KR20190068074A - Apparatus for purifying cooling-water - Google Patents

Abstract

The present invention relates to a cooling water purification apparatus, which comprises a cooling water purifier installed between a cooling water supply pipe and a cooling water discharge pipe of a cooling tower to purify cooling water repeatedly circulated in the cooling tower to prevent turbidity from rising . Specifically, in the cooling water purifying apparatus, a cooling water supply pipe (200) for supplying cooling water to the cooling tower (100); A cooling water discharge pipe 300 for discharging cooling water from the cooling tower; And a cooling water purifier 400 coupled between the cooling water supply pipe and the cooling water discharge pipe.

Description

[0001] Apparatus for purifying cooling-water [0002]

The present invention relates to a cooling water purification apparatus, which comprises a cooling water purifier installed between a cooling water supply pipe and a cooling water discharge pipe of a cooling tower to purify cooling water repeatedly circulated in the cooling tower to prevent turbidity from rising .

Patent invention 001 discloses that an effective amount of a corrosion inhibitor composition containing from 1 to 10 ppm of a water soluble molybdate calculated as molybdate and from 5 to 25 ppm of a stabilized phosphate calculated from phosphate is added to the cooling tower water, And a method of retarding the point corrosion rate of carbon steel in a cooling tower system comprising circulating water in the system.

The patented invention includes an ozone generator 120 for generating ozone by receiving a discharge voltage from a high voltage generator 140 and an oxygen generator 120 for supplying air from the air compressor 150 to the ozone generator 120 An ozone leakage detector 170 for confirming the degree of ozone leakage as a CT (Contact Time) value, an inverter 190 for increasing ozone generation amount of the ozone generator 120 through frequency modulation, An ozone disperser 200 for supplying ozone from the ozone generator 120 to generate minute ozone bubbles and aeration / dispersion of the ozone bubbles in the cooling tower 300, and a control panel 110 for operating the elements A sterilization apparatus for a cooling tower, comprising: a pressure regulator (181) for supplying ozone generated from the ozone generator (120) to the ozone disperser (200) at a constant pressure; Will stand for the high concentration of the sterilizing apparatus for cooling tower to exhaust the nitrogen separated in case of oxygen comprising the pressure switch 182 is switched to maintain a constant pressure.

Patent invention 003 discloses that the contaminants such as silica, calcium and magnesium in total hardness, suspended solids, organic substances, microorganisms, heavy metals, dyes, detergents, and arsenic are reduced and / or eliminated, - for other processes such as cooling tower and reverse osmosis disposal, recovery of the anion unit of the demineralization system, which obtains water quality which permits the reuse of water for the industrial process or domestic process of the house, and saves on water and chemicals; An integrated system for treating water, aircraft blue water and wastewater, the technical innovation of which is to remove up to 100% of silica and reduce the concentration of calcium and magnesium hardness salts, , Which also uses a solids separation and filtration system to remove the suspended solids from the treated water, which forms the sludge to be disposed of ; This gives water that is reusable as extra water for cooling towers with silica concentrations of 0 to 40 ppm and reduced concentrations of total hardness salts, suspended solids and microorganisms, allows for an increase in concentration cycles, In order to reuse water, it eliminates the loss of water by purification and also controls the rate of corrosion, the formation of hardness salts and sediments of silica, prevents and maintains the growth of controlled microorganisms, and reduces the addition of chemicals D) a pH control system; e) a conductivity control system; f) an aluminum plate (to remove it from iron, zinc or water), a) a venturi ejector system, b) an oxygen enrichment system, G) a solids separation system or filtration system, h) an oxygen concentration system, i) an ozone foot It is for the integrated treatment system comprising the device.

Patent Claim 004 discloses a cooling tower system for cooling cooling water of a refrigerator, comprising: a cooling water recovery pipe for providing a recovery path of the cooling water transferred from the refrigerator to the cooling tower; A cooling water supply pipe for supplying the cooling water from the cooling tower to the refrigerator; And a sterilizing device disposed on the recovery path of the cooling water recovery pipe for sterilizing the cooling water using plasma, wherein heat generated during plasma generation in the sterilization treatment device is circulated through the cooling water recovery pipe And the cooling water passing through the cooling tower is used.

KR 10-1994-7000556 A (Published February 22, 1994) KR 10-0419998 B1 (Registered on February 11, 2004) KR 10-2009-0024274 A (Published on March 6, 2009) KR 10-1303081 B1 (registered on August 28, 2013)

The present invention relates to a cooling water purification apparatus, which comprises a cooling water purifier installed between a cooling water supply pipe and a cooling water discharge pipe of a cooling tower to purify cooling water repeatedly circulated in the cooling tower to prevent turbidity from rising .

The present invention relates to a cooling water purifying apparatus, comprising: a cooling water supply pipe (200) for supplying cooling water to a cooling tower (100); A cooling water discharge pipe 300 for discharging cooling water from the cooling tower; And a cooling water purifier 400 coupled between the cooling water supply pipe and the cooling water discharge pipe.

In the cooling water purifying apparatus of the present invention, the cooling water purifier may include a first flow path 410, one side of which is coupled to the cooling water supply pipe and the other side of which is coupled to the cooling water discharge pipe, And a second flow path 420 connected to the cooling water discharge pipe and having an ion exchanger 500 installed therein.

The cooling water purifying apparatus of the present invention is characterized in that it comprises a first control valve (430) having one side connected to a cooling water supply pipe and the other side connected to a first flow path and a second flow path, And a second control valve (440) communicating with the second flow path and the other side communicating with the cooling water supply pipe.

The cooling water purifying apparatus of the present invention includes, in the above-described invention, a discharge pipe (510) formed in the ion exchanger and discharging cooling water.

The cooling water purifying apparatus of the present invention may further include a turbidity meter 610 formed on the cooling water discharge pipe and measuring turbidity of the cooling water. The turbidity meter 610 receives information of the turbidity meter, And a controller 620 for controlling the opening and closing of the two control valves.

In the cooling water purification apparatus of the present invention, in the above-described invention, the ion exchanger is a cylindrical accumulation type desalination electrode including a cylindrical stacked body including a carbon layer, and the stacked body passes through the side in the surface direction of the layer An inflow passage formed along the rim of the side portion; An outflow channel formed through the center in the plane direction of the layer; And a seal formed around the rim of the laminate to prevent fluid from being discharged in a direction outside the rim of the laminate, wherein the inflow channel and the outflow channel are formed inside the seal portion .

In the cooling water purifying apparatus of the present invention, in the above-described invention, the laminate may include a spacer layer; A first ion exchange layer, a carbon layer, and a second ion exchange layer opposite to the first ion exchange layer; and a bipolar layer stacked in contact with each other in this order.

In the cooling water purification apparatus of the present invention, the spacer layer includes a first spacer layer and a second spacer layer, and the bipolar laminate includes the first spacer layer, the first ion exchange layer, Carbon layer, the second ion exchange layer, and the second spacer layer in this order.

In the cooling water purification apparatus of the present invention, in the above-described invention, the laminate includes a bipolar laminate in which a metal layer, the carbon layer, and an ion exchange layer are in contact with each other in order.

In the cooling water purifying apparatus of the present invention, the metal layer may be a metal electrode including a metal terminal protruding outside the bipolar laminate.

The present invention mounts a cooling water purifier between the cooling water supply pipe and the cooling water discharge pipe of the cooling tower to purify the cooling water repetitively circulating the cooling tower to prevent the turbidity from rising.

The cooling water purifying apparatus of the present invention has the effect of discharging residual byproducts of the cooling water after the ion exchange of the cooling water to the outside and supplying the purified cooling water again to lower the salinity of the cooling water.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a configuration diagram showing a cooling water purifying apparatus according to the present invention. FIG.
2 is a structural view showing a cooling water purifier of the present invention.
3 is an exemplary view showing an ion exchanger of the present invention.
4 is an exemplary view showing another embodiment of the cooling water purifier according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

[Example 1-1] The present invention relates to a cooling water purification apparatus, comprising: a cooling water supply pipe (200) for supplying cooling water to a cooling tower (100); A cooling water discharge pipe 300 for discharging cooling water from the cooling tower; And a cooling water purifier 400 coupled between the cooling water supply pipe and the cooling water discharge pipe.

The cooling tower is used to lower the temperature of the cooling water supplied to the freezer. The cooling water supplied to the cooling tower absorbs heat from the freezer and thus becomes a warmed state, and the cooling water in a heated state contacts the atmosphere inside the cooling tower to lower the temperature. The cooling water whose temperature has been lowered to the ambient temperature is again supplied to the cooling water. The cooling water repeatedly circulates the refrigerator and the cooling tower, causing a problem of increasing the turbidity of the cooling water during the repeated circulation process. In order to solve the problem of increased turbidity, a cooling water purifier was installed between the cooling water supply pipe and the cooling water discharge pipe.

[Example 2-1] Cooling water purifying apparatus of the present invention The cooling water purifying apparatus according to Example 1-1 is characterized in that the cooling water purifier has a first flow path 410 in which one side is coupled to a cooling water supply pipe and the other side is coupled to a cooling water discharge pipe, And a second flow path 420 coupled to the cooling water supply pipe, the other side of which is connected to the cooling water discharge pipe, and the ion exchanger 500 is installed in the middle.

Two channels are formed inside the coolant purifier, and one channel (first channel) directly connects the coolant supply pipe and the coolant discharge pipe to circulate the coolant. While the other flow path (second flow path) is equipped with an ion exchanger, and the cooling water is purified through the ion exchanger.

[Example 3-1] Cooling water purifying apparatus of the present invention In Example 2-1, a first control valve 430, one side of which is communicated with a cooling water supply pipe and the other side of which is communicated with a first flow path and a second flow path; And a second control valve 440 having one side communicated with the first flow path and the second flow path and the other side communicating with the cooling water supply pipe.

Two valves are formed inside the coolant purifier, and the two valves convert the coolant flow path to the first flow path or the second flow path. When the cooling water is circulated without passing through the cooling water purifier, the first control valve and the second control valve are communicated with the first flow path, and when the cooling water has to be passed through the cooling water purifier, Communicate. Thus, the cooling water passes through the cooling water purifier formed in the second flow path, and thus the cooling water is purified by ion exchange.

[Example 4-1] Cooling water purifying apparatus of the present invention In Example 2-1, a discharge pipe (510) formed in the ion exchanger and discharging cooling water is included.

Inside the ion exchanger, the cooling water is ion-exchanged and residual byproducts of the cooling water after the ion exchange are discharged to the outside through the discharge pipe. Further, the purified cooling water is supplied again to the second flow path to lower the salinity of the cooling water.

[Example 5-1] Cooling water purification apparatus of the present invention [0213] In Example 3-1 or 4-1, a turbidity meter 610, which is formed on the cooling water discharge pipe and measures turbidity, inputs information of the turbidity meter And a controller (620) for controlling the opening and closing of the first control valve and / or the second control valve.

When the contaminated cooling water is purified in real time, the purification efficiency is lowered. To prevent this, a turbidity meter is installed before the coolant purifier to measure the turbidity of the coolant. When the turbidity value of the cooling water is higher than a predetermined value, the cooling water is circulated through the second flow path to purify the cooling water. In order to circulate the cooling water to the second flow path, the controller automatically activates the first control valve and the second control valve, and receives the signal of the turbidity meter in real time.

[Example 6-1] Cooling water purifying apparatus of the present invention In the example 2-1, the ion exchanger is a cylindrical accumulation type desalting electrode including a cylindrical stacked body including a carbon layer, An inflow channel formed along the rim of the side portion, An outflow channel formed through the center in the plane direction of the layer; And a seal formed around the rim of the laminate to prevent fluid from being discharged in a direction outside the rim of the laminate, wherein the inflow channel and the outflow channel are formed inside the seal portion .

[Example 7-1] Cooling water purifying apparatus of the present invention In Example 6-1, the above-mentioned laminate had a spacer layer; A first ion exchange layer, a carbon layer, and a second ion exchange layer opposite to the first ion exchange layer; and a bipolar layer stacked in contact with each other in this order.

[Example 8-1] In the cooling water purifying apparatus of Example 7-1 of the present invention, the spacer layer includes a first spacer layer and a second spacer layer, and the bipolar layer body is formed by the first spacer layer, Wherein the first ion exchange layer, the carbon layer, the second ion exchange layer, and the second spacer layer are in contact with each other in order.

[Example 9-1] Cooling water purifying apparatus of the present invention In the example 6-1, the laminate includes a bipolar laminate in which a metal layer, the carbon layer, and an ion exchange layer are in contact with each other in order.

[Example 10-1] Cooling Water Purification Apparatus of the Present Invention In Example 9-1, the metal layer includes a metal electrode including metal terminals protruding outward from the bipolar laminate.

100: cooling tower 200: cooling water supply pipe
300: Cooling water discharge pipe 400: Cooling water purifier
410: first flow path 420: second flow path
430: first control valve 440: second control valve
500: ion exchanger 510: discharge pipe
610: turbidity meter 620: controller

Claims (10)

In the cooling water purification apparatus,
A cooling water supply pipe 200 for supplying cooling water to the cooling tower 100;
A cooling water discharge pipe 300 for discharging cooling water from the cooling tower;
And a cooling water purifier (400) coupled between the cooling water supply pipe and the cooling water discharge pipe.
The method according to claim 1,
The cooling water purifier includes a first flow path 410 having one side coupled to a cooling water supply pipe and the other side coupled to a cooling water discharge pipe;
And a second flow path 420 in which one side is coupled to the cooling water supply pipe, the other side is connected to the cooling water discharge pipe, and the ion exchanger 500 is installed in the middle.
The method of claim 2,
A first control valve 430 having one side communicating with the cooling water supply pipe and the other side communicating with the first flow path and the second flow path;
And a second control valve (440) having one side communicating with the first flow path and the second flow path, and the other side communicating with the cooling water supply pipe.
The method of claim 2,
And a discharge pipe (510) formed in the ion exchanger and discharging the cooling water.
The method according to claim 3 or 4,
A turbidity meter 610 formed on the cooling water discharge pipe and measuring turbidity;
And a controller (620) for receiving information of the turbidity meter and controlling opening and closing of the first control valve and / or the second control valve.
The method of claim 2,
Wherein the ion exchanger is a cylindrical accumulation type desalination electrode including a cylindrical stacked body including a carbon layer, the stacked body having an inlet flow path formed along a rim of the side portion through a side in the surface direction of the layer;
An outflow channel formed through the center in the plane direction of the layer; And
And a seal formed around the rim of the laminate so that the fluid is not discharged in a direction outside the rim of the laminate, wherein the inflow channel and the outflow channel are formed inside the seal portion The cooling water purification device comprising:
The method of claim 6,
The laminate includes a spacer layer;
A first ion exchange layer, a carbon layer, and a second ion exchange layer opposite to the first ion exchange layer; and a bipolar layer stacked in contact with each other in this order.
The method of claim 7,
Wherein the spacer layer comprises a first spacer layer and a second spacer layer, wherein the bipolar laminate comprises the first spacer layer, the first ion exchange layer, the carbon layer, the second ion exchange layer and the second spacer Wherein the layers are stacked in contact with each other in order.
The method of claim 6,
Wherein the laminate is a bipolar laminate in which a metal layer, the carbon layer, and an ion exchange layer are in contact with each other in order.
The method of claim 9,
Wherein the metal layer is a metal electrode including a metal terminal projected to the outside of the bipolar laminate.

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