RU8443U1 - STEAM GENERATING DEVICE - Google Patents

Abstract

1. A steam generating device comprising a cylindrical body, separated by a transverse partition with a central hole in the inlet and outlet compartments, provided with tangential nozzles, respectively, for supplying and discharging the working fluid and a central pipe for venting the steam mounted on one of the end walls, wherein the inlet compartment has the shape of the confuser, passing along the working fluid into the diffuser, and the diameter of the central pipe for the removal of steam is less than the diameter of the central hole of the transverse partition, in that the outlet compartment has the shape of a confuser passing along the working fluid into the diffuser. 2. The device according to claim 1, characterized in that the tangential nozzles for supplying and discharging the working fluid are made in the form of a confuser and a diffuser, respectively, while the taper of the confuser is at least 20, and the cone of the diffuser is not more than 15.3. The device according to claim 1, characterized in that the Central pipe for the removal of steam is installed on the side of the input compartment so that its lower end protrudes into the input compartment at a distance of at least 0.2 of its diameter, and the inner edge of the protruding end has a rounding radius of at least 0.2 of its diameter. 4. The device according to claim 1, characterized in that the Central pipe for the removal of steam is installed on the side of the outlet compartment and its inner edge at the outlet of the compartment has a rounding radius of at least 0.2 of its diameter, while the diameter of the Central hole is at least 1.05 diameter of the central pipe. 5. The device according to claim 1, characterized in that the edges of the central hole of the transverse partition have a rounding radius of at least 0.2 its diameter

Description

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The technical field to which the utility model relates.

The inventive utility model relates to the field of power engineering, in particular to steam generating devices used in power plants for producing steam, which can also be used for phase separation of mixtures.

A steam generating device is known comprising a cylindrical body, separated by a transverse partition with a central opening in the inlet and outlet compartments, provided with tangential nozzles for supplying and discharging the working fluid, respectively, and a central pipe for discharging steam. The diameter of the central pipe for the steam outlet in the known device is smaller than the central hole of the transverse partition (see AS No. 4II269, class C, Р22В 29/08 1972).

The working fluid, previously heated in the heat exchanger to a temperature below the saturation temperature, is fed under pressure through a tangential pipe into the inlet compartment. With the passage of the working fluid to the center of the compartment, there comes a moment when the pressure in it becomes equal to the saturation pressure at a given temperature. With further movement, the liquid tends to pass into the center of the hole of the transverse septum. In this case, the swirl radius decreases and the speed of the working fluid increases (the law of conservation of angular momentum). The pressure of the working fluid becomes lower than the saturation pressure at a given temperature, and the fluid boils.

Bubbles of steam are collected in the center of the first part of the compartment, and the steam enters the consumer through the central pipe.

ШШ F 22 on 29/08

State of the art

From the inlet compartment, the working fluid enters the outlet compartment.

A disadvantage of the known steam generating device is the reduced quality of the steam discharged to the consumer. This is explained by the removal of droplets of liquid and solid particles along the walls of the housing by steam due to the loss of peripheral speed by liquid trays and solid particles on the flat walls of the compartments.

The flat-walled design of the compartments is the reason for another significant drawback of the known device, which consists in significant energy consumption for pumping the working fluid due to pressure loss in the compartments due to the large positive pressure gradient along the radius and insufficient radial velocity head.

Partially indicated disadvantages are eliminated in the known steam generating device comprising a cylindrical body divided by a transverse partition with a central opening at the inlet and outlet compartments. Tangential nozzles for supplying and discharging the working fluid are fixed on the side cylindrical wall of the housing. Central pipes are installed on the end walls of the casing for the removal of steam. The input compartment of the housing in the known device has the shape of a confuser, which passes along the working fluid into the diffuser.

The output compartment is flat-walled. The diameter of the central pipe for the steam outlet is less than the diameter of the central opening of the partition (see RF patent 2045700 MKI F 22 V 29/08, 1995).

Due to the curved profile of the inlet compartment, this device ensures the retention of moisture droplets and solid particles trapped on the compartment walls in a boiling volume. Made in the form of a confuser, passing along the working fluid into the diffuser, the inlet compartment provides the maximum amount of generated steam due to the radial increase in the evaporation mirror, an increase in the fluid velocity with a decrease in the passage section of the inlet compartment and an additional pressure drop due to its expansion.

However, the known steam generating device requires higher energy costs for pumping the working fluid due to the insufficient increase in fluid pressure when passing the unevaporated rotating residue thereof through the flat-walled outlet compartment.

There is a possibility of separation of the fluid flow from the walls due to the large positive pressure gradient along the radius and insufficient radial velocity head. This affects the quality of the resulting steam.

Utility Model Essence

To reduce energy consumption and further increase the quality of steam in a known steam generating device containing a cylindrical body, separated by a transverse partition with a central hole in the inlet and outlet compartments, equipped with tangential nozzles for supplying and discharging the working fluid and a central tube for removing the steam that is installed on one of end walls, in which the inlet compartment has the shape of a confuser, passing along the working fluid into the diffuser, and the diameter of the Central pipe for removal and the pair is smaller than the diameter of the Central hole of the transverse partition, according to a utility model, the output compartment has the shape of a confuser, passing along the working fluid into the diffuser.

It is also new that the tangential nozzles for supplying and discharging the working fluid are made in the form of a confuser and a diffuser, respectively, while the taper of the confuser is at least 20 °, and the cone of the diffuser is no more than 15.

In addition, the Central pipe for the removal of steam is installed on the side of the inlet compartment so that its lower end protrudes into the inlet compartment at a distance of not less than 0.2 of its diameter, and the inner edge of the protruding cone has a round-off radius of not less than 0.2 of its diameter.

The Central pipe for the removal of steam is installed on the side of the outlet compartment and its inner edge at the outlet of the compartment has a rounding radius of at least 0.2 of its diameter, while the diameter of the Central hole is at least I, 05 of the diameter of the Central pipe. This allows you to reduce the diameter of the case at a given performance.

The edges of the central hole of the transverse partition have a rounding radius of at least 0.2 of its diameter.

List of drawings

In FIG. I shows a general view of a steam generating device with a central pipe mounted on the inlet side.

In FIG. 2 is a general view of a steam generating device with a central pipe mounted on the outlet side.

In FIG. 3 is a section AA of FIG. I.

Information confirming the feasibility of implementing a utility model

The steam generating device comprises a general housing I, divided by a transverse partition 2 with a central opening 3 into the inlet compartment 4 and the outlet compartment 5.

Compartments 4 and 5 are in the form of confusers 6, passing along the working fluid into the diffusers 7.

The input compartment 4 is provided with a tangential pipe 8 for supplying a working fluid (fsch. 3), which has the shape of a confuser, the taper of which is at least 20. The output compartment 5 is equipped with a tangential pipe 9 for draining the working fluid, which has the shape of a diffuser, whose taper is not more than 15 °.

The device is equipped with a central pipe 10 giving the steam outlet mounted on one of the end walls of the casing of the housing I, the diameter of which is less than the diameter of the central hole 3 of the transverse partition 2.

In the case when the central pipe 10 is mounted on the end wall II from the side of the inlet compartment 4 (FIG. I), its lower end protrudes into the compartment by a distance O, 2 of its diameter. The inner edge of the protruding end of the pipe 10 has a rounding radius of at least 0.2 of its diameter.

If the central pipe 10 is installed on the side of the output compartment 5 (Fig. 2), then in this case the diameter of the central hole can be extremely reduced to 1.05 of the diameter of the central pipe.

The edges of the central hole 3 have a rounding radius of at least 0.2 of its diameter.

The device operates as follows.

Liquid, nasretretta to a temperature below saturation. At a given pressure, it is fed through a tangential confuser pipe 8 to the inlet compartment 4 of the housing I. The swirling fluid in the nozzle 8 accelerates through the central hole 3 in the transverse partition 2 to enter the outlet compartment 5 of the housing I. When passing liquid through the confuser section 6 of compartment 4, the radius of rotation of the liquid decreases. In this case, the tangential component of the velocity increases (the law of conservation of momentum) and its radial component (the law of continuity), and the pressure decreases (Bernoulli law). As a result, the fluid velocity increases.

At a certain swirl radius, the pressure in the inlet compartment 4 becomes equal to the saturation pressure at a given temperature, and at smaller radii, less than the saturation pressure, and the liquid boils. In the confuser section 6 of the inlet compartment 4, the maximum amount of generated steam is ensured as a result of an increase in the liquid velocity only due to a decrease in the inlet section of the inlet compartment 4. Under the influence of the pressure gradient resulting from the rotation of the liquid, the vapor bubbles are pushed to the axis of the housing and are collected in axial the zone from which steam is discharged through the central pipe 10 to the consumer.

With the passage of vapor-liquid harm through the diffuser output section of the inlet compartment 4, an additional pressure drop occurs due to a strong increase in the tangential velocity component. The humidity of the steam is reduced as a result of eliminating the removal of liquid droplets along the end walls of the inlet compartment 4.

The vaporized rotating liquid residue through the central hole 3 in the transverse partition enters the outlet compartment 5 of the housing, where, rotating, it moves from the axis of the latter to the periphery.

When passing through the confuser section 6 with an increase in the radius of rotation of the liquid, the tangential component of the velocity decreases, and the radial component increases and approaches the tangential or exceeds it. Thus, the speed of the working fluid does not decrease or increases, and the pressure, respectively, does not increase, decreases. No positive gradient

The pressure leads to a uniform velocity profile at the inlet to the diffuser section 7 of compartment 5. A high value of the radial component of the velocity at the outlet of the confuser section 6 provides an effective pressure rise during the transition of the liquid to the diffuser section 7 of compartment 5.

Thus, already at the confuser section 6, the reason for the occurrence of flow separation from the walls is eliminated. This eliminates the release of fluid into the steam stream and increases the purity of the latter.

When passing through the diffuser section 7, due to the expansion of the flow, the radial and tangential components of the velocity decrease, while the fluid velocity decreases and the pressure is restored, and when the fluid exits the outlet compartment 5 through the diffuser pipe 9, the pressure increases even more.

The high value of the radial component of the velocity and the uniformity of the velocity profile at the entrance to the diffuser section 7 provide effective pressure recovery in the output compartment 5.

From the steam generating device, steam is discharged to the consumer through a central pipe 10.

As follows from the formula of the utility model in the proposed steam generating device, two options for steam removal to the consumer are possible: from the input compartment 4 (Fig. I) and from the output compartment 5 (Fig. 2).

In the first embodiment, due to the implementation of the Central hole 3 with a diameter larger than the diameter of the Central pipe 10 for removing steam, the ingress of the working fluid in the latter is prevented. And its lower end entering compartment 4 delays the droplets separated from the liquid-vapor interface.

In the second embodiment, the diameter of the Central hole 3 can be significantly reduced and close to the diameter of the Central pipe 10, amounting to 1.05 of its value. This possibility is explained by the fact that, due to the design of the output compartment in the form of embarrassment, and then of a diffuser along the working fluid, its reverse current and discharge into the axial zone are eliminated. In this case, liquid droplets that fall from the inlet compartment together with the vapor into the axial zone with a zero pressure gradient retain their tangential

speed and under the action of centrifugal force return to the fluid stream, urged in the output burst 5.

Thus, the removal of steam from the outlet compartment has the advantage, because giving the opportunity to reduce the diameter of the Central hole with the same diameter of the Central pipe and the same performance, allows you to reduce the diameter of the housing I of the device. This is explained by the fact that the indicated diameters are interconnected by the necessary ratio arising from the law of conservation of angular momentum, which is determined by the ratio of the tangential velocities at the point of supply and discharge of the working fluid at the outer radius of the housing I and at the radius of the central hole, and the speed at the radius of the central hole determined by the condition of achieving a pressure lower than or equal to the pressure of saturated vapors to ensure boiling.

The eco-economic effect is achieved by reducing the power for pumping the working fluid passing through the steam generating device due to: supplying the output compartment 5 with confuser 6 and diffuser 7 sections; performing tangential nozzles 8 and 9 for supplying and discharging the working fluid in the form of, respectively, a confuser and a diffuser; performing the inner edges of the Central pipe 10 and the Central hole 5 of the Central partition 2 with a rounding.

The economic effect is also achieved by improving the quality of the steam, which does not require additional cleaning costs.

In addition, the proposed steam generating device allows to reduce the diametrical dimensions of the housing with the same diameter of the Central pipe and the same performance.

Claims (5)

1. A steam generating device comprising a cylindrical body, separated by a transverse partition with a central hole in the inlet and outlet compartments, provided with tangential nozzles, respectively, for supplying and discharging the working fluid and a central pipe for venting the steam mounted on one of the end walls, wherein the inlet compartment has the shape of the confuser, passing along the working fluid into the diffuser, and the diameter of the central pipe for the removal of steam is less than the diameter of the central hole of the transverse partition, This is due to the fact that the output compartment has the shape of a confuser passing along the working fluid into the diffuser. 2. The device according to claim 1, characterized in that the tangential nozzles for supplying and discharging the working fluid are made in the form of a confuser and a diffuser, respectively, while the taper of the confuser is at least 20 ^° and the cone of the diffuser is not more than 15 ^° .  3. The device according to claim 1, characterized in that the Central pipe for the removal of steam is installed on the side of the input compartment so that its lower end protrudes into the input compartment at a distance of at least 0.2 of its diameter, and the inner edge of the protruding end has a radius of rounding not less than 0.2 of its diameter.  4. The device according to claim 1, characterized in that the Central pipe for the removal of steam is installed on the side of the outlet compartment and its inner edge at the outlet of the compartment has a rounding radius of at least 0.2 of its diameter, while the diameter of the Central hole is at least 1 , 05 of the diameter of the central pipe. 5. The device according to claim 1, characterized in that the edges of the Central hole of the transverse septum have a rounding radius of at least 0.2 of its diameter.