boiling over a. from. 354869 (OB 31, 1972, p. 23) for evaporating solutions, comprising a housing with nozzles for introducing and discharging the mixture and removing secondary steam (available in the claimed object), a separator, a vertical partition dividing the apparatus into boiling and separation chambers, and distribution grid over which the nozzle is placed in the form of Raschig rings.

 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.

 Adopted as a prototype is also known a steam generating device that can be used for desalination of liquids, as 620731 (OB 31, 1978, p.111), containing an inlet chamber with a tangential inlet pipe (available in the claimed object), a pipe for removing steam (available in the declared object), an output chamber for draining liquid (available in the declared object) , an adapter expanding along the fluid (available in the declared object), in which a throttle is installed (available in the declared object) with a bellows, into which gas is supplied to move the throttle.

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

 An object of the present invention is to increase the amount of steam discharged and simplify throttle control.

The technical result consists in increasing the productivity of the installation in pairs (up to 15 g / dm ² s).

 The technical result is achieved by the fact that in an instant boiling apparatus containing an inlet chamber with a tangential inlet pipe, a steam pipe, an outlet chamber with a pipe for draining the working fluid, an adapter with a throttle, the throttle is made in the form of a truncated cone, has an internal channel for additional tap pair and mounted coaxially through a threaded connection in the end cap of the outlet chamber.

 Figure 1 presents a General view of this device; and figure 2 is a section along aa of figure 1.

 The device comprises an inlet chamber 1 with a tangential inlet pipe 2 and a coaxially mounted cap 3 of the pipe 4 for venting steam. The chamber 1 is connected in the central part of the bottom 5 to the outlet chamber 6. The chambers 1 and 6 are connected upstream by an adapter 7, in which a throttle 8 is installed, inside which a channel 9 is made for additional steam removal, and the output chamber 6 has a pipe 10 for draining the liquid . The throttle 7 is installed in the end cap 11 of the output chamber 6 through a threaded connection.

 The device operates as follows.

 The superheated working fluid is fed through the tangential inlet pipe 2 to the inlet chamber 1. 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 the Bernoulli law decreases and becomes less than the saturation pressure at a certain swirl radius for a given temperature, causing the liquid to boil. Steam is collected in the center of the vortex chamber 1 and is discharged to the consumer through the pipe 4 and channel 9 of the inductor 8. The presence of channel 9 in the throttle 8 contributes to an increase in the amount of steam discharged, and the swirling liquid itself simultaneously contributes to the separation of the steam. The remaining working fluid is more concentrated and through the gap formed between the transition 7 and the throttle 8, enters the outlet chamber 6, from which it is discharged through the pipe 10.

 The optimal clearance between the transition 7 and the throttle 8 at different flow rates of the working fluid is due to the axial movement of the throttle 8 along the thread with a manual or mechanical drive.

 Thus, throttle control is simplified and the device’s steam performance is increased by increasing the amount of steam discharged.

Claims (1)

 An instant boiling apparatus containing an inlet chamber with a tangential inlet pipe, a pipe for exhausting steam, an outlet chamber with a pipe for draining the working fluid, an adapter with a throttle, characterized in that the throttle is made in the form of a truncated cone, has an internal channel for additional steam removal and is installed coaxially through a threaded connection in the end cap of the outlet chamber.

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