KR100360593B1 - Ozonated water generation apparatus - Google Patents

Abstract

The present invention relates to an ozone water production apparatus capable of generating a high concentration of ozone water by adjusting the pressure and temperature in the ozone dissolving tank and increasing the contact time and connection area between water and ozone gas. The ozone gas generated by the pump is introduced into the ozone dissolving tank, and the air outlet size of the ozone dissolving tank is appropriately adjusted to generate an appropriate level of pressure in the container of the ozone dissolving tank, and the water filled in the container is ozone By injecting into the gas, the contact time and the contact area between the water and the ozone gas are increased, and a cooling device is attached to lower the temperature of the inner space of the container to a predetermined level, thereby realizing high concentration of the generated ozone water.

Description

Ozone water production apparatus {OZONATED WATER GENERATION APPARATUS}

The present invention relates to an apparatus for producing ozonated water, and more particularly, to an ozone water producing apparatus suitable for producing a high concentration of ozone water used as a cleaning agent, a sterilizing agent and the like in the industrial field.

As is well known, ozone (O3) acts as a strong oxidant and is widely used as a cleaning or disinfectant not only in semiconductors but also in other industries. The use of OH eliminates the use of other chemicals that are harmful to the environment or human body. Or reduce usage. That is, by using ozone water as a cleaning agent or a sterilizing agent, not only the consumption of harmful chemicals can be reduced, but also the cost of wastewater treatment due to the use of chemicals can be reduced, and problems such as environmental pollution can be reduced.

Meanwhile, in the case of a semiconductor manufactured by repeatedly forming a large number of fine patterns on a wafer, ozone water may be used to remove photoresist used in a photolithography process required for patterning. The application of can also be considered.

On the other hand, general methods for preparing ozone (O3) include the method of forming ozone by applying RF to oxygen (O2) and the method of producing ozone by decomposing water, but in practical applications ozone produced by the above two methods Is dissolved in water, and ozone-dissolved water is used as ozone water.

FIG. 3 is a block diagram schematically showing an apparatus for producing ozone water according to a conventional method, wherein the conventional ozone water producing apparatus includes a pump 302, an ozonizer 304, and an ozone dissolving tank 306.

Referring to FIG. 3, the pump 302 pumps water (pure water or ultrapure water) supplied from the outside to the ozone dissolving tank 306, and the ozonizer (or ozone generating device) 304 receives ozone. Production, that is, ozone (O3) gas is generated by applying plasma to oxygen (O2) supplied from the outside or by electrolyzing water, wherein the ozone gas is dissolved in ozone through an intake duct and an intake pipe (not shown). Supplied to tank 306.

Next, the ozone dissolution tank 306 generates the target ozone water using water supplied through the pump 302 and ozone gas supplied from the ozonizer 304. That is, although the detailed illustration of FIG. 3 is omitted, the membrane for introducing water is provided in the ozone dissolving tank 306, and the water supplied through the pump 302 flows into the membrane and the ozonizer 304. The ozone gas supplied from the gas flows into the inner space of the ozone dissolution tank 306 (that is, the space surrounding the membrane).

Therefore, ozone in ozone gas is diffused into the water by the difference between the ozone concentration in the ozone gas introduced into the internal space of the ozone dissolution tank 306 and the ozone concentration of the water introduced into the membrane, thereby forming ozone water. At this time, the ozone concentration in the ozone water formed is basically determined by the ozone concentration in the ozone gas.

On the other hand, when the ozone concentration in the ozone water is increased, the ozone activity in the ozone water is further increased, thereby reducing the treatment time of the washing process and the sterilization process. That is, the high concentration of ozone water means that the washing power, sterilization capacity, etc. are further increased, which leads to a shortening of the treatment time of the washing and sterilization process.

Therefore, when ozone water is generated using pure water and ozone gas, it is required to generate ozone water at a high concentration of ozone.

The present invention has been devised in view of the above point, and manufactures ozone water capable of generating a high concentration of ozonated water by adjusting the pressure and temperature in an ozone dissolving tank and increasing the contact time and connection area between water and ozone gas. The object is to provide a device.

In order to achieve the above object, the present invention provides a device for producing ozone water by introducing an ozone gas containing water and ozone into an ozone dissolution tank, wherein the ozone dissolution tank is a container for filling the water and ozone gas, inflow An injection nozzle for spraying the water into the container, an exhaust port mounted on one side of the container, an opening / closing valve controlling opening and closing of the exhaust port, and mounted outside the container to set a temperature inside the container to a predetermined level. Cooling means for adjusting; The manufacturing apparatus may include a first pump configured to supply the water pumped from the outside to the spray nozzle to be introduced into the ozone dissolving tank, an ozonizer for generating ozone gas using oxygen provided from the outside, and the ozoneizer. It provides a ozone water production apparatus comprising a second pump for pumping the ozone gas is introduced into the ozone dissolution tank.

1 is a block diagram of an ozone water production apparatus according to a preferred embodiment of the present invention,

2 is a cross-sectional view of the ozone dissolution tank shown in FIG.

Figure 3 is a block diagram schematically showing an apparatus for producing ozone water according to the conventional method.

<Description of the code | symbol about the principal part of drawing>

102, 106: pump 104: ozonizer

108: ozone dissolution tank 1081: container

1081b: gas intake port

1081c: gas exhaust

1083 injection nozzle 1084 exhaust port

1085: on-off valve 1086: cooling device

1087: inner space 1088: water

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As is well known, the mechanism of dissolving ozone in ozone gas in water to produce ozone water is controlled by diffusion. Therefore, in order to obtain a high concentration of ozonated water, it is necessary to allow diffusion between ozone gas and water well.

On the other hand, in order to diffuse well between ozone gas and water, first, the solubility of ozone in water is large, second, the ozone concentration in ozone gas is increased, or third, the contact time between ozone gas and water. To increase the area where diffusion can occur by increasing the contact area between ozone and water, or to make the diffusion coefficient large so that ozone in the ozone gas can quickly diffuse into the water. You can consider.

Therefore, the main technical point of the present invention is to generate high concentration of ozone water by promoting ozone diffusion between ozone gas and water by using the first, third and fourth methods among the various methods described above.

In other words, according to Sievert's Law, the solubility of the liquid in the gas is proportional to the partial pressure of the dissolved gas when the dissolved gas is dissolved in the liquid in molecular form. Therefore, when the partial pressure of ozone is increased, the amount of ozone that can be dissolved in water increases, so that the concentration of ozone in ozone water can be increased.

In addition, in general, it is known that the solubility increases as the temperature increases, but in the case of ozone, it is known that the lower the temperature, the higher the concentration of dissolved ozone.

Therefore, the present invention focuses on the above three aspects (pressure, contact time and contact area, temperature), and increases the partial pressure of ozone to a certain level, and increases the contact time and contact area between water and ozone gas. In addition, it is a key technical subject to generate a high concentration of ozone water by controlling the temperature of the ozone dissolving tank low, through which the objectives of the present invention can be easily achieved.

1 is a block diagram of an ozone water production apparatus according to a preferred embodiment of the present invention, the ozone water production apparatus of the present invention is the first pump 102, ozonizer 104, the second pump 106 and ozone dissolved Tank 108.

Referring to FIG. 1, the first pump 102 pumps water (pure water or ultrapure water) provided from the outside to supply the ozone dissolving tank 108 through an injection nozzle, and an ozonizer (or ozone generating device). 104 generates ozone, that is, ozone (O3) gas is generated by applying plasma to oxygen (O2) supplied from the outside or electrolyzing water.

In addition, the second pump 106 is to increase the partial pressure of the generated ozone, the ozone dissolving tank 108 through the intake duct and intake pipe (not shown) by pumping the ozone gas generated in the ozonizer 104 Is supplied.

Next, the ozone dissolving tank 108 generates target ozone water by using the water supplied through the first pump 102 and the ozone gas supplied through the second pump 106. As shown, a container 1081, water jetting means with an injection nozzle 1083, an exhaust port 1084, an opening / closing valve 1085 and a cooling device 1086 are included. Here, the cooling device 1086 can use, for example, a cooling device using a refrigerant or a cooling device of a semiconductor type.

In addition, a gas inlet 1081b through which ozone gas flows is provided in a predetermined portion of the container 1081.

Next, a process of generating high concentration ozone water in the ozone water production apparatus of the present invention having the structure as described above will be described.

Water pumped through the first pump 102 of FIG. 1 is injected into the ozone dissolving tank 108 through the spray nozzle 1083, and the water 1088 thus introduced is the inner space 1087 of the container 1081. Filled at the bottom of the. In addition, ozone gas generated in the ozonizer 104 of FIG. 1 is pumped through the second pump 106 to allow the inner space 1087 of the container 1081 through the gas inlet 1081b of the ozone dissolving tank 108. Flows into.

At this time, the ozone gas flowing into the inner space 1087 is subjected to an appropriate level of pressure inside the container 1081 according to the pumping force of the second pump 106 and the size of the gas exhaust port 1081c.

Therefore, as described above, by applying an appropriate level of pressure to the ozone gas introduced into the inner space 1087, the amount of ozone that ozone in the ozone gas can dissolve into water 1088 is doubled, thereby increasing the ozone concentration in the ozone water. Increase. For example, the ozone concentration that can be dissolved in water in an ozone dissolution tank at 2 atmospheres is approximately twice the ozone concentration that can be dissolved in water in an ozone dissolution tank at atmospheric pressure.

On the other hand, when the contact time between water and ozone gas is increased or the contact area is increased, the concentration of ozone dissolved in water can be doubled. In the present invention, a method of spraying water using the spray nozzle 1083 is used. . Through the injection of water, the contact time between the water and the ozone gas is increased and the contact area is increased, thereby increasing the concentration of ozone water generated. Also, the spraying process can be repeated if necessary.

In addition, in the case of ozone, the lower the temperature, the higher the concentration of dissolved ozone, and the ozone water producing apparatus of the present invention can realize the high concentration of ozone water generated by using this point. By providing the cooling device 1086 and using the cooling device 1086 to keep the temperature inside the container 1081 at a predetermined level, it is possible to further realize high concentration of the generated ozone water. At this time, the cooling temperature is preferably set to a temperature range such that the water does not freeze.

Then, when the production of the target ozone water is completed, the high-concentration ozone water generated through the exhaust port 1084 is discharged by opening the open / close valve 1085 based on the open / close signal provided from the control means (not shown).

As described above, according to the present invention, an ozone gas generated by using a pump is introduced into an ozone dissolution tank, and an appropriate level of pressure is generated in a container of the ozone dissolution tank by appropriately adjusting the exhaust port size of the ozone dissolution tank. Water is injected into the ozone gas from the container to increase the contact time and contact area between the water and the ozone gas, and by attaching a cooling device to lower the temperature of the inner space of the container to a predetermined level, thereby increasing the concentration of generated ozone water. It can be realized.

Therefore, by performing a washing process, a sterilization process, etc. using a high concentration of ozone water prepared according to the present invention, it is possible to significantly shorten the processing time in the process, it is possible to improve the productivity of a specific product.

In addition, the ozone dissolving tank employed in the ozone water producing apparatus according to the present invention does not adopt a membrane structure, unlike the above-described conventional apparatus in which a membrane structure is formed in the inner space, thereby simplifying the structure of the ozone dissolving tank and reducing the cost. It has side effects that can be realized.

Claims (8)

An apparatus for producing ozone water by introducing an ozone gas containing water and ozone into an ozone dissolution tank, The ozone dissolution tank, A container filling the water and ozone gas, a spray nozzle for spraying the incoming water into the container, an exhaust port mounted on one side of the container, an opening / closing valve for controlling opening and closing of the exhaust port, and an outer side of the container Cooling means for adjusting a temperature inside the container to a predetermined predetermined level; The manufacturing apparatus, A first pump for supplying the water pumped from the outside to the injection nozzle to be introduced into the ozone dissolution tank; Ozoneizer for generating ozone gas using oxygen provided from the outside, and And a second pump for pumping the ozone gas generated by the ozonizer to flow into the ozone dissolution tank. delete The ozone water production apparatus according to claim 1, wherein the cooling means is a cooling device using a refrigerant. The ozone water production apparatus according to claim 1, wherein the cooling means is a semiconductor type cooling device. The ozone water production apparatus according to claim 1, wherein the ozone water is generated by increasing the pressure in the ozone dissolution tank. The ozone water according to claim 1, wherein the device generates a predetermined level of pressure in the ozone dissolving tank into which the water and ozone gas are introduced, and cools the internal temperature of the ozone dissolving tank to a predetermined level. Ozone water production apparatus, characterized in that for producing. The ozone water production apparatus according to claim 5 or 6, wherein the device generates the pressure by a pumping force for introducing the ozone gas into the ozone dissolution tank. The ozone water production apparatus according to claim 6, wherein the device cools the internal temperature of the ozone dissolution tank by using a refrigerant or a semiconductor cooling device.