FR2799456A1 - Water treatment apparatus for raising oxygen solubility in high purity drinking water comprises high-pressure pump, closed container, ozone injector, cooler, and supersonic vibrator - Google Patents

Abstract

A water treatment apparatus comprises a high pressure pump for conveying high purity drinking water treated by e.g., reverse osmosis, ultra filtration or distillation treatment, into a closed container. An ozone injector injects ozone into the conveyed water. Cooler cools the water in the container and supersonic vibrator keeps the ozone dissolved in the water. A water treatment apparatus for raising oxygen solubility in high purity drinking water comprises a high pressure pump (1) for conveying the drinking water into a closed container (3). The drinking water has been treated by reverse osmosis, ultra filtration or distillation treatment. The pressure pump has a capacity of 3-200 kg/cm<2>. An ozone injector (2) supplies into the closed container the conveyed drinking water with 5-100 ppm ozone per 1 ton of water. The closed container has an interior that is kept at a preset pressure, an inlet (30) for guiding the drinking water to its interior, and an outlet (31) adapted during use of the water. A cooler (4) is affixed around the container. It includes a compressor (40) and a condenser (41) for cooling and keeping the water in the container at a preset low temperature. A supersonic vibrator (5) is affixed to the closed container for stirring the drinking water in the container in an even condition. This process allows for an increase mutual percolating force, penetrating force, dispersing dimension, and contacting dimension of ozone with water and thus, raising also oxygen solubility in drinking water and prolonging period of time for sterilization. An Independent claim is also included for a method of treating water employing the inventive water treatment apparatus.

Description

i The present invention relates to a water treatment device

intended to increase the solubility of oxygen in ultrapure drinking water and its process, capable in particular of increasing the solubility of the oxygen contained therein and of prolonging the period

time required for sterilization.

Figure 1 shows a relatively improved conventional method of treating drinking water, which includes an ozone oxidation process to implement a first step of sterilizing, purifying and deodorizing, a filtering process to remove oxidized substances, a process for the treatment of fresh water by resin, a process for deodorizing by activated carbon, and finally a more sophisticated process of treatment by UF (ultra filter) or treatment by RO (reverse osmosis) (essential for ultra-pure drinking water), a cooling process, a process for injecting ozone to mix it back into drinking water in order to sterilize, purify and deodorize the water stored, pressurized and finally supplied to users . However, in the ozone injection method and the storage method, a drawback has been revealed regarding the ozone injected into the drinking water which can evaporate very easily due to the high activity quality of the water. ozone, and therefore, the effect of maintaining a high level of oxygen solubility in drinking water and prolonging the period of time

required for sterilization can be very low.

A main object of the present invention is to provide a water treatment device and its method for increasing the solubility of oxygen in drinking water and extending the period of time.

necessary for sterilization.

The water treatment device and its method for considerably increasing oxygen according to the present invention comprises a high-pressure pump for forcibly introducing the pre-treated ultra-pure drinking water into a closed container, an injector of '' ozone to inject dense ozone into the ultra pure drinking water, a chiller to cool the drinking water stored in the closed container and a vibrator

supersonic to agitate the stored drinking water.

The present invention will appear more clearly on

reading the following description made with reference to

attached diagrams.

Figure 1 is a flowchart showing the processes corresponding to conventional water treatment

drinkable;

Fig. 2 is a flowchart showing the methods corresponding to the water treatment device for increasing the solubility of oxygen according to the present invention; Fig. 3 is a sectional view of a first preferred embodiment of the water treatment device for increasing the solubility of oxygen according to the present invention; and, Fig. 4 is a sectional view of a second preferred embodiment of a water treatment device for increasing the solubility of oxygen according to the present invention; Fig. 5 is a graph showing the

correlation between viscosity and pressure of water.

FIG. 3 represents a first embodiment of a water treatment device intended to increase the solubility of oxygen, comprising a high pressure pump 1, an ozone injector 2, a closed container 3, a cooler 4 and a supersonic vibrator 5 combined together. FIG. 2 represents the methods implemented by the water treatment device according to the present invention, once again treating ultrapure drinking water already treated beforehand by the conventional treatment described above of drinking water, in which includes either reverse osmosis treatment (RO treatment), ultrafilter treatment (UF treatment), distillation treatment, scrubbing treatment, etc., for the purpose of increasing solubility oxygen in ultrapure drinking water treated according to conventional methods and finally to supply it under pressure so that the supplied water can contain oxygen with high solubility, and so that the period of

time required for sterilization can be prolonged.

Treatment with O. I. can remove at least 87 percent of ions, ultrafilter treatment can remove organic substances, and the scrubbing process can

remove cations or anions.

The high pressure pump 1 may have a

2 2

capacity between 3 kg / cm and 200 kg / cm to forcefully introduce ultrapure drinking water

duly processed beforehand.

The ozone injector 2 can have a concentration capacity between 5 ppm and 100 ppm per 1 ton

in the water introduced by the high pressure pump 1.

The closed container 3 has a suitable size to receive and store the water introduced by the high pressure pump 1, an interior maintained at a specific preset pressure, an inlet pipe 30 and an outlet pipe 31 for introducing the water. inside

and evacuate it from the device.

The cooler 4 is fixed around the closed container 3 at a suitable location, composed of a compressor 40 and a condenser 41 in order to cool the drinking water stored in the closed container 3 to reach a low temperature preset by their function of freezing. The supersonic vibrator 5, attached to the closed container 3 at a suitable location, is used to stir the water stored in the closed container 3 evenly so that the ozone can be fused with the water particles as if they were. put under emulsified condition, and be maintained in the greatest proportion with respect to the water and for as long as possible. In addition, the supersonic vibrator 5 can force the ozone and water to increase their mutual percolating force, mutual penetrating force, dispersion dimension and contact dimension in order to actually stir the ozone and water. way water

uniform.

In general, ultrapure drinking water is introduced by the high pressure pump 1, merged with the ozone by the ozone injector 2, made to flow through the inlet pipe 30 into the closed container 3, cooled and kept inside at a preset low temperature by cooler 4, and the two are finally vibrated and stirred to merge together under uniform condition, their mutual percolating, penetrating, dimension of dispersion and their contact dimension being increased to achieve the function of increasing the solubility of oxygen in drinking water, extending the period of time necessary for sterilization. As a result, ultra-pure and cleaner drinking water, whose solubility

oxygen is high, can be obtained.

The pressure inside the closed container 3 depends on the percentage of oxygen contained in the drinking water, and is not less than 3 kg / cm2. This internal pressure must be continuously maintained, otherwise the ozone injected into the drinking water will evaporate very quickly and escape out of the closed container 3, not being able to remain inside for too long so that the environment could be polluted and adversely affect workers in the vicinity. If the ozone in the air exceeds 0.1 ppm, the respiratory organs of workers in the vicinity will be affected, and if it exceeds 1 ppm, they

will be poisoned.

The frequency of the ultrasonic wave is preferably between 1.5 * 105 and 6.0 * 105 cycles / sec, which should not increase the temperature of the water stored in the

closed container 3.

The cooler 4 preferably operates to maintain the water contained in the closed container 3 at a temperature between 10 C and 20 C, inside which the ozone can merge with the water at its highest.

degree.

In addition, with regard to the inlet pipe 30 of the closed container 3, a high pressure nozzle 32 having several orifices is preferably attached therein, in order to increase as effectively as possible the contact dimension of the ozone with. water and its percentage of emulsion. The proportion of the diameter of the inlet pipe 30 relative to the outlet pipe 31 is preferably 4 to 1, in order to maintain the

internal pressure of closed container 3.

According to the previous description and as part of the

present invention, the water treatment device for increasing the solubility of oxygen provides security on the function of increasing the solubility of oxygen in drinking water and prolonging the period of time required sterilization and thus meeting the demand for ultra-pure drinking water and preventing pollution of the environment by ozone escaping from the drinking water during bottling or during water intake at the tap. In addition, the quality of a working environment and the safety of

workers are indirectly improved.

Figure 4 shows a second preferred embodiment of a water treatment device for increasing the solubility of oxygen, having the same structure as the first preferred embodiment, except for the closed container 3 which has a cone-shaped upper part 33, in order to guide the entering drinking water and to increase the contact dimension of the ozone with the water and of the oxygen fused in the water

drinkable.

As clearly shown in Figure 5, the viscosity of water is directly proportional to the pressure, and this means in physics that the higher the pressure, the greater the viscosity, i.e. the cohesion of the water becomes higher. Therefore, after the water agitated by the supersonic vibrator, the particles being separated, the particles of the water can constantly pinch the ozone powerfully due to its high cohesion, in order to create an emulsified condition, and the period time required for ozone sterilization can thus be extended. It is this reason which proves that this invention is usable either in theory or in practice. Referring to Figures 1 to 4, a method of treating water for increasing the solubility of oxygen, treating the water. Ultrapure drinking water already treated beforehand by means of RO treatment, UF treatment, distillation treatment or purification treatment, is proposed and includes the steps of: introducing water and ozone under pressure in a closed container 3, said closed container 3 being maintained at a pressure of at least 3 kg / cm; cooling said pressurized water and ozone by means of cooler 4 in said container 3 to thereby increase the viscosity of said water; and, vibrating said cooled water and said ozone by means of a supersonic vibrator 5 to mix said ozone into said water in which the

viscosity has been increased.

It further comprises the step of periodically removing at least a portion of the mixed water and ozone from said container 3 and replacing said water and said ozone removed from said container 3 by introducing water and ozone. additional ozone under pressure in said container 3 to maintain a pressure of at least 3 kg / cm in said compartment;

cooling the contents of said container 3 and vibrating said contents by means of said supersonic vibrator 5 to mix said ozone in said water.

Since the preferred embodiments of the present invention have been described above, it will be recognized and understood that various modifications may be made thereto.

made and the appended claims are intended to

cover the spirit and scope of the present invention.

Claims (9)

1. Water treatment device intended to increase the solubility of oxygen, by the treatment of ultra-pure drinking water already treated beforehand by means of a treatment by RO, a treatment by UF , a distillation treatment or a purification treatment, and comprising: a high pressure pump (1) having a capacity of 2 2 between 3 kg / cm and 200 kg / cm to forcefully introduce said drinking water into a closed container (3); an ozone injector (2) supplying to said drinking water introduced by said high pressure pump (1) between 5 ppm and 100 ppm of ozone per 1 ton of water; said closed container (3) receiving said drinking water injected with ozone supplied by said ozone injector (2), the interior of which is maintained at a preset pressure, an inlet pipe (30) for guiding said drinking water to the interior of said container (3) and an outlet pipe (31) for said potable water stored therein to flow out of the device for use; a cooler (4) fixed around said closed container 3 composed of a compressor (40) and a condenser (41) cooling and maintaining the temperature of said drinking water stored in said closed container (3) at a preset low temperature; an ultrasonic vibrator (5) attached to said closed container (3) for agitating said potable water stored in said container (3) under uniform condition; and said high pressure pump (1) introducing said previously treated drinking water into said closed container (3), said ozone injector (2) adding ozone to said drinking water, said drinking water with added ozone being introduced into said closed container (3), cooled by said cooler (4), maintained at a preset low temperature, then stirred uniformly by said supersonic vibrator (5) in order to increase the mutual percolating force, the mutual penetrating force, the dispersion dimension and the contact dimension of ozone with water, and thereby increase the solubility of oxygen in said drinking water and extend the period of time necessary for sterilization in said water drinkable. 2. A water treatment device for increasing the solubility of oxygen according to claim 1, characterized in that said preset pressure inside said closed container (3) is greater than 3 kg / cm. 3. A water treatment device intended to increase the solubility of oxygen according to claim 1, characterized in that the frequency generated by said ultrasonic vibrator (5) is included between 1.5 x 105 and 6.0 x 105 cycles / sec. 4. A water treatment device for increasing the solubility of oxygen according to claim 1, characterized in that said cooler (4) comprises means for maintaining said potable water stored in said closed container (3) at a temperature between 10C and 20 C. 5. Water treatment device for increasing the solubility of oxygen according to claim (1), characterized in that said inlet pipe (30) of said closed container (3) is fixed with a nozzle to high pressure with several small orifices in order to increase the contact dimension of ozone with water as well as the solubility of oxygen. 6. A water treatment device for increasing the solubility of oxygen according to claim 1, characterized in that said closed container (3) has a cone-shaped upper part in order to increase the contact dimension of ozone with water as well as the solubility of oxygen. 7. A water treatment device intended to increase the solubility of oxygen according to claim 1, characterized in that the proportion of the diameter of said inlet pipe (30) relative to said outlet pipe (31) of said closed container (3) is four to one in order to continuously maintain the preset pressure of said interior thereof. 8. Water treatment device intended to increase the solubility of oxygen, treating ultrapure drinking water already treated beforehand through RO treatment, UF treatment, a treatment by distillation or a purification treatment, and comprising the steps of: introducing water and ozone under pressure into a closed container (3), said closed container (3) being maintained at a pressure d at least 3 kg / cm; cooling said pressurized water and ozone in said container (3) to thereby increase the viscosity of said water; and vibrating said cooled water and said ozone using a supersonic vibrator (5), to mix said ozone into said water whose viscosity has been increased. The method of claim 8 further comprising the step of periodically removing at least a portion of the mixed water and ozone from said container (3) and replacing said water and said ozone withdrawn from said container (3). by introducing additional pressurized water and ozone into said container (3), to maintain a pressure of at least 3 kg / cm in said compartment; cooling the contents of said container (3) and vibrating said contents using said supersonic vibrator (5), to mix said ozone in said water.