KR100896128B1 - Cooling water recycling system - Google Patents

Abstract

The present invention relates to a cooling water recycling system, and more particularly, to recycling the cooling water used for washing and pre-cooling agricultural products, to remove large foreign substances by using a foreign material removal filter for waste coolant from the cooling water using device. By crystallizing organic matter by electrolyzing the waste coolant from which foreign substances have been removed, filtering the crystallized organic matter, and cooling the waste coolant filtered by organic crystallization through a cooling device, and then reusing the same in the cooling water using device. The effect of producing cooling water using much less energy (cooling waste water from about 7 ℃ to 2-5 ℃) than the energy used to cool raw water such as tap water (16 ~ 18 ℃) to 2 ~ 5 ℃. There is.

Cooling water, recycling, washing, precooling, through plate, plate plate

Description

Cooling water recycling system {COOLING WATER RECYCLING SYSTEM}

The present invention relates to a cooling water recycling system, and more particularly, to recycling the cooling water used for washing and pre-cooling agricultural products, to remove large foreign substances by using a foreign material removal filter for waste coolant from the cooling water using device. By crystallizing organic matter by electrolyzing the waste coolant from which foreign substances have been removed, filtering the crystallized organic matter, and cooling the waste coolant filtered by organic crystallization through a cooling device, and then reusing the same in the cooling water using device. The effect of producing cooling water using much less energy (cooling waste water from about 7 ℃ to 2-5 ℃) than the energy used to cool raw water such as tap water (16 ~ 18 ℃) to 2 ~ 5 ℃. There is.

Korean Unexamined Patent Publication No. 1992-4279 (Application No. 10-1991-13728) discloses a method for preparing sterilized water by adding sodium chloride and hydrochloric acid to a membrane-free electrolytic cell,

Korean Unexamined Patent Publication No. 1997-703913 (Application No. 10-1996-707115) discloses a technique of interposing an electrically insulating spacer between a positive electrode plate and a negative electrode plate,

Korean Unexamined Patent Publication No. 10-2003-0051571 (Application No. 10-2003-0037002) discloses an apparatus for generating a diaphragm-free electrolytic water using a mesh plate.

However, the above cited inventions or other prior arts do not suggest a system for recycling cooling water by using an electrolytic device, and there is a need to reduce energy consumption by recycling cooling water.

The present invention is to solve the problems of the prior art as described above, by recycling the cooling water used for washing and pre-cooling agricultural products, waste foreign water from the cooling water using apparatus using a foreign material removal filter to remove large foreign substances By removing the foreign matter, electrolyzing the waste coolant from which foreign substances have been removed to crystallize the organic matter, filtering the crystallized organic matter, and cooling the waste coolant filtered by the organic crystallization through a cooling device, and then reusing it in the cooling water using device. Cooling water can be produced using much less energy (waste cooling water from 7 ° C to 2-5 ° C) than the energy used to cool raw water (16-18 ° C), such as groundwater or tap water, to 2-5 ° C. The aim is to provide a cooling water recycling system that has an effective effect.

As described above, according to the present invention, there is an effect that can be used to recycle the cooling water used for washing and pre-cooling the agricultural products, cooling the raw water (16-18 ℃), such as general groundwater or tap water to 2-5 ℃ Cooling water can be produced using much less energy (cooling from about 7 ° C to 2-5 ° C) than the energy used to make it.

Cooling water recycling system according to the present invention,
A cooling device; A cooling water using device using cooling water via the cooling device; An electrolytic device for electrolyzing the coolant that has passed through the coolant using device; Having a foreign matter removal filter for removing the crystallized organic matter contained in the cooling water passed through the electrolytic device;
Cooling water passing through the foreign matter removing filter is introduced into the cooling device,
The electrolytic apparatus is configured to supply electricity to a housing, a plate electrode plate arranged to be parallel to or in close proximity to a flow direction of water in the housing, a through plate arranged alternately with the plate plate, and the plate plate and the plate. It includes a power source, there is no diaphragm between the plate electrode plate and the through-electrode plate, the plate electrode plate and the through-electrode plate is a non-diaphragm electrolysis device to which different electricity is applied, characterized in that to crystallize the organic matter contained in the cooling water.

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An additive input line for introducing an additive into the cooling water before the electrolytic apparatus; A cooling water reservoir for temporarily storing the cooling water after the cooling device; A foreign substance removal filter for removing foreign substances of the used cooling water that has passed through the cooling water using apparatus; It is preferable to have any one or two or more of;

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It is preferable that the through electrode plate is any one or two or more of a lattice type, a perforated type, a reticular type, and a tip type.

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The number of the flat plate and the through plate may be the same or different.

Here, the 'hole plate' is a hole is formed in the surface of the plate to allow the water to pass through the hole in the front and rear of the plate, 'flat plate' is a term corresponding to the plate through the hole. It means not. The flat plate is preferably flat, but may be manufactured to be flat if necessary.

Hereinafter, with reference to the drawings will be described in detail. However, these drawings are for illustrative purposes only and the present invention is not limited thereto.

1 is a schematic structural diagram of a cooling water recycling system according to an embodiment of the present invention.

Referring to Figure 1, the cooling device 50 is supplied from the replenishment water line 10, or cools the water via the foreign matter removal filter 40.

Water passing through the cooling device 50 is cooled to become cooling water at 2 to 5 ° C. The cooling device 50 may be a device capable of cooling ordinary water.

Cooling water from the cooling device 50 is stored in the coolant reservoir 60. Cooling water reservoir 60 may be attached to a device or a heat shield for maintaining a separate cooling water temperature. In addition, if necessary, the cooling device 50 may be integrated with the cooling device 50, and the cooling water in the cooling water storage container 60 may be fed back to the cooling device 50 to maintain the cooling water temperature.

Cooling water stored in the coolant reservoir 60 is moved to the coolant using device 70 (produced in the agricultural product washing tank and / or pre-cooling tank) as necessary to wash or precool the agricultural products. In general, by washing the produce with cold water of 3 ~ 5 ℃ to achieve the washing and pre-cooling effect at the same time. Cooling water use device 70 is not meant to be used only for washing and pre-cooling the produce, it can be applied anywhere that can be recovered after being used as can be used as cooling water.

Waste coolant used in the coolant using apparatus 70 is removed from the foreign matter through the foreign matter removal filter 80. The foreign material removal filter 80 uses a filter that is difficult to pass through the electrolytic device 30 or removes foreign matter having a size that is problematic, such as degrading the performance of the electrolytic device 30. The foreign material removal filter 80 may be integrally formed with the coolant using device 70 or the electrolytic device 30.

Waste coolant passing through the foreign matter removal filter 80 is introduced into the electrolytic apparatus 30 and is electrolyzed. Before the waste coolant is electrolyzed to the electrolytic apparatus 30, additives are injected in the additive line 20 so that the waste coolant has a salt concentration as necessary for electrolysis. Additives include salt, potassium chloride and the like, which are much lower than those used in conventional electrolyzers. In this device, the concentration of the additive is about 5 ppm (0.0005%), and the salt concentration is preferably about 0.0001% to 0.002%. It is not the purpose of the cooling water recycling system according to the present invention to produce electrolyzed water such as weakly acidic water or weakly alkaline water in the electrolytic apparatus 30 so that the salt concentration at the time of normal electrolysis is different from the salt concentration at the time of electrolysis. Since it is for controlling the microorganisms and crystallizing the dissolved organic matter, high salinity concentration is not necessary, and in the case of high salinity concentration, salt remaining in the produce in the cooling water using device 70 may cause other problems, which is not preferable.

In the electrolytic apparatus 30, the plate electrode plate 32 and the through electrode plate 34 are positioned horizontally with the flow of water, and the plate electrode plate 32 and the through electrode plate 34 are supplied with a predetermined amount of electricity to pass through the water. To convey. In the present invention, predetermined electricity is applied to the plate electrode plate 32 and the through electrode plate 34 to remove microorganisms of water passing through and to crystallize the organic matter.

The water flowing into the electrolytic device 30 is evenly distributed between the plate plate 32 and the through plate 34 through a flow path forming means (not shown) as necessary. The flow path forming means is installed as necessary to minimize the change in the flow rate as it is close or far from the inlet of the electrolytic device 30.

Water flows between the plate plate 32 and the through plate 34, and the water moves freely to the front and rear of the plate plate 34.

Different electricity is applied to the plate plate 32 and the through plate 34. For example, when a positive electrode is applied to the plate electrode plate 32, a negative electrode is applied to the through electrode plate 34.

In addition, by varying the number of the plate electrode plate 32 and the through-hole plate 34, it is possible to wash or pre-cool the agricultural product by making the weak acidic water or weak alkaline water.

The electrode plates inside the electrolytic apparatus 30 may be all flat plate plates 32 or all through plate plates 34, or may be used by appropriately mixing the plate plates 32 and the plate plates 34.

All of the pole plates inside the electrolytic apparatus 30 may be the through electrode plates 34, and the through plates 34 may be disposed perpendicular to the flow of water.

The water passing through the electrolytic device 30 can remove the organic matter crystallized through the foreign matter removal filter 40 and small foreign matters that could not be removed by the foreign matter removal filter 80 of the previous stage. It is preferable to use a finer than the foreign matter removal filter of reference numeral 40 as reference numeral 40.

Water passing through the foreign matter removal filter 40 is introduced into the cooling device 50 and cooled.

One or two or more of the cooling device 50, the coolant reservoir 60, the coolant using device 70, the foreign matter removing filter 80, the electrolytic device 30, and the foreign material removing filter 40 may be provided with a drain cock. Cooling water can be removed. When cooling water is removed from the drain cock, water is introduced into the supplemental water line 10.

In the case where the cooling water is insufficient or the salt concentration is high, the supplemental water is supplied through the supplemental water line 10, and, if necessary, the additive 12 is supplied through the additive line when the salt concentration of the waste cooling water is low. As the additive, an electrolyte such as salt or potassium chloride is usually used, and an electrolyte material such as acetate may be used if necessary.

[ Example ]

As for the number of pole plates (size 15 cm x 15 cm x 1 mm, copper and platinum and iridium coating), the electrolytic apparatus 30 uses 10 flat electrode plates 32 and 10 through-hole plates 34, and the voltage applied is 15V. The current was 45A, the salinity of waste cooling water was 5ppm, and the amount of water passed was 50ℓ / min.

Microorganisms were treated at 10 ⁵ CFU / ml before treatment and 0 after treatment. Detected as CFU / ml and removed 100.0%.

Organic matter (COD _Mn ) showed a treatment efficiency of 70% from 130ppm before treatment to 60ppm after treatment. Organic matter (COD _Mn ) was detected by the manganese method.

"Before treatment" was the test object of the waste cooling water through the coolant using device 70 for washing and pre-cooling the agricultural products and the foreign matter removal filter 80, and "after treatment" was passed through the foreign matter removal filter 40. The subsequent treated water was used as the test counter.

FIG. 2 is a diagram showing an arrangement of electrode plates in an electrolytic apparatus in one embodiment according to the present invention.

The flat plate 32 and the through plate 34 have a rectangular plate shape, but the shape can be modified as necessary.

In the present invention, the plate electrode plate 32 and the through electrode plate 34 are alternately arranged.

Water flows between the plate plate 32 and the through plate 34.

In the present invention, the number of the flat plate 32 and the through plate 34 can be more or less as needed, and the shape or size can be changed if necessary.

The number of the flat plate 32 and the through plate 34 may be different. For example, the number of the plate plates 32 may be four and the number of the through plate 34 may be five, or the number of the plate plates 32 may be five and the number of the plate plates 34 may be four. When the numbers of the flat plate 32 and the through plate 34 are different from each other, the pH of the electrolyzed water produced is largely changed.

FIG. 3 is a view showing an example in which the number of plate and plate electrodes in the electrolytic apparatus is different from each other in one embodiment according to the present invention.

In the present invention, a spacer (not shown) is interposed between the electrode plate 32 and the electrode plate 34 to insulate the electrode plate from the electrode plate. Spacers are usually thin sheets of plastic, sandwiched between the pole plates and assembled. If the insulating effect can be obtained even without the spacer (for example, when the edges of one or both sides of the electrode plate are coated with a predetermined plastic, resin, or the like to a predetermined thickness), the spacer may not be necessary.

The through plate 34 may use a plate formed with various types of holes such as a lattice, a mesh, a hole, a tip, and the like.

The lattice type is the case where the hole is drilled through the pole plate and the remaining shape is lattice type. The reticular type is the case where the hole is drilled through the pole plate and the remaining shape is reticular shape. The perforated type is the hole plate made through the round hole in the pole plate, and the tip type is the pole plate. Is to cut the two sides of the triangle to push the part cut from one side to the other side to form a tip, lattice type, reticular type, perforated type, tip type, etc., all have a common hole is formed.

1 is a schematic structural diagram of a cooling water recycling system in one embodiment according to the present invention;

FIG. 2 is a diagram showing an arrangement of electrode plates in an electrolytic apparatus in one embodiment according to the present invention. FIG.

3 is a view showing an example in which the number of plate electrodes and through plates in the electrolytic apparatus is different from each other in one embodiment according to the present invention;

*** Explanation of main parts of drawing ***

10. Refill Water Line 20. Additive Line

30. Electrolyzer 32. Plate plate

34. Through plate 40, 80. Foreign material removal filter

50. Chiller 60. Coolant reservoir

70. Cooling water device

Claims (8)

In the cooling water recycling system, A cooling device; A cooling water using device using cooling water via the cooling device; An electrolytic device for electrolyzing the coolant that has passed through the coolant using device; Having a foreign matter removal filter for removing the crystallized organic matter contained in the cooling water passed through the electrolytic device; Cooling water passing through the foreign matter removing filter is introduced into the cooling device, The electrolytic apparatus is configured to supply electricity to a housing, a plate electrode plate arranged to be parallel to or in close proximity to a flow direction of water in the housing, a through plate arranged alternately with the plate plate, and the plate plate and the plate. It includes a power source, there is no diaphragm between the plate electrode plate and the through-electrode plate, the plate electrode plate and the through-hole plate as a non-diaphragm electrolysis device to which different electricity is applied, characterized in that the cooling water characterized in that the crystallization of organic matter contained in the cooling water Recycling system. The method of claim 1, An additive input line for introducing an additive into the cooling water before the electrolytic apparatus; A cooling water reservoir for temporarily storing the cooling water after the cooling device; Replenishment water line through which the raw water flows into the cooling device; Cooling water recycling system having any one or two or more. The method according to claim 1 or 2, The through-hole plate is a cooling water recycling system, characterized in that any one or two or more of the grid type, perforated type, reticular type, tip type. The method of claim 3, Cooling water recycling system, characterized in that the number of the flat plate and the through plate is different. delete delete delete delete

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