KR20100116153A - Apparatus for producing oygen dissolved water - Google Patents

Abstract

PURPOSE: An oxygen dissolution water production device is provided to increase the oxygen dissolution volume, thereby enhancing the oxygen dissolution production efficiency. CONSTITUTION: An oxygen dissolution water production device includes a pump(1), a charging tower(2), an air tank(3). The pump supplied water. The charging tower dissolutes the oxygen of air into water. The air tank stores the air. The oxygen dissolution producing device removes the inner air by discharging(200) the inner air of the charging tower and an air tank when oxygen mole fraction of air which is used in producing the air dissolution by supplied inside the charging tower is reach the constant value before reaching to the equilibrium state. The oxygen dissolution water production device has a air discharging and inflow means which atmosphere air is flown-in in charging tower and air tank.

Description

       Apparatus for producing oygen dissolved water}

The present invention relates to an apparatus for producing oxygen dissolved water, and more particularly, to an apparatus for producing oxygen dissolved water by dissolving oxygen in atmospheric air in water at a pressure higher than atmospheric pressure.

In an oxygen molten water production system comprising a pump for supplying water, a packed tower for dissolving oxygen in air, and an air tank for storing air, an oxygen molar fraction of atmospheric air supplied to the packed column is 0.21. Has

However, as the air composition inside the packed column starts to produce oxygen dissolved water, the molar fraction of oxygen is lowered and the equilibrium is reached as the molar fraction of nitrogen is increased due to the difference in solubility of water between oxygen and nitrogen. The oxygen mole fraction of is known to have a value of 0.13 to 0.14 at a temperature of 20 ° C. and a pressure of 4 to 8 atmospheres depending on temperature and pressure (see Non-Patent Document 1).

Therefore, when the composition of air in the packed column reaches the equilibrium state, the amount of oxygen dissolved in the water is less than that at the start of the production of oxygen dissolved water before the equilibrium state is reached. There is a problem. Here, under the same temperature and pressure conditions, the oxygen dissolved amount at the oxygen mole fraction 0.13 value is 62% of the oxygen dissolved amount at the oxygen mole fraction 0.21 value.

[Non-Patent Document 1] S. Steinbach, J. Haaroff "Design and Analysis of Packed Saturators in Dissolved Air Floatation", WRC Report No TT 108/99 ISBN 1 86845 492 4, p.11-13

SUMMARY OF THE INVENTION An object of the present invention is to provide an oxygen dissolved water production apparatus comprising a pump for supplying water, a packed tower for dissolving oxygen in air in water, and an air tank for storing air.

The air composition inside the packed column reaches the equilibrium state after a certain time after the production of dissolved oxygen water. At this time, the mole fraction of oxygen is lowered and the oxygen dissolved amount is reduced, so that the molar fraction of oxygen is constant before reaching equilibrium. When the value is reached, the internal air of the packed tower and the air tank is exhausted to remove the atmosphere, and the air is dissolved to increase oxygen dissolution by supplying air having a higher molar fraction than the air inside the packed tower to the packed tower. Finding ways to improve water production efficiency.

The object is, according to the present invention, a pump for supplying water; A packed column dissolving oxygen in the air in water; An air tank for storing air; And when the molar fraction of oxygen in the air supplied to the packed column used for producing oxygen dissolved water reaches a predetermined value before reaching an equilibrium state, the internal air of the packed tower and the air tank is evacuated and removed. It is achieved by the oxygen dissolved water production apparatus, characterized in that the air inlet and the inlet means for introducing air to the packed tower and the air tank.

Here, the air exhaust and inlet means is composed of a time controller or oxygen meter or nitrogen meter or dissolved oxygen meter and exhaust valve and drain valve, the constant value is added to the molar fraction of oxygen at equilibrium value 0.005 to 0.02 It has a value, the volume of the air tank has a value equal to or more than the atmospheric pressure conversion value of the sum of the volume of the air volume and the volume of the packed column consumed from the time of production to reach the predetermined value at the production pressure.

According to the present invention, it is possible to improve the oxygen dissolved water production efficiency by increasing the amount of dissolved oxygen.

1 is a block diagram of an oxygen dissolved water production apparatus according to an embodiment of the present invention.
<Brief description of symbols used in the drawings>
1: pump 2: packed tower
3: air tank 4: filling material
5: oxygen dissolved water valve 6: exhaust valve
7: drain valve 10: time controller
20: oxygen measuring instrument 30: nitrogen measuring instrument
40: dissolved oxygen measuring instrument 50: control panel
100: water inlet 110: oxygen dissolved water discharge
120: drainage 200: exhaust
210: inlet air

Oxygen-dissolved water production apparatus according to the present invention relates to an oxygen-dissolved water production apparatus for dissolving oxygen in air in water at a pressure above atmospheric pressure, and more particularly, a pump for supplying water and a charge for dissolving oxygen in air in water It consists of a tower and an air tank that stores air,

When the oxygen mole fraction of the air supplied to the packed tower used for producing oxygen dissolved water reaches a predetermined value before reaching the equilibrium state, the internal air of the packed tower and the air tank is removed to the atmosphere to remove the atmosphere. Air inlet and inlet means for introducing air to the packed tower and the air tank, the air exhaust and inlet means is composed of a time controller or oxygen meter or nitrogen meter or dissolved oxygen meter and exhaust valve and drain valve The constant value has a value obtained by adding 0.005 to 0.02 to the oxygen molar fraction value at equilibrium, and the volume of the air tank is the volume of air consumed from the start of production to the constant value at the production pressure, There is a technical feature of having a value of at least the atmospheric pressure conversion value of the sum of the volumes.

Oxygen dissolved water production apparatus according to the present invention can increase the amount of dissolved oxygen to improve the efficiency of oxygen dissolved water production.

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

1 is a block diagram of an oxygen dissolved water production apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the apparatus for producing oxygen dissolved water according to the present invention includes a pump 1 for supplying water, a packed tower 2 for dissolving oxygen in air, and an air tank 3 for storing air. It is composed.

The pump 1 injects water 100 and supplies it to the packed tower 2, where water is in contact with air while passing through the filling material 4, and oxygen in the air is dissolved in water and produced as oxygen dissolved water.

The filling material 4 is filled in the charging tower 2. Packings increase the solubility of oxygen by increasing the contact area between air and water.

The air tank 3 stores air necessary for producing oxygen dissolved water and is located at the bottom of the packed column 2.

Oxygen-dissolved water is discharged through the oxygen-dissolved water valve 5, and the oxygen-dissolved water valve 5 adjusts the pressure and discharge flow rate in the packed column 2 and the air tank 3.

The air exhaust and inlet means is composed of a time controller 10 or an oxygen meter 20 or a nitrogen meter 30 or a dissolved oxygen meter 40, an exhaust valve 6 and a drain valve 7.

The exhaust valve 6 is located at the top of the packed column 2, the drain valve 7 is located at the bottom of the air tank (3).

The control panel 50 controls the time controller 10 or the oxygen measuring device 20 or the nitrogen measuring device 30 or the dissolved oxygen measuring device 40, the exhaust valve 6, and the drain valve 7.

If the time controller 10 or the oxygen measuring device 20 or the nitrogen measuring device 30 or the dissolved oxygen measuring device 40 has a function of controlling the exhaust valve 6 and the drain valve 7, the control panel 50 is not installed. It is preferable not to.

Referring to the oxygen dissolved water production and control method of the oxygen dissolved water production apparatus according to the present invention configured as described above are as follows.

At the start of production, the packed tower 2 and the air tank 3 are filled with atmospheric air at atmospheric pressure, and the exhaust valve 6 and the drain valve 7 are closed.

First, when the pump 1 inflows water 100 and supplies it to the packed column 2, water rises from the bottom of the air tank 3 to the pressure controlled by the oxygen dissolved water valve 5 and reaches the production pressure. do. At this time, the amount of water discharged gradually increases to reach the production flow rate.

Water is then contacted with air while passing through the filler 4, and oxygen in the air is dissolved in water to produce oxygen dissolved water. At this time, the pressure inside the packed tower 2 is preferably 4 to 6 atm.

Next, the air inside the packed tower 2 is dissolved in water and discharged as the production of dissolved oxygen water is exhausted. At this time, the water rises as much as the air volume consumed.

Next, when the oxygen mole fraction of the air inside the packed column 3 reaches a predetermined value before reaching the equilibrium state, the time controller 10 or the oxygen meter 20 or the nitrogen meter 30 or the dissolved oxygen meter 40 Reaches a set value, which is transmitted to the control panel 50, which causes the exhaust valve 6 and the drain valve 7 to open for a predetermined time.

Since the constant value decreases as the oxygen mole fraction decreases as it approaches the equilibrium state, a value obtained by adding 0.005 to 0.02 to the oxygen mole fraction value in the equilibrium state is preferable. Here, depending on the temperature and pressure, if the oxygen mole fraction in equilibrium is 0.13 value, the constant value is 0.135 to 0.15. Hereinafter, the constant value is described as 0.135.

In addition, the set value is as follows.

The set value of the time controller 10 is a time value from the start of the production of dissolved oxygen water until the oxygen mole fraction of the air inside the packed column 2 reaches a value of 0.135. Since the time value depends on the temperature and the pressure, it is preferable to set the value through experiment.

The set value of the oxygen measuring device 20 is an oxygen measurement value of the air inside the packed tower 3 when the oxygen mole fraction of the air inside the packed tower 2 reaches a value of 0.135.

The set value of the nitrogen measuring device 30 is a nitrogen measurement value of the air inside the packed tower 3 when the oxygen mole fraction of the air inside the packed tower 2 reaches a value of 0.135.

The set value of the dissolved oxygen measuring device 40 is a measured dissolved oxygen value of oxygen dissolved water when the oxygen mole fraction of the air inside the packed column 2 reaches a value of 0.135.

In addition, the predetermined time is removed by the internal air of the charging tower (2) and the air tank (3) is exhausted to the atmosphere 200 through the exhaust valve (6), the charging tower (2) through the drain valve (7) And the time until all the water in the air tank 3 is drained, depending on the pressure and volume of the charging tower 2 and the air tank 3 or the exhaust and drainage volume of the exhaust valve 6 and the drain valve 7. Therefore, it is desirable to determine through experimentation.

In addition, when the oxygen mole fraction of the air inside the packed tower 2 reaches 0.135, the internal water level of the packed tower 2 and the air tank 3 reaches the boundary level between the packed tower 2 and the air tank 3. It is desirable to. Therefore, the volume of the air tank (3) is the atmospheric pressure of the sum of the volume of air and the volume of the packed tower (2) consumed from the time of production at the production pressure until the oxygen mole fraction of the air inside the packed tower reaches the value of 0.135. It is preferable to have a volume of a conversion value or more.

Next, when the exhaust valve 6 is opened, the air inside the filling tower 2 and the air tank 3 is exhausted to the atmosphere 200 through the exhaust valve 6 and is removed, and the internal pressure is lowered to atmospheric pressure, When the valve 7 is opened, atmospheric air is introduced 210 through the exhaust valve 6 while the internal water is drained 120. When the exhaust 200 and the atmospheric air are introduced 210, the supply of water through the pump 1 is preferably stopped.

Next, when the exhaust 200 and the drain 120 are completed, the filling tower 3 and the air tank 3 are filled with atmospheric air at atmospheric pressure, the exhaust valve 6 and the drain valve 7 are closed, and the pump ( Water is supplied through 1) and oxygen dissolved water is produced.

As described above, when the oxygen mole fraction of the air inside the packed tower 2 reaches 0.135 before reaching the equilibrium state, the air inside the inside of the packed tower 2 and the air tank 3 through the air exhaust and inlet means. After the exhaust gas is removed to the atmosphere 200, the oxygen dissolved amount is increased and the oxygen dissolved water production efficiency is improved by supplying and supplying atmospheric air having an oxygen mole fraction of 0.21. Here, under the same temperature and pressure conditions, the oxygen dissolution rate is increased by 56% when the oxygen molar fraction of the air inside the packed column 2 has a value of 0.21 than the oxygen molar fraction of 0.135.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

Claims (4)

Oxygen-dissolved water production apparatus that dissolves oxygen in air in water at a pressure above atmospheric pressure
A pump 1 for supplying water;
A packed tower 2 for dissolving oxygen in air in water;
An air tank 3 for storing air; And
When the oxygen mole fraction of the air supplied to the packed tower 2 and used for producing oxygen dissolved water reaches a predetermined value before reaching the equilibrium state, the inside of the packed tower 2 and the air tank 3 Oxygen dissolved water production apparatus characterized in that it is provided in the packed tower (2) and the air tank (3), the air exhaust and inlet means for removing the air to the atmosphere (200) to remove the air and inlet (210). Claim 1
The air exhaust and inlet means is composed of a time controller 10 or oxygen measuring device 20 or nitrogen measuring device 30 or dissolved oxygen measuring device 40, exhaust valve 6 and drain valve (7) Oxygen dissolved water production equipment. Claim 1
The constant value is oxygen molten water production apparatus, characterized in that having a value of 0.005 to 0.02 to the oxygen mole fraction value in the equilibrium state. Claim 1
The volume of the air tank (3) is characterized in that it has a value of at least the atmospheric pressure conversion value of the sum of the volume of the air volume and the volume of the packed column (2) consumed from the start of production to reach the predetermined value at the production pressure Oxygen dissolved water production equipment.

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