KR101168895B1 - Desalination method with controlling freshwater flow - Google Patents

Abstract

The seawater desalination apparatus capable of controlling the amount of freshwater discharged according to the present invention includes an inlet for transporting seawater, one side of which is in communication with the inlet, and a filtering unit for filtering the seawater, and an outlet coupled to the other side of the filtering unit; In the storage unit for storing fresh water supplied from the outlet, the inlet pipe and the inlet pipe and the filtering unit is installed in communication, the pressure measuring sensor for measuring the pressure of the sea water applied to the filtering unit, the inlet and pressure measuring sensor It is electrically connected, characterized in that it comprises a control unit for controlling the amount of fresh water filtered in the filtering unit by controlling the output of the inlet in accordance with the pressure measured by the pressure measuring sensor.

The seawater desalination apparatus capable of adjusting the amount of freshwater discharged according to the present invention measures the pressure applied to the filter and controls the flow rate of the seawater flowing into the filter according to the measured pressure, thereby preventing damage to the filter. When the pressure applied to the filter is greater than a predetermined value, the filter has an effect of removing foreign matter attached to the filter through the washing means.

Seawater, Desalination, Control, Filtering, Pressure Measurement

Description

Desalination method that can control the amount of discharged freshwater {DESALINATION METHOD WITH CONTROLLING FRESHWATER FLOW}

The technical field to which the present invention pertains relates to a seawater desalination method. Specifically, the present invention relates to a seawater desalination method in which a flow rate is adjusted so that a constant flow rate flows into a membrane, and the membrane is backwashed.

The reverse osmosis seawater desalination device and seawater desalination method using the membrane among the seawater desalination devices have a constant flow rate into the membrane due to fouling due to salt or foreign substances contained in the seawater during desalination. There was a problem, which caused the membrane to be damaged.

The seawater desalination method according to the present invention aims to solve the following problems.

First, to prevent damage to the filter by adjusting the flow rate flowing into the filter for filtering sea water.

Second, if the pressure applied to the filter is more than a predetermined value to remove the foreign matter attached to the filter by washing the filter.

Third, if the pressure applied to the filter is greater than the threshold value, the signal is sent to replace the filter to prevent damage to the seawater desalination system and the entire seawater desalination method.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

The seawater desalination apparatus capable of adjusting the amount of freshwater discharged according to the present invention includes an inlet for transporting seawater, one side of which is in communication with the inlet, and a filtering unit for filtering the seawater, and an outlet coupled to the other side of the filtering unit; In the storage unit for storing fresh water supplied from the outlet, the inlet pipe and the inlet pipe and the filtering unit is installed in communication, the pressure measuring sensor for measuring the pressure of the sea water applied to the filtering unit, the inlet and pressure measuring sensor Electrically connected, the control unit for controlling the amount of fresh water filtered by the filtering unit by controlling the output of the inlet in accordance with the pressure measured by the pressure measuring sensor.

The pressure sensor is installed on one side of the inlet pipe, it is preferable to measure the pressure of the sea water through the pressure applied to the inlet pipe.

In addition, it is preferable that the first cleaning unit further comprises a first washing portion which is formed in communication with one side of the inlet portion to introduce the cleaning liquid into the inlet portion.

In addition, the discharge unit is further formed in communication with the filtering unit, when the cleaning liquid is introduced through the first cleaning unit, the outlet is blocked, it is preferable that the discharge pipe is opened so that the sea water cleaning the filtering unit is discharged through the discharge pipe.

In addition, it is preferable that the second cleaning unit communicates with the storage unit and pressurizes the fresh water introduced into the storage unit to the other side of the filtering unit.

In addition, the filtering unit is preferably characterized in that the discharge pipe discharged from the fresh water cleaning the filtering unit is formed during the operation of the second cleaning unit.

The seawater desalination method capable of controlling the amount of freshwater discharged according to the present invention is formed by communicating the inlet and outlet portions of the filtering portion for filtering the seawater, the seawater comprising a pressure measuring sensor for measuring the pressure of the seawater applied to the filtering portion In the desalination method, a reference value setting step of setting a reference value of the pressure of the seawater applied to the filtering part, a comparison step of measuring the pressure of the seawater applied to the filtering part and comparing it with the reference value, and a control operation determined according to the comparison result It is preferable to include a control step of performing.

In addition, when the reference value is the optimum value of the seawater pressure applied to the filtering unit, if the pressure of the seawater applied to the filtering unit in the comparison step is lower than the reference value, in the control step increases the output of the inlet, and in the comparison step If the pressure of the seawater applied to the measured value is higher than the reference value, it is preferable to reduce the output of the inlet to control the amount of fresh water filtered by the filtering unit.

In addition, when the reference value is the upper limit value of the seawater pressure applied to the filtering unit, if the pressure of the filtering unit is measured higher than the reference value in the comparison step, the control step to block the outlet, and the cleaning liquid introduced through the inlet to clean and discharge the filtering unit It is preferable.

In addition, when the filtering unit is cleaned in the control step, it is preferable to further include a filter replacement display step of performing a comparison step to display the filter replacement replacement if the pressure of the filtering unit is measured higher than the reference value.

In addition, a lower limit value of the seawater pressure applied to the filtering unit is additionally input in the reference value setting step, and a malfunction that indicates a malfunction when the measured seawater pressure is lower than the lower limit value by comparing the pressure and the lower limit value of the seawater measured in the comparison step. It is preferable to further include a display step.

The seawater desalination method according to the present invention measures the pressure applied to the filter, and controls the flow rate of the seawater flowing into the filter according to the measured pressure, thereby preventing damage to the filter, the pressure applied to the filter is constant If the value is greater than the filter has the effect of removing the foreign matter attached to the filter through the cleaning means.

In addition, when the pressure applied to the filter is greater than the threshold value, there is an effect that the signal can be sent to replace the filter using a display means such as a visual display device, an auditory display device or the like.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

Hereinafter, with reference to the drawings will be described in detail with respect to the seawater desalination apparatus (hereinafter referred to as "seawater desalination apparatus") that can control the amount of freshwater discharged according to the present invention.

1 is a block diagram of a seawater desalination apparatus discharged according to the present invention.

The seawater desalination apparatus according to the present invention, as shown in Figure 1, the inlet 100 for transporting sea water, and one side is in communication with the inlet 100, the filtering unit 200 for filtering the sea water, and filtering The outlet unit 300 is connected to the other side of the unit 200 and coupled to transfer the filtered seawater from the filtering unit 200, and the storage unit 400 is connected to the outlet unit 300 and stores the filtered fresh water. And, the inlet pipe 110 is formed so that the inlet 100 and the filter 200 is in communication, the pressure measuring sensor 500 is disposed on the inlet pipe 110 to measure the pressure of the filtering unit 200 and It is electrically connected to the inlet 100 and the pressure measuring sensor 500, consisting of a control unit 600 for controlling the amount of fresh water by controlling the output of the inlet 100 in accordance with the pressure measured by the pressure measuring sensor 500 do.

The inlet part 100 transfers the sea water to the filtering part 200, and is composed of a pump for transferring the fluid.

In the present embodiment, the inlet 100 is a centrifugal pump that transfers seawater by driving a motor, but is not limited to a centrifugal pump, and various pumps such as a reciprocating pump may be used.

The seawater flowing into the inlet 100 may be seawater that has undergone a pretreatment process in which impurities such as suspended matters are removed, or may be seawater that is introduced without undergoing a pretreatment process.

However, in the case of the seawater introduced without passing through the pretreatment process, it may cause adverse effects such as interposing foreign matters in the inlet, the filtering unit, etc. In this embodiment, the seawater having undergone the pretreatment process was introduced into the inlet 100. .

The filtering unit 200 removes salts of seawater and consists of a membrane made of a porous membrane having a small size.

The outlet 300 is a pipe for transferring salt water, ie, fresh water, from which the salt is removed by the filtering unit 200 to the storage 400, in a direction facing the inlet 100 about the filtering unit 200. Is installed on.

The outlet 300 is provided with an on-off valve (not shown) to open and close the outlet 300.

The storage unit 400 stores fresh water filtered by the filtering unit 200, and a conventional fresh water or water purification tank is used.

The pressure measuring sensor 500 is installed between the inlet part 100 and the filtering part 200 to measure the pressure of the filtering part 200.

An inlet pipe 110 is formed between the inlet part 100 and the filtering part 200 to transfer sea water from the inlet part 100 to the filtering part 200, and the pressure measuring sensor 500 is provided at the inlet pipe 110. Is installed to measure the pressure applied to the filtering unit 200.

The pressure measuring sensor 200 may directly measure the pressure of the sea water transported from the inlet pipe 110, the load cell (load cell) is installed on one side of the inlet pipe 110, the inside of the inlet pipe 110 When the seawater moves in, the pressure of the seawater may be measured by measuring the pressure applied to the inlet pipe 110.

According to the present invention, the control unit 600 is electrically connected to the inlet unit 100 and the pressure measuring sensor 500, and controls the output of the inlet unit 100 according to the pressure measured by the pressure measuring sensor. Control the amount of fresh water filtered.

According to the present invention, the first cleaning part 700a is formed in communication with one side of the inlet part 100.

The first cleaning unit 700a serves as a cleaning liquid inlet for introducing the cleaning liquid for cleaning the filtering unit 200 to the inlet 100 by the inlet 100.

According to the present invention, it is preferable that the discharge pipe 210 is formed in the filtering unit 200. The discharge pipe 210 discharges the seawater cleaned by the filtering unit 200 when the cleaning liquid is input through the first cleaning unit 700a, and the inlet unit 100 is based on the membrane of the filtering unit 200. Or it may be formed in at least one of the outlet portion 300 side, but more preferably formed in both the inlet portion 100 side and the outlet portion 300 side.

In order to clean the filtering unit 200, when the cleaning liquid is introduced through the first cleaning unit 700a, the outlet 300 is blocked to prevent the cleaning liquid from flowing into the storage unit 400, and the discharge pipe ( 210 is opened to clean the membrane of the filtering unit 200 by discharging the sea water to clean the filtering unit 200 through the discharge pipe (210).

Looking at the specific function of the controller 600 according to an embodiment of the present invention.

As shown in FIG. 1, the inlet 100 and the pressure measuring sensor 500 are electrically connected to the controller 600 to adjust the freshwater amount as shown in FIG. 2, which is an operation flowchart of the seawater desalination method.

The control unit 600 sets a reference value setting step S1 for setting a reference value of the pressure applied to the filtering unit 200, and a comparing step S2 for measuring the pressure of the seawater of the filtering unit 200 and comparing it with the reference value. The output of the inlet part 100 is controlled according to the result of the comparison step S2, or the filtering part 200 is washed.

When the reference value set in the reference value setting step S1 is an optimum value of the seawater pressure applied to the filtering unit 200,

When the pressure of the seawater applied to the filtering unit 200 in the comparison step S2 is lower than the reference value, the control unit 600 increases the output of the inlet unit 100 in the control step S3 and filters the filter unit 200. Increase the freshwater filtered in).

In addition, if the pressure of the seawater applied to the filtering unit 200 in the comparison step (S2) is the same as the reference value, the control unit 600 maintains the output of the inlet (100).

On the other hand, when the reference value input to the control unit 600 is the upper limit value of the seawater pressure applied to the filtering unit 200, the control unit 600, as shown in Figure 3 which is an operation flowchart of the seawater desalination method, the filtering unit 200 Wash.

When the pressure of the filtering unit 200 is measured to be higher than the reference value in the comparison step (S2), the control unit 600 blocks the outlet 300 in the control step (S3), and the washing liquid introduced through the inlet 100 is The filter 200 is cleaned and discharged.

On the other hand, if the pressure of the filtering unit 200 is measured to be equal to or lower than the reference value in the comparison step (S2), the control unit 600 performs desalination by introducing the seawater to the filtering unit 200 through the inlet 100. do.

In addition, according to the present invention, as shown in FIG. 4, which is an operation flowchart of the seawater desalination method, the controller 600 re-evaluates the pressure of seawater applied to the filtering unit 200 when the cleaning of the filtering unit 200 is finished. When the measurement is compared with the reference value and the pressure of the filtering unit 200 is measured to be higher than the reference value, the filtering unit replacement display step S4 of displaying the replacement signal of the filtering unit 200 may be further performed.

In addition, according to the present invention, as shown in FIG. 5, which is an operational flow chart of the seawater desalination method, the lower limit value of the pressure of the filtering unit 200 is additionally input in the reference value setting step S1, and By re-measuring the pressure of the seawater and comparing it with the lower limit, a malfunction display step S5 may be further performed to indicate a malfunction when the re-measured seawater pressure is less than or equal to the lower limit.

According to the present invention, the storage unit 400 is provided with a second cleaning unit 700b as shown in FIG. 6, which is a conceptual diagram of a seawater desalination apparatus capable of adjusting the discharged freshwater according to another embodiment of the present invention. It is preferable.

The second cleaning unit 700b pressurizes the fresh water introduced into the storage unit 400 to the other side of the filtering unit 200 to clean the filtering unit 200.

The filtering unit 200 may be attached to the foreign matter, etc. according to the operation of the seawater desalination device.

Such foreign matters may be removed through the first cleaning unit 700a, but may be removed by transferring fresh water stored in the storage unit 400 in a direction opposite to the flow of seawater desalted in the filtering unit 200.

At this time, one side of the filtering unit 200 is preferably formed with a discharge pipe 210 for discharging the fresh water cleaning the filtering unit 300 during the operation of the second cleaning unit 700b.

Fresh water transported in a direction opposite to the flow of seawater desalted through the second cleaning unit 700b may be discharged through the inlet 100, but more specifically, one side of the filtering unit 200, more specifically, the filtering unit 200. The discharge pipe 210 may be formed in the inlet part 100 based on the membrane of the discharge.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Accordingly, the embodiments disclosed herein are for the purpose of describing rather than limiting the technical spirit of the present invention, and it is apparent that the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those of ordinary skill 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.

1 is a conceptual diagram of a seawater desalination apparatus capable of adjusting the discharged freshwater amount according to an embodiment of the present invention.

2 to 5 is a flow chart of the seawater desalination method that can adjust the amount of freshwater discharged according to an embodiment of the present invention.

6 is a conceptual diagram of a seawater desalination apparatus capable of controlling the discharged freshwater amount according to another embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

100: inlet 110: inlet pipe

200: filtering unit 210: discharge pipe

300: outlet 400: storage

500: pressure measuring sensor 600: control unit

700: cleaning part 700a: first cleaning part

700b: second cleaning part

S1: reference value setting step S2: comparison step

S3: control step S4: filter display replacement step

S5: Malfunction indication step

Claims (11)

delete delete delete delete delete delete In the seawater desalination method comprising a pressure measuring sensor for measuring the pressure of the seawater applied to the filtering portion is formed in communication with the filtering portion for filtering the seawater, the pressure of the seawater pressure applied to the filtering portion A reference value setting step of setting a reference value; A comparison step of measuring a pressure of seawater applied to the filtering unit and comparing the pressure with the reference value; And a control step of performing a predetermined control operation according to the comparison result. When the reference value is the optimum value of the seawater pressure applied to the filtering portion, When the pressure of the seawater applied to the filtering unit in the comparing step is lower than the reference value, the control step increases the output of the inlet, and the pressure of the seawater applied to the filtering unit in the comparing step is higher than the reference value. If the measurement is high, the output of the inlet is reduced to adjust the amount of fresh water filtered by the filtering unit. In the setting of the reference value, the lower limit value of the pressure of the seawater applied to the filtering unit is further input, and the measured value is measured in the comparing step. The method further includes a malfunction display step of displaying a malfunction when the seawater pressure is lower than the lower limit value by comparing the seawater pressure with the lower limit value. When the reference value is the upper limit of the seawater pressure applied to the filtering portion, When the pressure of the filtering unit in the comparison step is measured to be higher than the reference value, in the control step is possible to adjust the discharge fresh water, characterized in that for blocking the outlet, the cleaning liquid introduced through the inlet to clean and discharge the filtering unit. Desalination Method. delete delete The method of claim 7, wherein When the filtering unit is cleaned in the control step, When the pressure of the filtering unit is measured to be higher than the reference value by performing the comparison step, the seawater desalination method that can control the discharge freshwater, characterized in that it further comprises a filter replacement display step of displaying the filter replacement. delete

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