KR100979268B1 - Water Treatment Apparatus using Advanced Oxidation Process - Google Patents

Abstract

The present invention is the first advanced oxidation step and untreated by hydrogen peroxide and ozone to sterilize the treated water such as effluent, wastewater, etc. and to form OH radical, which is a powerful disinfectant for decomposing and removing various organic substances of BOD and COD. The present invention relates to a water treatment apparatus consisting of a second advanced oxidation step of UV treatment of ozone and hydrogen peroxide. The present invention relates to an ultraviolet / ozone generator using a Teflon tube and an ultrasonic cleaning function for preventing contamination that is easily contaminated with waste water and obstructs ultraviolet transmission. It makes turbulent flow of wastewater inside and Teflon tube to make the UV water evenly transmitted to wastewater while having Teflon tube, simple structure, low price of device, easy installation and movement, low operation and maintenance cost, secondary In the advanced oxidation reactor, ozone, hydrogen peroxide and ultraviolet rays do not participate in the first reaction. By generating OH radicals to oxidize the waste water, high efficiency Advanced Oxidation Process (AOP) is possible, which sterilizes, disinfects, decolorizes and deodorizes various kinds of treated water such as waste water, It can be removed quickly and completely at high speed to improve water treatment efficiency.

Wastewater Treatment, Advanced Oxidation, OH Radical, Hydrogen Peroxide, Ultraviolet Light

Description

Water Treatment Apparatus using Advanced Oxidation Process

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an Advanced Oxidation Process (AOP) method in which hydrogen peroxide, ozone, and ultraviolet light are used in the same reaction tank in various water treatment facilities.

Commonly known oxidizing agents for water treatment include ozone, chlorine-based compounds such as chlorine gas, chlorine dioxide, hypochlorite, hydrogen peroxide, potassium permanganate, potassium dichromate, and the like. , BOD, COD It is used for various organic decomposition, removal, etc., or widely used as a reagent for water analysis.

However, all oxidizing agents except ozone have problems such as leaving secondary substances in water after use or forming another compound to cause secondary pollution. For example, in the case of chlorine-based chemicals used for sterilization or decolorization and organic matter treatment in wastewater treatment sites, the purpose of decolorization or sterilization can be achieved after treatment, but it reacts with organic substances in water to form chloramine, a carcinogen. If there is a defect that causes secondary pollution, and the treated water is discharged to the river after chlorine treatment, the chlorine component remaining in the treated water causes fatal action on various microorganisms in the river basin and destroys the ecosystem. It shows defects that cause various problems.

Therefore, in order to solve the deficiency of the water treatment method using the oxidizing agent as described above, a method of treating water using ozone which has strong oxidizing power and no burden of secondary pollution is proposed, and has been widely applied to various water treatment fields. .

However, when ozone is applied alone, the benefits of THM production, taste, cohesion or precipitation improvement, and biological activity can be expected and strong oxidizing power. In fact, ozone reacts with most organic substances. This slowness indicates a defect in which the capacity of the ozone injection facility of the treatment facility is increased, and in some cases, the reaction with the organic material is very selective, such that it does not react with any organic material and cannot be removed.

Therefore, the present invention is to solve the disadvantages of the existing ozone oxidation method using ozone alone, the present invention promotes the generation of hydroxyl (OH Radical), BOD contained in various treated water, such as waste water, waste water It provides a water treatment device by high efficiency highly oxidative process that can rapidly decompose and remove all organic matters such as CO2, COD, etc. There is this.

 In addition, another object of the present invention is to provide a water treatment apparatus by a highly efficient highly oxidized process that is easy to install and move, easy to operate and maintain, and low installation and operation costs by configuring the device to be assembled and installed by miniaturization and lightweight It is.

In addition, another object of the present invention is to provide a water treatment apparatus by a high-efficiency advanced oxidation process that can prevent the contamination by the waste water of the ultraviolet lamp to increase the efficiency of the advanced oxidation process by ultraviolet light.

Water treatment apparatus according to the high efficiency highly oxidized process of the present invention is a waste water storage tank (10); A pump 20 for pumping wastewater from the wastewater storage tank 10; A hydrogen peroxide generator (30) for generating hydrogen peroxide; An ejector (40) for mixing the hydrogen peroxide generated from the hydrogen peroxide generator (30) with the waste water pumped by the pump (20) to discharge the mixed waste water by the OH radicals of the hydrogen peroxide; A tube 51 connected to the ejector 40 and capable of transmitting light and a tube 51 wrapped around the outside of the tube 51 are radially wrapped at a predetermined interval and irradiates ultraviolet rays to the tube 51 to generate ozone. It is provided with a plurality of ozone generating ultraviolet lamp 52 to accommodate the tube 51 and the ozone generating ultraviolet lamp 52, the air inlet 53 through which air is introduced and the ozone generating ultraviolet light from the introduced air Ozone generated by the ultraviolet irradiation of the lamp 52 is mixed with the hydrogen peroxide and the first non-oxidized waste water and the ultraviolet rays irradiated from the ozone generating ultraviolet lamp 52 can be irradiated and secondary highly oxidized. A secondary advanced oxidation reactor (50) having an ozone outlet (54) for discharging the ozone to the ejector (40); A treated water discharge part 60 for discharging the secondary highly oxidized water from the secondary highly oxidized reaction tank 50; Characterized in that comprises a.

In addition, the line mixer 45, which is located between the ejector 40 and the tube 51 and remixes the wastewater and hydrogen peroxide that is not first highly oxidized by the ejector 40, is further provided. .

In addition, the tube 51 is characterized in that the Teflon tube or Teflon coated quartz tube.

In addition, it is characterized in that it is further provided with an ultrasonic vibrator 55 which is connected to the tube 51 and ultrasonically vibrates the tube 51.

In addition, a return line 70 for branching between the secondary highly oxidizing tank 50 and the treated water discharge unit 60 to return the second highly oxidized treated water to the wastewater storage tank 10 is provided. It is characterized in that the further provided.

As described above, the present invention treats various kinds of treated water such as waste water by the advanced oxidation treatment method using the ozone, hydrogen peroxide and ultraviolet light in combination with the UV lamp used for ozone supply in the same reaction tank as the secondary treatment means. As well as sterilizing, decolorizing and deodorizing the treated water, all kinds of organic matters of BOD and COD in the treated water can be rapidly and completely decomposed and removed to improve the water treatment efficiency. In addition, it has a simple structure that installs only hydrogen peroxide supply and ultraviolet lamp in the reaction tank of the pretreatment reaction means of the water treatment facility, so that it is easy to move and install, and it is easy to operate and maintain. It is effective in that it can be widely applied to various water treatment fields by providing inexpensive mass.

Hereinafter, the water treatment apparatus by the highly efficient advanced oxidation process of the present invention through the accompanying drawings.

1 is a view showing the overall configuration of a water treatment apparatus by a highly efficient high oxidation process of the present invention.

As shown, the water treatment apparatus by the highly efficient high oxidation process according to the present invention is a waste water storage tank (10); A pump 20 for pumping waste water; A hydrogen peroxide generator (30) for generating hydrogen peroxide; An ejector 40 in which hydrogen peroxide and waste water are mixed and discharged so that the waste water is first highly oxidized by OH radicals; A tube 51 capable of light transmission, an ozone generating ultraviolet lamp 52 for generating ozone by irradiating ultraviolet rays to the tube 51, and an air inlet 53 and ozone generated by ultraviolet irradiation together with hydrogen peroxide A secondary advanced oxidation tank (50) equipped with an ozone outlet (54) for discharging ozone generated to be mixed with the waste water and to be secondaryly oxidized to the ejector (40); Treatment water discharge unit 60 for discharging the secondary highly oxidized treatment water; It is made, including.

The waste water storage tank 10 stores waste water.

The pump 20 pumps the waste water from the waste water storage tank 10.

The hydrogen peroxide generator 30 generates hydrogen peroxide and the generated hydrogen peroxide is supplied to the ejector 40.

The ejector 40 mixes and discharges the hydrogen peroxide generated from the hydrogen peroxide generator 30 and the waste water pumped by the pump 20 so that the waste water is first highly oxidized by the OH radicals of the hydrogen peroxide.

The secondary highly oxidizing reaction tank 50 is connected to the ejector 40 and is light-transmissive tube 51, the tube 51 is wrapped around the outside is installed to be radially wrapped at a predetermined interval and the tube ( 51 is provided with a plurality of ozone generating ultraviolet lamps 52 that irradiate ultraviolet rays and generate ozone. In addition, the secondary advanced oxidation reaction tank 50 accommodates the tube 51 and the ozone generating ultraviolet lamp 52, the air inlet 53 through which air is introduced and the ozone generating ultraviolet lamp from the introduced air ( The ozone generated by the ultraviolet irradiation of 52) is mixed with the hydrogen peroxide and the first non-oxidized wastewater, and the ozone generated so that the ultraviolet ray irradiated from the ozone generating ultraviolet lamp 52 can be irradiated with the secondary highly oxidized. It is provided with an ozone discharge port 54 for discharging to the ejector 40.

According to Hoigne and Staehelim (1982), hydrogen peroxide paired HO ₂ ^- could act as an initiator to decompose ozone, and reported that it can decompose ozone much faster than hydroxyl to produce OH radicals. The initial reaction (intiation reaction) results Ozonide radical (O ₃ ^- and), and HO ₂ and is created and thereby generate OH radicals through a chain reaction, respectively. The overall stoichiometry is expressed by the reaction of 2 moles of ozone with 1 mole of hydrogen peroxide to produce 2 moles of OH radicals.

_{2O 3 + H 2 O 2 →} 2OH and + 3O ₂

Since the amount of hydrogen peroxide is more easily diluted in water than ozone, and ozone is a gas and there is a limit in dissolving in water, unreacted hydrogen peroxide is decomposed by ultraviolet rays, so that radicals are formed. The following describes the reaction mechanism of hydrogen peroxide and ozone.

The reaction in the tube of the secondary highly oxidizing reactor 50 is as described above to oxidize the waste water by the photolysis by the ultraviolet energy irradiated from the ultraviolet lamp 52 ozone and hydrogen peroxide that do not participate in the primary advanced oxidation reaction. It is a high efficiency Advanced Oxidation Process (AOP) reaction.

At this time, ozone absorbs strongly in the UV region of 253.7mm, and photons of ozone and ultraviolet light react to produce hydrogen peroxide, and the generated hydrogen peroxide generates hydroxyl groups (OH Radical) to decompose organic matter contained in waste water. Will be removed. In addition, since ozone is generated as hydrogen peroxide by a photolysis of substrate, and organic matters can be removed, the amount of hydrogen peroxide can be reduced since organic matters can be directly removed only by ultraviolet rays.

By this method, sterilization, disinfection, decolorization and deodorization of various kinds of treated water such as waste water can be performed with high efficiency, and all kinds of organic substances of BOD and COD can be quickly and completely removed to improve water treatment efficiency.

In addition, a conveying line 70 for branching between the secondary highly oxidizing reaction tank 50 and the treated water discharge part 60 to return the treated highly oxidized water to the wastewater storage tank 10 is further provided. It is preferred to be provided.

The generated ozone is discharged to the ejector 40 and then introduced into the tube to promote the formation of OH radicals by ultraviolet irradiation of the ultraviolet lamp.

As described above, the present invention is introduced by the first advanced oxidation step by the OH radical by the primary complex oxidant composed of the ejector mixing waste water with hydrogen peroxide and ozone and the ozone generating ultraviolet lamp 52 provided outside the tube 51. By performing a second advanced oxidation step to form OH radicals by ozone, it is possible to treat wastewater with high efficiency. In addition, since ozone is generated by ultraviolet irradiation without the need for a separate ozone generator, the structure is simple, easy to install and move, easy to operate and maintain, and the lamp is easier to manage than the existing one in the water. There is no concern of mercury contamination when is broken. In addition, since the tube 51 is a Teflon tube or a Teflon-coated quartz tube inside, it is easy to maintain a temperature at which ultraviolet rays are generated easily, and has a hydrophobic property in the nature of Teflon, thus preventing contamination.

In addition, the secondary highly oxidized reaction tank 50 is preferably connected to the tube 51 and further provided with an ultrasonic vibrator 55 for ultrasonically vibrating the tube 51.

As such, when the ultrasonic vibrator 55 is provided, foreign matters attached to the inside of the tube 51 can be easily removed, so that the tube does not need to be frequently cleaned, so maintenance is easy, and ultraviolet rays pass well into the inside of the tube. It is possible to increase the oxidation treatment efficiency.

At this time, since the wastewater flowing into the tube generally flows in a constant direction through a plug flow, less ultraviolet rays can reach the wastewater located at the center of the tube, so that a general line mixer 45 having an impeller is installed at the front of the Teflon tube. By changing the flow to turbulence, ozone or hydrogen peroxide in all water meets ultraviolet rays to generate OH radicals, thereby improving performance for maximizing organic decomposition ability.

In addition, a reflection plate (not shown) may be installed outside the tube 51 to increase the efficiency of the wrapped ultraviolet lamp 52 to maximize ultraviolet radiation to the tube 51.

The treated water discharge part 60 serves to discharge the secondary highly oxidized treated water from the secondary highly oxidized reaction tank 50.

In the case of the present invention, for example, in the case of the treatment of wastewater with strong phenolic components, the removal rate of organic matters can be increased by 1.5 times or more when combined with ultraviolet rays rather than the removal of organic matters only with ozone, and PCE is 13 times. In addition, the groundwater contamination due to the infiltration of industrial wastes or pesticides, etc., has become a big problem, and many of these organic compounds are organochlorine-based compounds. We can do it and can use even industrial wastewater and domestic wastewater treatment efficiently.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the overall configuration of a water treatment apparatus by a highly efficient high oxidation process of the present invention.

* Description of the symbols for the main parts of the drawings *

10: wastewater storage tank 20: pump

30: hydrogen peroxide generator 40: ejector

45: line mixer 50: second advanced oxidation reactor

51: tube 52: ultraviolet lamp

53: air inlet 54: ozone outlet

55: ultrasonic vibrator 60: treated water discharge

70: return line

Claims (5)

delete Waste water storage tank (10); A pump 20 for pumping wastewater from the wastewater storage tank 10; A hydrogen peroxide generator (30) for generating hydrogen peroxide; An ejector 40 for mixing the hydrogen peroxide generated from the hydrogen peroxide generator 30 with the waste water pumped by the pump 20 so as to discharge the mixed waste water by the OH radicals of the hydrogen peroxide; A tube 51 connected to the ejector 40 and capable of transmitting light and a tube 51 wrapped around the outside of the tube 51 are radially wrapped at a predetermined interval and irradiates ultraviolet rays to the tube 51 to generate ozone. A plurality of ozone generating ultraviolet lamps 52 are provided, The tube 51 and the ozone generating ultraviolet lamp 52 are accommodated, and ozone generated by ultraviolet irradiation of the ozone generating ultraviolet lamp 52 from the air inlet 53 through which air is introduced and the introduced air is hydrogen peroxide. And ozone outlet to discharge the ozone generated to the secondary ejector 40 by being irradiated with ultraviolet rays irradiated from the ozone generating ultraviolet lamp 52 and irradiated with the first highly highly oxidized waste water. 54) secondary advanced oxidation reactor (50) provided; A treated water discharge part 60 for discharging the secondary highly oxidized water from the secondary highly oxidized reaction tank 50; Including, Located between the ejector 40 and the tube 51, a high-efficiency altitude is further provided with a line mixer 45 for remixing the waste water and hydrogen peroxide that are not first highly oxidized by the ejector 40. Water treatment device by oxidation process. The method of claim 2 , The tube 51 is a Teflon tube or a Teflon-coated quartz tube, characterized in that the water treatment apparatus by a highly efficient oxidation process. Waste water storage tank (10); A pump 20 for pumping wastewater from the wastewater storage tank 10; A hydrogen peroxide generator (30) for generating hydrogen peroxide; An ejector 40 for mixing the hydrogen peroxide generated from the hydrogen peroxide generator 30 with the waste water pumped by the pump 20 so as to discharge the mixed waste water by the OH radicals of the hydrogen peroxide; A tube 51 connected to the ejector 40 and capable of transmitting light and a tube 51 wrapped around the outside of the tube 51 are radially wrapped at a predetermined interval and irradiates ultraviolet rays to the tube 51 to generate ozone. A plurality of ozone generating ultraviolet lamps 52 are provided, The tube 51 and the ozone generating ultraviolet lamp 52 are accommodated, and ozone generated by ultraviolet irradiation of the ozone generating ultraviolet lamp 52 from the air inlet 53 through which air is introduced and the introduced air is hydrogen peroxide. And ozone outlet to discharge the ozone generated to the secondary ejector 40 by being irradiated with ultraviolet rays irradiated from the ozone generating ultraviolet lamp 52 and irradiated with the first highly highly oxidized waste water. 54) secondary advanced oxidation reactor (50) provided; A treated water discharge part 60 for discharging the secondary highly oxidized water from the secondary highly oxidized reaction tank 50; Including, An ultrasonic vibrator (55) is connected to the tube (51) and ultrasonically vibrates the tube (51). Waste water storage tank (10); A pump 20 for pumping wastewater from the wastewater storage tank 10; A hydrogen peroxide generator (30) for generating hydrogen peroxide; An ejector 40 for mixing the hydrogen peroxide generated from the hydrogen peroxide generator 30 with the waste water pumped by the pump 20 so as to discharge the mixed waste water by the OH radicals of the hydrogen peroxide; A tube 51 connected to the ejector 40 and capable of transmitting light and a tube 51 wrapped around the outside of the tube 51 are radially wrapped at a predetermined interval and irradiates ultraviolet rays to the tube 51 to generate ozone. A plurality of ozone generating ultraviolet lamps 52 are provided, The tube 51 and the ozone generating ultraviolet lamp 52 are accommodated, and ozone generated by ultraviolet irradiation of the ozone generating ultraviolet lamp 52 from the air inlet 53 through which air is introduced and the introduced air is hydrogen peroxide. And ozone outlet to discharge the ozone generated to the secondary ejector 40 by being irradiated with ultraviolet rays irradiated from the ozone generating ultraviolet lamp 52 and irradiated with the first highly highly oxidized waste water. 54) secondary advanced oxidation reactor (50) provided; A treated water discharge part 60 for discharging the secondary highly oxidized water from the secondary highly oxidized reaction tank 50; Including, It is further provided with a return line 70 for branching between the second highly oxidized reaction tank 50 and the treated water discharge part 60 to convey the second highly oxidized treated water to the wastewater storage tank 10. Water treatment apparatus by a high efficiency highly oxidative process, characterized in that.

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