KR100490106B1 - Water level control apparatus and method in degassifier system - Google Patents

Abstract

The present invention relates to an apparatus and a method for controlling a level of a gas removal system.

The present invention includes a plurality of degassing tanks for outputting the current water level information of the introduced mineral-added distilled water and for removing the harmful gas remaining in the mineral-added distilled water; A plurality of gas removal pumps for pumping the mineral-added distilled water from which the noxious gas is removed by a pump control signal; A plurality of flow control valves for controlling the discharge of the pumped mineral-added distilled water by a flow control signal; The gas removal tank is selected according to the information on whether the inlet control valve of the gas removal tank is opened or closed, and according to the current water level information of the selected gas removal tank, the gas removal pump and the flow control valve are respectively connected with the selected gas removal tank. And a control unit for outputting a pump control signal and a flow rate control signal to control the level of the selected gas removal tank at a constant level.

In addition, the present invention outputs the current water level information of the mineral-added distilled water and a plurality of gas removal tank for removing the harmful gas remaining in the mineral-added distilled water, a plurality of gases for pumping the mineral-added distilled water from which the harmful gas is removed A water level control apparatus for a gas removal system including a removal pump and a plurality of flow control valves for controlling the discharge of the pumped mineral-added distilled water, the water level according to information on whether the inlet control valve of the gas removal tank is opened or closed. Selecting a gas removal tank to control the; And receiving a current level value of the selected degassing tank and comparing the preset level with a predetermined reference level to constantly adjust the level of the selected degassing tank.

Therefore, in the present invention, when controlling the level of the mineral-containing distilled water flowing into the degassing system in the degassing system, select the degassing tank to control the level according to the information on the opening or closing of the inlet control valve of the degassing tank By comparing the current level value of the selected degassing tank with a preset reference level, the level of the selected degassing tank is automatically and automatically adjusted, thereby stably and precisely adjusting the level of the degassing tank. There is an effect of reducing the management time of the system administrator for the level control of the degassing tank.

Description

Water level control device and method of degassing system {WATER LEVEL CONTROL APPARATUS AND METHOD IN DEGASSIFIER SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a degassifier system in a remineralization plant, and more particularly, to control the level of mineral-containing distilled water flowing into the degassing tank in a degassing system. Select the degassing tank to control the water level according to the information on the opening and closing, and automatically adjusts the level of the selected degassing tank constantly by comparing the current level value of the selected degassing tank with the preset standard level value. It relates to a water level control device and a method of the degassing system.

1 is a block diagram showing the configuration of a conventional mineral addition plant, as shown in the first and second distilled water control valve (11a, 11b), mineral treatment means 12, the first and second inlet control valve ( 13a, 13b, first and second degassing tanks 14a, 14b, and degassing pump 15 will now be described.

In general, water produced by the process of desalination of seawater in the evaporator 10 in the desalination system is not suitable for use as drinking water, since its purity is too high as virtually distilled water.

Therefore, before the distilled water produced in the evaporator 10 is transported to the end consumer, the distilled water is subjected to a post-treatment process to meet mineral water standards by adding minerals and the like in a mineralization plant.

That is, distilled water (condensed water) produced from the evaporator 10 flows to the freshwater storage tank 16 through the main pipe 1 and the main pipe 2, of which about 25% is supplied to the first and second distilled water control valves 11a and 11b. By the flow rate is adjusted to flow into the mineral treatment means 12, the remaining 75% is introduced into the fresh water storage tank 16 is stored.

Then, in the mineral treatment means 12, minerals such as limestone are added to the distilled water introduced, and the distilled water is treated with water quality suitable for drinking water standards.

At this time, since a large amount of harmful gases (carbon dioxide, etc.) still remain in the distilled water to which minerals are added through the mineral processing means 12, a separate process for removing them is required.

Therefore, the mineral-added distilled water discharged from the mineral processing means 12, the first and second gas removal tanks (14a, 14b) while the amount is controlled through the first and second inlet control valves (13a, 13b) Residual harmful gas which flows in is removed.

Here, each of the degassing tanks (14a, 14b) has three fans (Fan) to supply air, this air is injected from the bottom of the degassing tanks (14a, 14b) and the remaining carbon dioxide in the mineral-added distilled water, etc. Will be removed.

The mineral-added distilled water from which the remaining carbon dioxide is removed from the degassing tanks 14a and 14b is pumped by a degassing pump 15 installed outside the degassing tanks 14a and 14b, and then The main pipe 1 and the main pipe 2 are again joined and stored in the fresh water storage tank 16.

Here, the system manager operates all of the degassing tanks 14a and 14b in the degassing system or only one of the degassing systems, and the storage capacity of the degassing tanks 14a and 14b is limited. The flow rate of the mineral-added distilled water flowing into the gas removal tanks 14a and 14b is controlled.

In general, the system administrator visually checks the level displayed through the level transmitter (LT) (not shown) of each of the gas removal tanks 14a and 14b, and then checks the first and second inlet control valves 13a, 13b) is operated to control the amount of mineral-added distilled water flowing into the gas removal tanks 14a and 14b in operation.

In this case, the first and second inlet control valves 13a and 13b are adjusted only at the discretion of the system administrator who detects that the level of the mineralized distilled water in the gas removal tanks 14a and 14b has reached the proper level. The manager should always monitor the level transmitters of the degassing tanks 14a and 14b.

In the prior art as described above, when controlling the level of the mineral-containing distilled water flowing into the degassing tank in the degassing system, by detecting only the naked eye of the system administrator to adjust the level of the degassing tank, In addition, the accuracy of tank level adjustment was reduced, and there was a problem that the system administrator increased the management time for the level control.

Therefore, the present invention has been proposed to solve the above-described problems, and when controlling the level of the mineral-containing distilled water flowing into the gas removal tank in the gas removal system, the opening and closing of the inlet control valve of the gas removal tank Selecting the degassing tank to control the level according to the information, and comparing the current level value of the selected degassing tank with a predetermined reference level value, the device for automatically adjusting the level of the selected degassing tank constantly And to provide a method.

The present invention for achieving the above object, and a plurality of degassing tank for outputting the current water level information of the mineral-added distilled water, and remove the harmful gas remaining in the mineral-added distilled water; A plurality of gas removal pumps for pumping the mineral-added distilled water from which the noxious gas is removed by a pump control signal; A plurality of flow control valves for controlling the discharge of the pumped mineral-added distilled water by a flow control signal; The gas removal tank is selected according to the information on whether the inlet control valve of the gas removal tank is opened or closed, and according to the current water level information of the selected gas removal tank, the gas removal pump and the flow control valve are respectively connected with the selected gas removal tank. And a controller for outputting a pump control signal and a flow rate control signal to control the level of the selected gas removal tank at a constant level.

In addition, the present invention outputs the current water level information of the mineral-added distilled water and a plurality of gas removal tank for removing the harmful gas remaining in the mineral-added distilled water, a plurality of gases for pumping the mineral-added distilled water from which the harmful gas is removed A water level control apparatus for a gas removal system including a removal pump and a plurality of flow control valves for controlling the discharge of the pumped mineral-added distilled water, the water level according to information on whether the inlet control valve of the gas removal tank is opened or closed. Selecting a gas removal tank to control the; And receiving a current level value of the selected degassing tank and comparing the preset level with a predetermined reference level to constantly adjust the level of the selected degassing tank.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing the configuration of the water level control device of the gas removal system of the present invention, as shown in the first and second distilled water control valve (21a, 21b), mineral treatment means 22, the first and Second inlet control valves 23a and 23b, first and second degassing tanks 24a and 24b, degassing pump 25, first and second flow control valves 26a and 26b and control unit 27; The operation process thereof will be described with reference to FIGS. 3 and 4.

Although there may be a plurality of degassing tanks 24a and 24b, the present invention assumes that there are two degassing tanks 24a and 24b in the degassing system. Accordingly, the degassing tanks are included in the degassing system. There are two gas removal pumps 25 and flow control valves 26a and 26b, respectively, which cooperate with 24a and 24b.

Here, when the flow control valves 26a and 26b use a fail lock type, when an abnormality such as inflow of air pressure for opening / closing the valves of the flow control valves 26a and 26b occurs, The controller 27 and other systems are protected by maintaining the valve open or closed state of the flow control valves 26a and 26b when the abnormality occurs.

Distilled water (condensed water) produced from the evaporator 20 flows through the main pipe 1 and the main pipe 2, about 25% of which is controlled by the first and second distilled water control valve 11 to control the mineral treatment means 22 ), And the remaining 75% is stored in fresh water storage tank 28 to be delivered to the end consumer.

Then, the mineral treatment means 22 adds minerals such as limestone to the distilled water introduced thereto, and treats the distilled water with water quality suitable for drinking water standards. Hazardous gases (such as carbon dioxide) remain, so a separate process is required to remove them.

Then, the distilled water to which the mineral discharged from the mineral processing means 22 is added is controlled through the first and second inlet control valves 23a and 23b, and the first and second gas removal tanks 24a. , 24b).

When the first and second degassing tanks 24a and 24b are both in operation, they usually share a load of 50%. Depending on the operating conditions, only one of the degassing tanks 24a and 24b may be used. do.

Then, when both gas removal tanks 24a and 24b are in operation, it is assumed that the level control gives priority to the gas removal tanks 24a and 24b having higher water levels.

Here, each degassing tank (24a, 24b) has three fans (Fan) to supply air, this air is injected from the bottom of the degassing tank (24a, 24b) to the remaining carbon dioxide in the mineral-added distilled water, etc. Will be removed.

The mineral-added distilled water from which the remaining carbon dioxide is removed from the degassing tanks 24a and 24b is again joined to the main pipe of the distilled water by a degassing pump 25 installed outside the degassing tanks 24a and 24b. And stored in the freshwater storage tank 28 for delivery to the end consumer.

At this time, in the present invention, the control unit 27 receives information on whether the corresponding valves 23a and 23b are opened and closed from the inlet control valves 23a and 23b of the respective gas removal tanks 24a and 24b. It is determined whether the valves 23a and 23b are opened or closed (S30), and the gas removal tanks 24a and 24b to perform a predetermined level control procedure are selected (S31).

Here, looking at the process of selecting the gas removal tank (24a, 24b) to perform the water level control, as shown in Figure 4, it is determined whether all the inlet control valve (23a, 23b) is open (S40) ).

As a result of the determination, when all of the inlet control valves 23a and 23b are opened, the first and second water level signals are input from the gas removal tanks 24a and 24b as water level values, and the input water level values are compared. Priority is given to the gas removal tanks 24a and 24b having a larger current water level value (S45, S46).

In addition, when all the inlet control valves 23a and 23b are not opened as a result of the determination, it is determined in order whether the first and second inlet control valves 23a and 23b are open in order to open the inlet control valve ( The first degassing tank 24a or the second degassing tank 24b connected to 23a and 23b, respectively, is selected (S41 to S44).

On the other hand, each gas removal tank (24a, 24b) is the first level of the current level information of the mineral-added distilled water flowing from the mineral treatment means 22 through a level transmitter (LT) (not shown) installed therein And output to the controller 27 as a second water level signal.

Then, the control unit 27 receives the water level level signal as the current water level value of the gas removal tanks 24a and 24b selected by the processes S40 to S46 and compares it with a predetermined reference water level value (S32). .

As a result of the comparison, when the current water level value is larger than the reference water level value, a predetermined water level control procedure for adjusting the water level value of the selected gas removal tanks 24a and 24b to reach the reference water level value is performed (S33 and S34). .

That is, referring to the predetermined water level control procedure in the control unit 27, the control unit 27 to the gas removal pump 25 and the flow control valves 26a and 26b that interlock with the selected gas removal tanks 24a and 24b, respectively. Outputs pump control signal and flow control signal.

If the first gas removal tank 24a is selected to perform a predetermined water level control procedure, the control unit 27 outputs a pump control signal to the gas removal pump 25 to output the first gas removal tank 24a. The mineral-added distilled water from which noxious gas present in it was removed is pumped.

And, by outputting the first flow control signal to the first flow control valve 26a to open the valve 26a more widely, the mineral-added distilled water pumped by the gas removal pump 25 smoothly the main pipe 1 To be discharged through

As described above, the present invention, when controlling the water level of the mineral-containing distilled water flowing into the gas removal tank in the gas removal system, the gas removal to control the water level according to the information on the opening or closing of the inlet control valve of the gas removal tank By selecting a tank and comparing the current level value of the selected degassing tank with a predetermined reference level value, the level of the degassing tank is constantly and automatically adjusted, thereby stably and precisely adjusting the level of the degassing tank. In addition, there is an effect of reducing the management time of the system administrator for the level control of the gas removal tank.

1 is a block diagram showing the configuration of a conventional mineral addition plant.

Figure 2 is a block diagram showing the configuration of the water level control device of the gas removal system of the present invention.

Figure 3 is a flow chart showing the operation of the level control method of the gas removal system of the present invention.

Figure 4 is a flow chart showing a process of selecting a gas removal tank in the level control method of the gas removal system of the present invention.

*** Description of the symbols for the main parts of the drawings ***

20: evaporator 21a, 21b: first and second distilled water control valve

22: mineral treatment means 23a, 23b: first and second inlet control valve

24a, 24b: first and second degassing tank 25: degassing pump

26a, 26b: first and second flow control valves 27: control unit

28: freshwater storage tank

Claims (4)

A plurality of gas removal tanks for outputting current level information of the introduced mineral-added distilled water and for removing noxious gas remaining in the mineral-added distilled water; A plurality of gas removal pumps for pumping the mineral-added distilled water from which the noxious gas is removed by a pump control signal; A plurality of flow control valves for controlling the discharge of the pumped mineral-added distilled water by a flow control signal; The gas removal tank is selected according to the information on whether the inlet control valve of the gas removal tank is opened or closed, and according to the current water level information of the selected gas removal tank, the gas removal pump and the flow control valve are respectively connected with the selected gas removal tank. And a control unit for outputting a pump control signal and a flow rate control signal to control the level of the selected gas removing tank at a constant level. The water level control apparatus of a gas removal system according to claim 1, wherein the flow control valve is a fail lock type. A plurality of gas removal tanks for outputting current water level information of the introduced mineral-added distilled water and removing harmful gases remaining in the mineral-added distilled water, a plurality of gas removal pumps for pumping the mineral-added distilled water from which the harmful gases are removed, and the In the water level control apparatus of a gas removal system having a plurality of flow control valves for controlling the discharge of the pumped mineral-added distilled water, the gas removal to control the level according to the information on the opening and closing of the inlet control valve of the gas removal tank Selecting a tank; And receiving a current level value of the selected degassing tank and comparing the preset level with a predetermined reference level to constantly adjust the level of the selected degassing tank. The method of claim 3, wherein the selecting of the degassing tank comprises: determining whether all of the inlet control valves are opened, and selecting a degassing tank having a larger current level when all of the inlet control valves are opened. Wow; And if the inlet control valve is not open, selecting the gas removal tank connected to the open inlet control valve as a result of the determination.