KR200328122Y1 - Desuperheater of Desalination Apparatus having Baffle Plate for Mixing Vapor - Google Patents

Abstract

The present invention is a temperature reduction device for controlling the temperature of the steam by injecting the cooling water to the steam flowing into the steam line flows to the brine heater (Brine Heater), and the cooling water sprayed from the injector of the temperature reduction device flows through the pipe and The present invention relates to a thermostat having a new configuration that is evenly mixed to enable effective temperature control of steam.

In the present invention, a temperature reduction device 1 for controlling the temperature of the steam supplied to the brine heater 10 of the seawater desalination plant, a pipe (2) for supplying steam to the brine heater 10, and the pipe ( 2) an injector (3) inserted into and installed in the pipe (2) and spraying cooling water to lower the temperature of the steam when the steam flowing along the pipe (2) is above a predetermined temperature; Downstream of the injector 3 of the pipe 2, a baffle plate 4 made of a semi-circular plate member to change the flow direction of steam flowing in the pipe 2 is disposed on the inner wall of the pipe 2 at a predetermined inclination. There is provided a thermostat, which is provided.

Description

Desuperheater of Desalination Apparatus having Baffle Plate for Mixing Vapor}

The present invention relates to a desuperheater (DSH) for controlling the steam temperature flowing through the steam line provided in the seawater desalination plant, specifically, the cooling water to the steam flowing into the steam line flows to the brine heater (Brine Heater) It relates to a thermostat device for controlling the temperature of the steam by spraying.

The seawater desalination plant for desalination of seawater is equipped with a brine heater, thereby condensing the steam by making heat exchange between the steam heated by the boiler and the seawater introduced from the sea, thereby desalination of the seawater.

By the way, when the temperature of the steam supplied from the boiler is excessively high, it is necessary to control to lower it to an appropriate temperature. As such, in order to control the temperature of the steam supplied to the brine heater, a thermostat is usually installed on the steam supply line between the boiler and the brine heater.

FIG. 1 discloses a steam circuit diagram briefly illustrating a configuration of a steam line supplied to a brine heater in a seawater desalination plant. In the drawing, reference numeral 10 denotes a brine heater 10, which is introduced from the outside and is a brine line 11. The seawater circulating through) is heated by heat exchange in contact with steam supplied in the direction of arrow A.

Part number 1 is a temperature reduction device 1 for controlling the temperature of the steam supplied to the brine heater 10, part number 12 is a pressure reducing valve 12, and part number 13 is formed by condensing the steam by heat exchange It is a pump 13 for supplying a part of condensed water to the thermostat 1 again.

2 is a cross-sectional view schematically illustrating a configuration of the temperature reduction device 1, wherein a nozzle for spraying cooling water is formed in a pipe 2 of the temperature reduction device 1 through which steam supplied from a boiler flows. The injector 3 is provided to protrude into the pipe 2.

When the high temperature steam supplied from the boiler passes through the piping 2 of the temperature reducing device 1, when the temperature of the steam is higher than a predetermined proper temperature, the cooling water is sprayed through the injector 3 of the temperature reducing device 1. The temperature of the steam is controlled by mixing with the steam. In general, the cooling water sprayed through the injector 3 is used to receive condensed water in which steam is condensed in the brine heater 10 by the pump 13.

By the way, in the structure of the conventional thermostat 1, when the diameter of the pipe 2 is large, it is difficult to control the temperature of steam because the coolant sprayed from the injector 3 is not evenly distributed throughout the pipe 2. There are disadvantages.

In addition, the coolant sprayed from the injector 3 does not mix evenly with the steam flowing through the pipe 2, so that the sprayed coolant does not vaporize the whole amount, and thus the coolant not vaporized is in the form of water. As it continues to exist to flow along the pipe (2), there is a problem that causes corrosion of the pipe (2) as a result.

Therefore, the present invention was developed to overcome the disadvantages and limitations of the conventional thermostat as described above, and the cooling water sprayed from the injector of the thermostat is mixed with steam flowing through the pipe to effectively control the temperature of the steam. It is an object of the present invention to provide a temperature reduction device additionally provided with a new configuration.

1 is a steam circuit diagram schematically showing a configuration of a steam line supplied to a brine heater in a seawater desalination plant.

2 is a cross-sectional view schematically showing the configuration of a conventional temperature-sensitive device.

3A is a schematic cross-sectional view of a thermostat according to the present technology.

3B is a cross-sectional view taken along the line A-A of FIG. 3A.

Figure 3c is a cut perspective view showing the shape of the baffle plate provided in the thermostat according to the present technology.

* Explanation of Signs of Major Parts of Drawings *

1 Thermostat 2 Piping

3 injector 4 baffle plate

In order to achieve the above object, in the present invention, a temperature reduction device for controlling the temperature of the steam supplied to the brine heater of the seawater desalination plant, a pipe for supplying steam to the brine heater, and inserted into the pipe is installed When the steam flowing along the pipe is a predetermined temperature or more is provided with an injector for spraying the cooling water to lower the temperature of the steam; Downstream of the injector of the pipe is provided a temperature sensing device, characterized in that the baffle plate consisting of a semi-circular plate member to change the flow direction of the steam flowing in the pipe is installed on the inner wall of the pipe at a predetermined inclination.

In addition, in the present invention as a specific embodiment, the baffle plate is provided with a plurality, the plurality of provided baffle plate is provided with a temperature-sensitive device, characterized in that the installation direction is installed different from each other in the longitudinal direction of the pipe. .

Next, the configuration of the thermostat according to the present technology will be described in detail with reference to the accompanying drawings.

FIG. 3A is a view similar to FIG. 2 described above, which is a schematic cross-sectional view of the thermostat 1 according to the present technology, FIG. 3B is a cross-sectional view along the line AA of FIG. 3A, and FIG. 3C is a thermostat according to the present technology. It is a cutaway perspective view which shows the shape of the baffle plate 4 provided in (1).

As shown in the figure, in the thermostat 1 according to the present technology, downstream of the injector 3, a semicircular plate member is provided to change the flow direction of steam flowing in the pipe 2. A baffle plate 4 is provided. As shown in FIGS. 3B and 3C, the baffle plate 4 is formed of a semicircular plate member and is integrally attached to the inner wall of the pipe 2 with a predetermined inclination. In order to support the baffle plate 4 in an inclined state, ribs 5 are provided between the upper or lower surface of the baffle plate 4 and the inner wall of the pipe 2.

In addition, a plurality of through holes 6 are formed at the edge of the baffle plate 4 connected to the inner wall of the pipe 2 so that steam flowing from the upper portion can flow downward through the through holes 6. .

As shown in FIG. 3A, the baffle plates 4 are preferably arranged alternately at positions opposite to each other in the longitudinal direction of the pipe 2.

As described above, referring to the flow of steam in the temperature reduction apparatus 1 having the baffle plate 4 on the inner wall of the pipe 2, first, steam supplied from the boiler is flowed from the top of the pipe 2. When the temperature of the steam is excessively high, the cooling water is sprayed from the injector 3 against the steam passing through the injector 3 of the thermostat 1 in order to lower the temperature of the steam. The steam mixed with the coolant sprayed by the injector 3 continues to flow to the lower part of the pipe 2, and the steam flowing in a straight line of the injector 3 is indicated by the arrow of FIG. 3A. The direction is disturbed by the baffle plate 4 located at the bottom, thereby achieving turbulence. Thus, the sprayed cooling water and steam achieves the turbulent flow effect that the cooling water and the steam is well mixed.

As described above, in the temperature reduction device 1 according to the present invention, the temperature control of steam by spraying the coolant of the injector 3 may be effectively performed, and the coolant flows down the inner surface of the pipe to thereby suppress the phenomenon. Corrosion of the pipe due to this can be prevented. In addition, since the temperature distribution of the steam flowing along the steam line is uniform, there is an effect that can accurately measure the temperature of the steam.

Claims (2)

As the temperature reduction device 1 for controlling the temperature of steam supplied to the brine heater 10 of the seawater desalination plant, When the pipe (2) for supplying steam to the brine heater (10) and the steam inserted into the pipe (2) and flows along the pipe (2) is above a predetermined temperature, the cooling water is lowered to lower the temperature of the steam. An injector 3 for spraying; Downstream of the injector 3 of the pipe 2, a baffle plate 4 made of a semi-circular plate member to change the flow direction of steam flowing in the pipe 2 is disposed on the inner wall of the pipe 2 at a predetermined inclination. A thermostat characterized in that it is installed. The method of claim 1, The baffle plate 4 is provided in plurality, The plurality of baffle plate (4) is provided with a temperature reduction device, characterized in that the installation direction is different from each other in the longitudinal direction of the pipe (2).