KR101928816B1 - Cooling Water Control System And Control Method Of Cooling Water - Google Patents

Abstract

The present invention relates to a cooling water management system and a control method thereof. The present invention provides a cooling water management system in which cooling water can be efficiently replaced by precisely grasping a time point of drainage of the cooling water, and chemicals can be added in accordance with raw water to be used in a customized manner when adding chemicals for maintaining quality of the cooling water, and a control method thereof.

Description

Technical Field [0001] The present invention relates to a cooling water control system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling water management system and a control method thereof, and more particularly, to a cooling water management system and a control method for controlling the cooling water, Management system, and a control method.

Generally, a cooling water system is used to discharge waste heat generated in continuous manufacturing processes and the like.

Since the cooling water circulating in the cooling water system passes through the heat exchanger during the circulation process, it is necessary to replace the cooling water as it is used for a longer period of use. In the past, the replacement time of the cooling water was determined based on the measured electric conductivity of the cooling water, Has been determined. However, in the case of the electric conductivity, the measurement value changes depending on the temperature. Therefore, even though the actual supply of the cooling water and the supply of the raw water have not arrived yet, the cooling water is drained more than necessary, Has come.

In addition, as the number of system circulation of cooling water increases, problems such as scale, corrosion of pipelines, and bacterial growth may occur. In order to prevent this and to keep pipelines clean, cooling water contains corrosion inhibitors, scale inhibitors, Etc. are added.

Conventionally, the time and amount of addition of the chemicals depend on the experience of the manager, and thus it has been difficult to efficiently manage the cooling water by adding too much chemicals. To solve this problem, the hydrogen ion concentration of the cooling water is measured, A prior art of a method of gradually adding a certain amount of drug when the ion concentration is below the reference value has been proposed.

However, even if the same hydrogen ion concentration is used, the addition of the chemical is determined based on the same hydrogen ion concentration even if the standard hydrogen ion concentration at which the scale, corrosion, and bacteria are generated varies depending on the hydrogen ion concentration of the raw water used. there was.

Accordingly, it is urgent to introduce a cooling water management system capable of efficiently managing and calculating supply and supply timings of raw water and chemicals by customizing them.

Korean Patent No. 10-1744461 ("Cooling Water Treatment and Management Device")

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cooling water management system and a control method that can accurately determine a time point at which a cooling water is drained to efficiently replace cooling water.

Another object of the present invention is to provide a cooling water management system and a control method capable of adding chemicals in a customized manner according to raw water used for adding chemicals for maintaining the quality of cooling water.

The control method of the cooling water management system according to the preferred embodiment of the present invention is a control method of a cooling water management system for managing a fluid circulation type cooling system, wherein the cooling water management system includes a cooling water inflow pipe on one side, A cooling tower for introducing one cooling water into the cooling water circulating path through a cooling water supply pipe provided on the other side for cooling the introduced cooling water; A drain pipe connected to one side of the cooling water supply pipe in a branched form and being opened and closed through a drain valve; A cooling tower measuring unit for measuring the state of the cooling water accommodated in the cooling tower, the cooling tower measuring unit including an electric conductivity sensor, a first temperature sensor and a TDS measuring unit; A filtering water supply pipe connected to the cooling water supply pipe through the filter valve to remove foreign substances contained in the cooling water, the filter water supply pipe for supplying the filtered cooling water to the cooling water supply pipe, the discharge pipe for discharging the filtered foreign matter to the drain pipe, A filter unit including a discharge valve provided in the discharge pipe, a filter unit including a first pressure sensor and a second pressure sensor provided in the filter valve and the filtered water supply pipe, And a control unit for controlling the flow path of the cooling water by opening and closing the drain valve, the filter valve, and the discharge valve, wherein the control method of the cooling water management system comprises: (S10) Transmitting the measured value to the controller; (S20) calculating the electric conductivity calculation value from the measurement value received in the step (S10) through the controller; (S30) determining whether the electric conductivity calculated value calculated in step (S20) is equal to or more than the first reference electric conductivity; (S40) determining whether the electric conductivity calculated value calculated in the step (S20) exceeds a predetermined second reference electric conductivity; (S50) measuring a value of the total dissolved solids of the cooling water accommodated in the cooling tower at the first and second points of view through the TDS meter, and calculating a TDS increase rate from the measured value; (S51) determining whether the TDS increase rate exceeds a preset reference TDS increase rate; (S52). When the result of the determination in step S51 is equal to or less than the reference TDS increase rate, the temperature of the cooling water accommodated in the cooling tower is measured through the first temperature sensor, Wherein the control method of the cooling water management system determines that the electric conductivity calculated value exceeds the second reference electric conductivity by the step S40, (S51), it is determined that the TDS increase rate exceeds the reference TDS increase rate, or it is determined that the calculated electrical conductivity value exceeds the second reference electrical conductivity by S40, The drain valve is opened when the measured value of the first temperature sensor falls within the reference temperature range, and when the measured value of the electric conductivity is larger than the first reference electric conductivity by the (S30) (S40), it is determined that the electric conductivity calculated value is smaller than the second reference electric conductivity or that the electric conductivity calculated value exceeds the second reference electric conductivity by (S40) And controls the filter valve to open if the measured value of the first temperature sensor is determined to exceed the reference temperature range in step S52, and after step (S30), (S60) Transmitting the measured pressure value through the first and second pressure sensors to the control unit; (S70) If the difference between the two pressure values received in the step (S60) exceeds the reference pressure difference through the control unit, the discharge valve is opened to discharge foreign matter.

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The cooling water management system may further include: a raw water supply pipe for supplying raw water to the cooling tower; A chemical supply unit for supplying a chemical containing at least one of an anti-scale agent, a corrosion inhibitor, and a microbial reduction agent to the cooling water; And a first PH sensor for measuring a hydrogen ion concentration of the raw water, wherein the cooling tower measuring unit further includes a second PH sensor for measuring a hydrogen ion concentration of the cooling water accommodated in the cooling tower, The control method includes: (S100) measuring the hydrogen ion concentration of the raw water through the first PH sensor and transmitting the measured value to the controller; (S110) calculating the average PH1 value by accumulating the value transmitted from the first PH sensor for a predetermined period of time; (S200) measuring the hydrogen ion concentration of the cooling water accommodated in the cooling tower through the second PH sensor, and transmitting the measured value to the controller; (S210) calculating the average PH2 value by accumulating the value transmitted from the second PH sensor for a predetermined period of time; (S250) setting the reference PH range to an average PH1 value or more and an average PH2 value or less; And (S300) determining whether the value measured by the second PH sensor belongs to the reference PH range, and controlling the medicine supplier to supply the medicine to the cooling water when the determination result exceeds the reference PH range; .

The cooling water management system and the control method of the present invention having the above-described structure have the following effects.

First, the electric conductivity measured by the first temperature sensor and the electric conductivity sensor is calculated through the electric conductivity according to the reference temperature through the configuration of the control unit, and the time point of the drainage of the cooling water is determined.

Secondly, only a part of the cooling water is filtered and re-supplied according to the range to which the electric conductivity calculation value calculated through the configuration of the control part and the configuration of the filter part belongs, thereby achieving economical cooling water management.

Third, since the TDS measuring device can filter and replace the cooling water step by step, efficient cooling water management can be achieved.

Fourth, there is an effect that the foreign matter can be automatically discharged by grasping the foreign matter discharge time of the filter part through the pressure difference of the first and second pressure sensors.

Fifth, the reference PH range is set through the configuration of the first PH sensor for measuring the hydrogen ion concentration of the raw water and the second PH sensor for measuring the hydrogen ion concentration of the cooling water, and the value is used for determining the supply of the medicine, This has the effect of enabling a stable effect of chemical supply and cooling water management.

1 is a conceptual diagram of a cooling water management system according to a preferred embodiment of the present invention.
2 is a flowchart illustrating a cooling water replacement process according to a control method of a cooling water management system according to a preferred embodiment of the present invention.
3 is a flowchart showing a chemical supply process of the control method of the cooling water management system according to the preferred embodiment of the present invention.

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

[Cooling water management system]

The cooling water management system according to the preferred embodiment of the present invention accurately grasps the time point of the drainage of the cooling water circulating along the cooling water circulation path so that efficient drainage of the cooling water can be achieved and the raw water used for adding the medicine for maintaining the quality of the cooling water So that customized drug addition can be performed.

As shown in FIG. 1, the cooling water management system includes a cooling tower 100, a cooling tower measurement unit 200, a control unit, a raw water supply pipe 300, 130, a filter unit 500, and a chemical supply unit 400 that is involved in addition of chemicals.

The cooling tower 100 is provided with a cooling water inflow pipe 110 at one side thereof. The cooling water circulated through the cooling water circulation path flows into the cooling tower 100, and the inflow cooling water is cooled To the cooling water circulation path through the cooling water supply pipe 120 provided at the other side.

The cooling tower measuring unit 200 measures the state of the cooling water accommodated in the cooling tower 100 and includes a first temperature sensor 210 that is involved in the drainage of the cooling water and a second temperature sensor 210 that is connected to the electric conductivity sensor 220, The second PH sensor 230 and the TDS measuring unit 250. The components included in the cooling tower measuring unit 200 include components related to the cooling water draining to be described later, I will explain it in more detail when I explain it.

Meanwhile, the control unit controls the configuration of each part so that the cooling water management system according to the preferred embodiment of the present invention can perform functions of cooling water drainage and chemical addition.

Hereinafter, the structure of the cooling water management system according to the preferred embodiment of the present invention and the control operation of the control unit will be described first.

The cooling tower 100 is provided with a drain pipe 130 and a raw water supply pipe 300 for drainage of the cooling water when foreign substances or the like are contained in the cooling water.

The drain valve 130 is branched from the cooling water supply pipe 120 and a drain valve 131 is provided at a branch point between the cooling water supply pipe 120 and the cooling water supply pipe 120. When the drain valve 131 is opened and closed, To be discharged to the outside and discarded. The raw water supply pipe 300 is connected to the cooling tower 100 to supply the raw water to the inside of the cooling tower 100 when the amount of the cooling water accommodated in the cooling tower 100 is less than a predetermined amount.

For reference, whether or not the raw water is supplied is determined by measuring the amount of cooling water accommodated in the cooling tower 100 through a water level adjusting device such as an electrode rod provided inside the cooling tower 100 and determining whether additional supply of raw water is required To supply raw water.

The filter unit 500 is configured to remove foreign matter contained in the cooling water.

The filter unit 500 is connected to the cooling water supply pipe 120 through the filter valve 510 so that the cooling water flowing into the cooling water supply pipe 120 when the filter valve 510 is opened flows into the filter unit 500. The cooling water flowing into the filter unit 500 is supplied again to the cooling water supply pipe 120 through the filtered water supply pipe 520.

A predetermined space is formed inside the filter unit 500, and a filtering net is inserted into a side to which the filtering water supply pipe 520 is connected. That is, foreign matter is caught in the filter net and filtered. A drain pipe 530 is connected to the drain pipe 130 and the filter unit 500 at the other side where the filtrate water supply pipe 520 is disposed around the drain pipe 530. A discharge valve 531 And discharges the foreign substances accumulated in the filter unit 500 through the drain pipe 130 when the discharge valve 531 is opened.

A first pressure sensor 511 is installed in the pipe on which the filter valve 510 is mounted and a second pressure sensor 521 is installed in the filtrate water supply pipe 520 to determine whether the discharge valve 531 is opened The controller determines that a large amount of foreign matter has accumulated in the filter unit 500 and opens the discharge valve 531 when the difference between the measured values of the respective pressure sensors exceeds the preset reference pressure difference do.

On the other hand, control relating to the cooling water drainage of the control unit is performed as follows.

First, the electrical conductivity of the cooling water accommodated in the cooling tower 100 and the temperature of the cooling water are measured through the electrical conductivity sensor 220 and the first temperature sensor 210.

For reference, the electric conductivity measurement method of the electric conductivity sensor 220 determines the electric conductivity by measuring the amount of the ionic substance contained in the cooling water. Since the judgment value is measured differently from the actual value depending on the temperature, Is used for determining the replacement timing of the battery.

The control unit calculates an electric conductivity value by converting the electric conductivity value according to the reference temperature using the measured value from the electric conductivity sensor 220 and the first temperature sensor 210, and stores the electric conductivity calculated value in advance And compares the first reference electrical conductivity according to the reference temperature, which is comparative data, with the second reference electrical conductivity, which is higher than the first reference electrical conductivity.

If the value obtained by comparing the electric conductivity calculated value and the comparison data is within the range of the first reference electric conductivity and the second reference electric conductivity or less, the control unit opens the filter valve 510, Filtration is performed through the structure of the part 500. As described above, when the pressure difference between the first pressure sensor 511 and the second pressure sensor 521 measured in this process exceeds the predetermined reference pressure difference, the discharge valve 531 is opened and the filter unit 500 ) Through the drain pipe (130).

On the other hand, when the electric conductivity calculated value exceeds the second reference electric conductivity, the controller calculates the total dissolved solids value of the cooling water accommodated in the cooling tower 100 measured through the TDS measuring device 250 To calculate the TDS increase rate.

The method of calculating the TDS increase rate may be performed by using the total dissolved solids value of the cooling water measured through the TDS measuring device 250 at the first time point and the total dissolved solids value of the cooling water at the second time point after the first point in time .

When the value of the calculated TDS increase rate exceeds the reference TDS increase rate which is a predetermined value, the control unit determines that replacement of cooling water is clearly required in a state where a large amount of foreign matter is contained in the cooling water, and opens the drain valve 131, . At this time, if the amount of the cooling water accommodated in the cooling tower 100 decreases as the cooling water is drained, the raw water supply pipe supplies raw water to the cooling tower 100 to replace a large amount of cooling water circulating the cooling water management system.

On the other hand, if the TDS increase rate is less than the reference TDS increase rate, the controller measures the temperature of the cooling water through the first temperature sensor 210 for more detailed determination. As a result, when the measured value of the first temperature sensor 210 exceeds the predetermined reference temperature range, the controller determines that the measured value of the electric conductivity sensor 220 is lower than the actual electric conductivity value The filter valve 510 is opened and only a part of the cooling water is purified. If the temperature measured by the first temperature sensor 210 falls within the reference temperature range, it is determined that the value measured by the electric conductivity sensor 220 is not an abnormality based on temperature, The valve 131 is opened to drain the cooling water.

In addition, after the drain valve 131 is controlled to be opened, the electric conductivity and temperature information of the cooling water accommodated in the cooling tower 100 are measured in real time, and the electric conductivity calculated value is calculated, 1 < / RTI > reference electrical conductivity, the drain valve 131 is locked.

Next, a configuration related to the addition of chemicals in the cooling water management system according to the preferred embodiment of the present invention, and a control operation of the control unit at this time will be described.

The first PH sensor 310 is provided in the raw water supply pipe 300 to transfer the hydrogen ion concentration of the raw water to the control unit and the second PH sensor 230 measures the hydrogen ion concentration of the cooling water, . The control unit accumulates the hydrogen ion concentrations of the raw water and the cooling water measured by the first PH sensor 310 and the second PH sensor 230 at predetermined time intervals for a predetermined period of time and calculates an average PH1 value and an average PH2 value . Here, the predetermined period may be a daily average, a monthly average, or an average calculated by summing up the values measured in the previous year and the current year. In addition, a separate external operating device connected to the control unit may be provided to specify a period during which the average is calculated.

The controller sets the average PH1 value to the average PH2 value in the reference PH range and determines whether the measured value in the second PH sensor measured in real time belongs to the reference PH range. If the measurement value of the second PH sensor measured in real time does not belong to the reference PH range, the medicine supplier 400 supplies the medicine to the cooling water.

On the contrary, if the measured value of the second PH sensor is within the reference PH range, it is checked whether the medicine supplier 400 is currently operating, and if the measured value of the second PH sensor is in operation, the operation is stopped.

That is, instead of supplying the chemical according to whether the measured value of the second PH sensor 230 exceeds the reference hydrogen ion concentration, the chemical is supplied according to the PH concentration of the raw water used and the usual cooling water, .

For reference, the medicine supplied from the medicine supplier 400 includes at least one of a scale inhibitor, a corrosion inhibitor, and a microbial reduction agent.

The cooling water inlet pipe 110 is provided with a second temperature sensor 111. When the difference between the second temperature sensor 111 and the first temperature sensor 210 is less than a predetermined value, The controller 100 may control the controller 100 to notify the manager through the notifying means that the cooling is not smoothly performed in the cooling tower 100, or may be controlled so as to lower the temperature of the cooling water by operating the fan provided in the cooling tower 100.

[Control method of cooling water management system]

The control method of the cooling water management system according to the preferred embodiment of the present invention relates to the control method of the cooling water management system described above. Before describing the control method of the cooling water management system according to the preferred embodiment of the present invention, the configuration of each part included in the control method of the cooling water management system is the same as that of the cooling water management system described above, .

The cooling water replacement process according to the preferred embodiment of the present invention provides two functions of replacing the cooling water and supplying the chemicals. First, the cooling water replacement process is performed by filtering only a part of the cooling water according to the degree of contamination of the cooling water. (S10) transmitting a measured value from the first temperature sensor and the conductivity sensor to the control unit by draining a large amount of cooling water and supplying new raw water to replace the cooling water, (S20) of calculating the electric conductivity calculated value from the measured value received in step (S20), and when the electric conductivity calculated value is equal to or more than the first reference electric conductivity, (S30), and the step of calculating the electric conductivity calculated in the step (S20) (S40) of opening the drain valve when the quasi-electroconductivity is exceeded, measuring the value of the total dissolved solids of the cooling water accommodated in the cooling tower at the first and second points of view through the TDS meter, Calculating a TDS increase rate from a value obtained by the first and second pressure sensors (S50); determining whether the TDS increase rate exceeds a preset reference TDS increase rate (S51); (S60), and when the difference between the two pressure values received in the step (S60) exceeds the reference pressure difference range through the control unit, the discharge valve is opened to discharge foreign matter (S07 ).

The degree of contamination of the cooling water is proportional to the electrical conductivity and the electrical conductivity is measured differently depending on the temperature. In order to secure data for determining the degree of contamination of the cooling water, in step S10, (T1) of the first temperature sensor and the electrical conductivity measurement value (L) of the cooling water, and transmits the measured value to the control unit.

Next, in step S20, the electrical conductivity calculation value K is calculated by converting the measurement value T1 and the electrical conductivity measurement value L of the first temperature sensor obtained previously through the control unit into the electrical conductivity according to the reference temperature .

For reference, the first reference electrical conductivity L1 according to the reference temperature and the second reference electrical conductivity L2, which is higher than the first reference electrical conductivity L1, are set in the control unit. In step S30, The first reference electrical conduction L1 and the second reference electrical conductivity L2 are compared with the calculated electrical conductivity value K previously calculated through the calculation of the electrical conductivity of the cooling water, .

That is, when the electric conductivity calculated value K is smaller than the first reference electric conduction L1, it is determined that the cooling water is not contaminated. If the electric conductivity calculated value K is larger than the first reference electric conduction L1, If it is smaller than the reference electrical conductivity L2, it is determined that the degree of contamination of the cooling water is not large, and only a part of the cooling water is filtered to open the filter valve for reuse.

In order to smoothly cool the cooling water, in step S60, the first pressure sensor P1 and the second pressure sensor P2 are connected to each other through a first pressure sensor provided on a channel provided with a filter valve and a second pressure sensor provided on the filtered water supply pipe. (P2) and transmits it to the control unit.

Next, in step S70, a difference between the measured value P2 of the second pressure sensor and the measured value P1 of the first pressure sensor is obtained. If the result is greater than a preset reference pressure difference, It is determined that the filter unit is blocked by the foreign substance and the discharge valve is opened to allow the foreign substances accumulated in the filter unit to be discharged to the outside through the discharge pipe and the drain pipe.

If the difference between the measured value P2 of the second pressure sensor and the measured value P2 of the first pressure sensor is smaller than the difference between the measured value P2 of the first pressure sensor and the measured value P2 of the first pressure sensor, If the pressure difference becomes lower than the pressure difference, the discharge valve is closed and control is performed again from the step (S10).

If it is determined in step S30 that the calculated electric conductivity K is less than the first reference electric conduction L1 and that the cooling water is not contaminated, step S80 is performed to check whether the filter valve is opened . That is, if it is determined that the filter valve is opened, the filter valve is closed, and then the process of step S10 is performed again, and if it is determined that the filter valve is closed, the process of step S10 is performed again .

If the electric conductivity calculated value K obtained in the step (S20) exceeds the second reference electric conductivity (L2), the controller performs the step of opening the drain valve (S40) (S50) to determine the degree of replacement of the cooling water in advance.

Specifically, the value of the total dissolved solids of the cooling water at the first point of time and the second point of time after the first point of time is measured through the TDS meter to calculate the TDS increase rate, that is, the rate of change of the total dissolved solids according to the unit time.

In step S51, the control unit determines whether the TDS increase rate calculated in step S50 exceeds a preset reference TDS increase rate. The control unit determines that the cooling water is actually contaminated and determines that the cooling water needs to be replaced and controls the drain valve to be opened when the determination result in step S51 is determined to exceed the reference TDS increase rate. On the other hand, if the result of the determination in step S51 is equal to or less than the reference TDS increase rate, the controller performs step S52 for determining the degree of replacement of the cooling water in a ternary manner.

In step S52, the temperature of the cooling water accommodated in the cooling tower is measured through the first temperature sensor, and it is determined whether the measured value T1 of the first temperature sensor is included in the reference temperature range, It is determined whether to open the valve or to open the drain valve.

In detail, if the result of the determination in step S52 exceeds the reference temperature range, the control unit determines that the measured value of the electric conductivity sensor is unreliable and opens the filter valve to clean only a part of the cooling water, When the temperature falls within the reference temperature range, it is considered that no abnormal measurement is caused by the temperature, and it is determined that the actual cooling water needs to be replaced, and the drain valve is opened to allow the overall replacement of the cooling water.

Next, the drug supply process of the cooling water management system according to the preferred embodiment of the present invention will be described.

The drug supply process is to enable efficient drug supply by setting drug supply standards to raw water.

The drug supply process may include measuring the hydrogen ion concentration of the raw water through the first PH sensor and transmitting the measured value to the controller (S100), and controlling the controller to transmit the value transmitted from the first PH sensor (S110) calculating the average PH1 value for a predetermined period of time, measuring the hydrogen ion concentration of the cooling water received in the cooling tower through the second PH sensor, and transmitting the measured value to the controller (S200) (S210) the average PH2 value by accumulating the value transmitted from the second PH sensor for a predetermined period (S210); comparing the reference PH range with an average PH2 value of not less than the average PH1 value (S250), and determining whether the value measured by the second PH sensor belongs to the reference PH range. When the determination result is larger than the reference PH range, And a (S300) step that controls to supply the chemicals to the cooling water yeogeum.

In detail, in step S100, the hydrogen ion concentration PH1 of the raw water measured through the first PH sensor is transmitted to the control unit, and in step S110, the hydrogen ion concentration PH1 of the raw water is accumulated Average daily average, monthly average output, annual average, and averages of last year's average and this year's average to calculate average PH1.

At the same time as S100 and S200, the hydrogen ion concentration PH2 of the cooling water stored in the cooling tower is calculated through the second PH sensor and transmitted to the control unit. In step S210, The average PH2, which is the average hydrogen ion concentration of the cooling water, is calculated.

Next, in step S250, the controller sets the average PH1 or more and the average PH2 or less calculated through steps S110 and S210 as the reference PH range.

Next, in step S300, the controller receives the hydrogen ion concentration PH2 of the newly measured cooling water from the second PH sensor, and determines whether the hydrogen ion concentration PH2 of the transmitted cooling water falls within the reference PH range . As a result, when the hydrogen ion concentration (PH2) of the cooling water exceeds the reference PH range, the control section controls the medicine supply section to supply the medicine to the cooling water accommodated in the cooling tower. On the other hand, when the hydrogen ion concentration PH2 of the cooling water belongs to the average PH range, it is checked whether the drug supply unit is in operation, and if the supply is not in progress, S200) are repeated (S400).

Meanwhile, the control method of the cooling water management system according to the preferred embodiment of the present invention may further include a temperature control process in addition to the cooling water replacement and the chemical supply process.

The temperature control process includes a first temperature sensor and a second temperature sensor for measuring a first temperature sensor measurement value (T1) and a second temperature sensor measurement value (T2), a first temperature sensor measurement value (T1) And determining whether the difference between the first temperature sensor measured value and the second temperature sensor measured value is equal to or greater than a preset reference temperature range. And a fourth step of checking whether the fan is operated when the result of the determination in step 2 is above the reference temperature range and controlling the fan to stop when the fan is running.

The technical idea should not be construed as being limited to the above-described embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, such modifications and changes are within the scope of protection of the present invention as long as it is obvious to those skilled in the art.

100: cooling tower
110: cooling water inlet pipe
111: second temperature sensor
120: Cooling water supply pipe
130: Water pipe
131: drain valve
200: cooling tower measuring unit
210: first temperature sensor
220: Electrical conductivity sensor
230: second PH sensor
250: TDS meter
300: raw water supply pipe
310: first PH sensor
400:
500:
510: Filter Valve
511: First pressure sensor
520: Filtration water supply pipe
521: Second pressure sensor
530: discharge pipe
531: Discharge valve
K: Electric Conductivity Calculation Value
L: Conductivity measurement value
L1: first reference electrical conductivity
L2: second reference electrical conductivity
P1: 1st pressure sensor measurement value
P2: Second pressure sensor measurement value
PH1: Hydrogen ion concentration of raw water
PH2: Hydrogen ion concentration of cooling water
T1: First temperature sensor measurement value
T2: second temperature sensor measurement value

Claims (8)

delete delete delete delete A control method of a cooling water management system for managing a fluid circulation type cooling system,
The cooling water management system includes:
A cooling tower in which a cooling water inflow pipe is provided at one side, cooling water circulating in a cooling water circulation path is introduced, cooling the inflowed cooling water and re-supplying the cooling water to a cooling water circulation path through a cooling water supply pipe provided at the other side;
A drain pipe connected to one side of the cooling water supply pipe in a branched form and being opened and closed through a drain valve;
A cooling tower measuring unit for measuring the state of the cooling water accommodated in the cooling tower, the cooling tower measuring unit including an electric conductivity sensor, a first temperature sensor and a TDS measuring unit;
A filtering water supply pipe connected to the cooling water supply pipe through the filter valve to remove foreign substances contained in the cooling water, the filtering water supply pipe for supplying the filtered cooling water to the cooling water supply pipe, the discharge pipe for discharging the filtered foreign matter to the drain pipe, A filter unit including a discharge valve provided in the discharge pipe, a first pressure sensor and a second pressure sensor provided respectively in the filter valve and the filtrate water supply pipe,
And a control unit for receiving the measured values from the cooling tower measuring unit and the first and second pressure sensors and controlling the flow path of the cooling water by opening and closing the drain valve, the filter valve, and the discharge valve,
The control method of the cooling water management system includes:
(S10) transmitting to the controller a value measured by the first temperature sensor and the electrical conductivity sensor;
(S20) calculating an electrical conductivity calculation value from the measured value received in the step (S10) through the controller;
(S30) determining whether the electric conductivity calculated value calculated in step (S20) is equal to or more than a first reference electric conductivity;
(S40) determining whether the electric conductivity calculated value calculated in the step (S20) exceeds a predetermined second reference electric conductivity;
(S50) measuring a value of the total dissolved solids of the cooling water accommodated in the cooling tower at the first and second points of view through the TDS meter, and calculating a TDS increase rate from the measured value;
(S51) determining whether the TDS increase rate exceeds a preset reference TDS increase rate;
(S52). When the result of the determination in step S51 is equal to or less than the reference TDS increase rate, the temperature of the cooling water accommodated in the cooling tower is measured through the first temperature sensor, Determining whether the reference temperature range is included in the set reference temperature range,
The control method of the cooling water management system includes:
If it is determined in step S40 that the calculated electrical conductivity value exceeds the second reference electrical conductivity and the TDS increase rate is determined to exceed the reference TDS increase rate in step S51, When the measured value of the first temperature sensor is within the reference temperature range by the step (S52), the drain valve is opened,
(S30), it is determined that the electric conductivity calculated value is larger than the first reference electric conductivity, the electric conductivity calculated value is judged to be smaller than the second reference electric conductivity by the (S40) S40) determines that the electric conductivity calculated value exceeds the second reference electric conductivity, and when it is determined by the step (S52) that the measured value of the first temperature sensor exceeds the reference temperature range, Control to open the valve,
After the step S30,
(S60) transmitting a pressure value measured through the first and second pressure sensors to the control unit;
(S70) further comprising: discharging the foreign matter by opening the discharge valve when the difference between the two pressure values received in the step (S60) exceeds the reference pressure difference through the control unit / RTI >
delete delete 6. The method of claim 5,
The cooling water management system includes:
A raw water supply pipe for supplying raw water to the cooling tower;
A chemical supply unit for supplying a chemical containing at least one of an anti-scale agent, a corrosion inhibitor, and a microbial reduction agent to the cooling water;
And a first PH sensor for measuring a hydrogen ion concentration of the raw water,
The cooling-
And a second PH sensor for measuring a hydrogen ion concentration of the cooling water accommodated in the cooling tower,
The control method of the cooling water management system includes:
(S100) measuring the hydrogen ion concentration of the raw water through the first PH sensor and transmitting the measured value to the controller;
(S110) calculating the average PH1 value by accumulating the value transmitted from the first PH sensor for a predetermined period of time;
(S200) measuring the hydrogen ion concentration of the cooling water accommodated in the cooling tower through the second PH sensor, and transmitting the measured value to the controller;
(S210) calculating the average PH2 value by accumulating the value transmitted from the second PH sensor for a predetermined period of time;
(S250) setting the reference PH range to an average PH1 value or more and an average PH2 value or less; And
(S300) determining whether the value measured by the second PH sensor belongs to the reference PH range, and controlling the medicine supplier to supply the medicine to the cooling water when the determination result exceeds the reference PH range And a control unit for controlling the cooling water.

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