UA82766C2 - Stage of evaporator of instantaneous boiling - Google Patents

Abstract

The invention relates to heat engineering and is intended for obtaining the feeding water of heating systems, boiler rooms, systems of hot water supply and can be used in petrochemical, pharmaceutical, electronic and some branches of food industry. A stage of evaporator of instantaneous boiling contains a housing divide wall 2, which divides the stage of evaporator into a condensation chamber 3 with heat exchange pipes 4 and an expansion chamber vertical screen separator 6 with pipe 7 for removal of separated water fastened in the divide wall 2, nozzles 15 and 17 for supply and removal of water respectively, branch pipe 18 for removal of distillate, a vertical partition 8, which is located along divide wall 2 and form two cavities 11 and 12, which are connected between them in pairs in the lower part of the chamber of expansion 5; moreover cavity the upper part is equipped, at least, with one water-distribution nozzle 13 with a channel 14 for supply of superheated water of water-distribution chamber 16, the vertical partition its basis is equipped with an angle element, which forms an inclined plane 9 and parallel to the basis of housing a horizontal plane this case the inclined plane of 9 angle elements is turned to the end wall of housing 1 of the stage and forms with vertical partition 8 an obtuse angle, which is equal to 135-170°, and the water-distribution nozzle 13 is made with a skew shear, also turned to the end wall of housing 1 of the stage, in this case the angle of the shear of water-distribution nozzle makes 10-45°. The invention makes it possible to increase the output of the stage of evaporator due to increase of the flow rate and provision of preliminary separation while maintaining the quality of distillate, overall sizes of the stage and low values of non-boiling of liquid.

Description

The invention relates to the field of heat engineering, is intended for the preparation of make-up water for heating networks, boiler rooms, hot water supply systems and can be used in the petrochemical, pharmaceutical, electronic and some branches of the food industry.

Thermal water desalination is one of the alternative methods of obtaining high-quality water without the use of expensive chemical reagents, as well as expensive elimination or processing of chemical desalination wastewater.

Obtaining distillate by thermal desalination is cost-effective and accompanied by a minimal harmful impact on the environment compared to the most modern technologies of chemical desalination or reverse osmosis.

The stage of the instant-boiling evaporator is known, which includes a housing, a dividing partition that is hermetically fixed in the housing with the formation of evaporation and condensation chambers, a separator installed in the partition that allows steam to pass through and separates moisture, while the housing is equipped with water inlet and outlet nozzles and an outlet nozzle condensate | see author's certificate of the USSR Mo1733032, IPC VOT1O 3/06, priority from 12.25.1989, published on 05.15.1992, p. Me18, 1992, The stage of the flash-boiling evaporator".

The disadvantage of the known device is that water droplets sprayed with steam, which did not turn into steam during the boiling of the flow in the evaporation chamber, fall unhindered on the separator together with the steam, reducing its efficiency and the quality of the distillate.

Also known is the stage of the flash-boiling evaporator, which contains a housing, a dividing wall that divides the stage of the evaporator into condensation and expansion chambers, a vertical louvered separator fixed in the dividing wall, nozzles for supplying and removing evaporated water, a nozzle for removing distillate, a vertical partition, which is located along the dividing wall and forms two cavities that communicate with each other in pairs in the lower part of the chamber, and the cavity, which is formed by the vertical partition and the body of the stage, is equipped with channels for supplying superheated water in the upper part, and at least one additional vertical partition , while the vertical partitions in the lower part are equipped with grooves for collecting and draining moisture, and the cavity formed by the vertical partition and the partition wall is equipped with a separate horizontal partition, which is installed with a gap to the partition wall and forms with the vertical partition a channel for passage marriage ceremony | see certificate for a utility model of the Russian Federation Me31337, IPC VO1O 3/06, priority from 03.31.2003, published on 08.10.2003, "Instantaneous boiling evaporator stage").

In the well-known stage of the instant-boiling evaporator, superheated water, entering through channels for supplying superheated water to the expansion chamber, boils, while the flow of steam, together with the water droplets captured by the steam, is divided into separate streams by means of an additional vertical partition and is further directed to the separator, bypassing the partitions in bottom of the camera.

A vertical partition, which divides the chamber into two cavities, protects the separator from ingress of water during its spraying.

The greater the expansion of water (that is, the greater the temperature difference per degree), the more water that is splashed by steam hits the vertical partitions and flows down.

The disadvantage of the known device is that, despite the presence of grooves, at high flow velocities that occur when bypassing the vertical partitions, the water that flows from the partitions in a continuous stream is captured and carried into the separator, which reduces the efficiency of the stage and the quality of the distillate .

The closest in terms of technical essence to the claimed device is the instant boiling evaporator stage, which contains a housing, a partition wall that divides the evaporator stage into condensation and expansion chambers, a vertical louvered separator fixed in the partition wall, nozzles for supplying and removing evaporated water , a nozzle for removing the distillate, a vertical partition located along the dividing wall and forming two cavities connected to each other by a pair in the lower part of the chamber, and the cavity formed by the vertical partition and the body of the stage is equipped in the upper part with at least one water distribution nozzle with a channel for supplying superheated water, while in the vertical partition in its upper part a hole is made, the height of which does not exceed the length of the water distribution nozzle | see. patent of the Russian Federation for the utility model of the Russian Federation Me43188, IPC VO10 3/06, 1/26, priority from 10.01.2004, published on 10.01.2005, Instant boiling evaporator stage").

The presence of a water distribution nozzle allows the formation of an output flow of liquid that boils in the free volume of the expansion chamber, while part of the water turns into steam, and part of it is sprayed with steam.

The presence of a hole in the upper part of the vertical partition ensures a two-way supply of steam to the separator, which reduces the speed of the steam flow and thereby excludes the capture of large drops of water flowing down the partition in the lower part of the chamber, but does not exclude the direct entry of the smallest water droplets that have not transformed into steam, together with steam into the separator in the absence of effective preliminary separation of steam, which is a drawback of the known design.

In addition, with large temperature differences by one degree (i.e., large overheating of water), when the opening angle of the water jet flowing from the straight section of the water distribution nozzle is very large during expansion, it is possible for water to overflow through the hole when hitting the wall or under the influence of an upward flow couples

The technical result of the claimed invention consists in increasing the productivity of the evaporator stage by increasing the flow rate and ensuring preliminary separation while maintaining the quality of the distillate, the dimensions of the stage and low values of non-boiling of the liquid.

The technical result is achieved by the fact that in the declared stage of the instant-boiling evaporator, which contains a housing, a partition wall that divides the evaporator stage into condensation and expansion chambers, a vertical louvered separator fixed in the partition wall, nozzles for supplying and removing evaporated water, nozzles for removal distillate, a vertical partition, which is located along the dividing wall and forms two cavities that communicate with each other in pairs in the lower part of the expansion chamber, and the cavity, which is formed by the vertical partition and the body of the stage, is equipped in the upper part with at least one water distribution nozzle with a channel for supplying superheated water, according to the invention, the vertical partition at its base is equipped with a corner element that forms an inclined plane and a horizontal plane parallel to the base of the housing, while the inclined plane of the corner element is turned to the end wall of the step housing and forms a vertical partition with yu obtuse angle, which is equal to 135-170", and the water distribution nozzle is made with an oblique cut, also turned to the end wall of the step body, while the water distribution nozzle cut angle is 10-45".

The liquid flow coming out of the water distribution nozzle boils in the free volume of the expansion chamber, while part of the water turns into steam, and part is sprayed with steam, and due to the oblique section of the water distribution nozzle, turned to the end wall of the housing, the angle of the section of which is 10-45", the steam-water flow immediately deflects towards the body.

At the same time, the amount of water that falls on the vertical partition and the inclined plane of the corner element during spraying is sharply reduced, which is especially important for medium and large expansions of the steam-water flow (i.e., medium and large temperature differences), because it avoids the appearance of a large amount of water, which flows from the inclined partition and is an obstacle in the path of the steam-water flow, and in the case of high speeds of movement of the steam-water flow, to prevent its insufficient or late boiling.

Due to the oblique section of the water distribution nozzle and the inclined plane of the corner element, the free passage of the steam-water flow, which continues to expand, and low values of non-boiling of water are ensured due to the reduction of the hydraulic resistance of the flow, which goes around the inclined plane and passes under the horizontal plane of the corner element.

At a cut angle of less than 10", the flow of water, which flows from the inclined partition, prevents the movement of the steam-water flow.

At a cutting angle greater than 45", firstly, the erosive wear of the end wall of the case increases due to the pressure of the steam flow, and secondly, the incomplete boiling (non-boiling) of the liquid increases due to the increase in the hydraulic resistance of the steam-water flow on the approach to the horizontal plane.

In addition, at a cutting angle greater than 45", the splashing of the flowing liquid flow is greatly reduced, which also increases its non-boiling.

Execution of a corner element at the base of the vertical partition, which forms an inclined plane and a horizontal plane parallel to the base of the body, where the obtuse angle formed by the vertical partition and the inclined plane of the corner element with which it is equipped is equal to 135-170", allows you to repeatedly change the direction of steam flow, accelerate the steam-water flow and increase its speed, separate water and steam flows due to the action of centrifugal and gravitational forces and settle the smallest water droplets of the steam-water flow before the flow enters the separator, which ensures effective preliminary separation of steam.

As a result, the moisture content of the steam entering the louvered separator at an increased rate is reduced, which improves the performance of the separator and, therefore, the evaporator stage.

At the same time, increasing the productivity of the evaporator stage is achieved while maintaining the high quality of the distillate and without increasing the dimensions of the expansion chamber and the stage as a whole at low values of non-boiling water.

When the angle between the vertical partition and the inclined plane of the corner element is less than 135", the hydraulic resistance of the flow increases when going around the inclined plane of the corner element.

If the angle between the vertical partition and the inclined plane of the corner element is greater than 170", an increase in the speed of the steam-water flow is not ensured, which leads to the deposition of the smallest water droplets, i.e. preliminary separation of steam.

Technical solutions that would coincide with the set of essential features of the invention were not found, which allows us to conclude that the invention meets the condition of patentability of novelty."

The declared essential features of the invention, which cause the specified technical result to be obtained, clearly do not follow from the state of the art, which allows us to conclude that the invention meets the condition of patentability at the "inventive level".

The condition of patentability "industrial suitability" is confirmed on the example of a specific implementation.

The figure shows the stage of the flash-boiling evaporator in cross-section.

The stage of the flash-boiling evaporator includes a body 1, a partition wall 2, a condensation chamber C with heat exchange tubes 4, an expansion chamber 5, a vertical louvered separator 6, which is fixed in the partition wall 2, a separated water discharge pipe 7, which is located along the partition wall 2, a vertical a partition 8 with an angular element at its base, which forms an inclined plane 9 facing the end wall of the housing, and a horizontal plane 10 parallel to the base of the housing, and which forms two cavities 11 and 12, which communicate with each other in pairs in the lower part of the expansion chamber 5 through the horizontal plane 10 of the corner element parallel to the base of the body.

The cavity 11, which is formed by a vertical partition 8 with a corner element at its base and a case of 1 stage, is equipped in the upper part with at least one water distribution nozzle 13 with a channel for supplying superheated water 14.

In a specific embodiment, the inclined plane 9 facing the end wall of the housing 1 forms an angle with the vertical partition 8 equal to 160", and the angle of the cut of the water distribution nozzle 13, turned with its oblique cut towards the end wall of the housing 1, is 30".

Evaporated water is supplied through pipe 15 and water distribution chamber 16. Water is drained from expansion chamber 5 through pipe 17. Distillate is discharged through pipe 18.

The flash evaporator stage functions as follows.

Overheated water enters the expansion chamber 5 through the nozzle 15, the water distribution chamber 16, the channel 14 and the water distribution nozzle with an oblique cut 13, where it is boiled (expanded), during which the main part of the water turns into steam, and a part is sprayed with steam.

Due to the oblique cut of the water distribution nozzle 13, the steam-water flow is deflected to the end wall of the housing 1, sharply reducing the amount of water that falls on the vertical partition 8 and the inclined plane of the corner element 9 during spraying.

Next, the steam flow goes around the inclined plane of the corner element 9, passes under the horizontal plane 10 of the corner element in the lower part of the expansion chamber 5, and then goes around the horizontal plane 10 of the corner element, passing from the cavity 11 to the cavity 12.

In the process of encircling the corner element due to multiple changes in the direction of the flow, which moves at a high speed, preliminary separation of the steam is ensured.

Next, the flow enters the separator 6 fixed in the dividing wall 2, where part of the drops settles and is discharged through the pipe 7 to the bottom of the expansion chamber 5 and further - through the nozzle 17.

The stream purified from water droplets in the separator b enters the condensation chamber 3, where, passing through the intertube space, it condenses on the heat exchange tubes 4 and flows to the bottom of the condensation chamber 3.

The pure distillate from the bottom of the condensation chamber C is diverted to the consumer or enters the next stage of the flash-boiling evaporator through the nozzle 18.

The use of the stated degree of the instant-boiling evaporator in comparison with known technical solutions allows to increase the efficiency of the preliminary separation of the steam-water flow with a sharp increase in the flow speed and multiple changes in the direction of its movement, as a result, the humidity of the steam moving at a high speed decreases, which increases the performance of the separator.

As a result of increasing the productivity of the separator while maintaining the high quality of the distillate, the dimensions of the stage and small values of non-boiling of the liquid, it is possible to increase the productivity of the separator stage by 10-2095 and the load range of the stage by 20-12095 from the nominal.

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Claims (1)

The stage of the flash-boiling evaporator, which contains a housing, a partition wall that divides the evaporator stage into condensation and expansion chambers, a vertical louvered separator fixed in the partition wall, nozzles for supplying and removing evaporated water, a nozzle for removing distillate, a vertical partition that is located along partition wall and forms two cavities that communicate with each other in pairs in the lower part of the expansion chamber, and the cavity, which is formed by the vertical partition and the body of the step, is equipped in the upper part with at least one water distribution nozzle with a channel for supplying superheated water, which is distinguished by the fact that the vertical partition at its base is equipped with a corner element that forms an inclined plane and a horizontal plane parallel to the base of the housing, while the inclined plane of the corner element is turned to the end wall of the step housing and forms an obtuse angle with the vertical partition, which is equal to 135-170", and the water distribution the partial nozzle is made with an oblique cut, also turned to the end wall of the body of the step, while the cut angle of the water distribution nozzle is 10-457.