CN104803469A - Ozone, ultraviolet light and ultrasonic wave synergistic wastewater treatment device and working method thereof - Google Patents

Abstract

The invention discloses an ozone, ultraviolet light and ultrasonic wave synergistic wastewater treatment device and its working method. The device includes a reaction chamber with an ultrasonic vibrator and an ultraviolet lamp, an ultrasonic generator with an ultrasonic frequency adjustment function, and an ozone generator. A controller, a water tank and a power supply, the reactor is connected to the controller through a pipeline and a circuit, the ultrasonic generator is connected to an ultrasonic vibrator through a circuit, the water tank is connected to the controller through a pipeline, and the power supply is connected to the controller through a circuit. The working methods include: liquid intake, waste water treatment, gas-liquid circulation, and sampling monitoring. Superiority: Synergize the three oxidation treatment technologies of ozone, ultraviolet light and ultrasonic wave, and synthesize them in the same reactor, which can provide ultrasonic waves of different frequencies and ultraviolet lamps of different frequencies, and the toxic and harmful wastewater treated It can be processed cyclically until the best effect is satisfied.

Description

Ozone, ultraviolet light, ultrasonic synergy wastewater treatment device and working method

(1) Technical field:

The invention relates to a treatment device and working method for toxic and harmful waste water, in particular to a waste water treatment device and working method for the synergistic effect of ozone, ultraviolet light and ultrasonic waves.

(two) background technology:

With the development of science and technology, more and more organic matter is used in the process of industrial production, and the waste water produced has the characteristics of high toxicity, complex composition and difficult degradation. If these wastes are discharged directly to the outside without treatment, they will It poses a great threat to the environment and human health. The treatment of refractory toxic and hazardous waste has attracted attention both at home and abroad. Ozone is a highly oxidizing oxidizing agent, which has the functions of sterilization, disinfection, and color removal. It has strong oxidizing ability and fast processing speed. Ultraviolet light has the effect of sterilization and disinfection. Ultrasound is a sound wave with a frequency higher than 20,000 Hz. It travels far in water. It can sterilize liquids and promote chemical reactions by using the mechanical action, cavitation action, thermal effect and chemical effect of ultrasonic waves.

With the complexity of the composition of industrial waste liquid, the traditional secondary treatment process of physicochemical and biochemical has been unable to completely remove toxic and harmful components. Moreover, the cost of ozone is relatively high. In the gas-liquid transmission contact, the propagation rate of ozone to the liquid is slow, and bubbles are generated in the liquid, which deteriorates the propagation of ozone in water. In general, the solubility of ozone in liquid is relatively low. Low, affecting the oxidation of ozone. However, through the synergistic effect of multiple oxidation technologies, the utilization of ozone can be improved. This patent combines ozone, ultrasonic waves, and ultraviolet light to oxidize high-concentration toxic and harmful organic substances in wastewater into carbon dioxide and water, and the entire oxidation process is more environmentally friendly and efficient.

(3) Contents of the invention:

The object of the present invention is to provide a kind of ozone, ultraviolet light, ultrasonic synergistic effect wastewater treatment device and working method, three kinds of oxidation treatment technologies of ozone, ultraviolet light, ultrasonic synergistic effect, it is synthesized in the same reactor, this reactor Ultrasonic waves of different frequencies and ultraviolet lamps of different frequencies can be provided in the center, and the toxic and harmful wastewater to be treated can be recycled until the best treatment effect is satisfied.

A kind of ozone, ultraviolet light, ultrasonic wave synergy waste water treatment device, it is characterized in that it comprises the reaction chamber with ultrasonic vibrator and the ultraviolet lamp of replaceable frequency, the ultrasonic generator with ultrasonic frequency adjustment function and the control of ozone generator The reactor, the water tank and the power supply, the reactor is connected to the controller through the pipeline and the circuit, the ultrasonic generator is connected to the ultrasonic vibrator through the circuit, the water tank is connected to the controller through the pipeline, and the power supply is connected to the controller through the circuit.

The aforementioned ozone, ultraviolet light, and ultrasonic synergistic wastewater treatment device also includes a bracket on which a reactor, a controller, and a water tank are fixed.

The above-mentioned reactor includes a chamber body, an upper flange, a gas sensor, an ultraviolet lamp with a replaceable frequency, an ultrasonic vibrator, an ozone inlet aeration head, and a lower flange; the chamber body is square column-shaped, and the top of the chamber body is assembled The upper flange is equipped with a lower flange at the bottom of the warehouse; the upper flange has a gas detection port and an ozone gas outlet, the gas detection port is connected to a gas sensor through a gas pipeline, and the ozone gas outlet is connected to a gas circulation pipeline for control The air pump in the device; the lower flange has a liquid emptying port, a liquid circulation outlet and an ozone air intake aeration head, and the ozone air intake aeration head is connected to the ozone generator in the controller through an ozone air intake pipe, The liquid circulation outlet is connected to the water pump in the controller through a liquid circulation pipeline; ultrasonic vibrators are installed on the outer walls of the opposite sides of the warehouse body, and the ultraviolet lamp is located in the middle of the warehouse body and covered with a quartz lamp tube; the warehouse body There is a liquid inlet on the upper part, and the liquid inlet is connected to the water pump in the controller through a liquid inlet pipe; there are at least two sampling ports on the warehouse body.

The above-mentioned controller includes a control terminal system, an ozone generator, an ultrasonic generator, a water pump, an air pump, and a current and voltage display table; the ozone generator is connected to the ozone inlet aeration head in the reactor through an ozone inlet pipeline; The input end of the water pump is connected to the water tank through the liquid outlet pipeline of the water tank, and the output end of the water pump is connected to the warehouse body of the reactor through the liquid inlet pipeline and the liquid circulation pipeline; the input end of the air pump is connected to the ozone generator and the gas circulation pipeline, and the air pump The output end is connected to the ozone inlet aeration head through the ozone inlet pipeline, and the ozone gas inlet pipeline is connected to the ozone gas flowmeter in the controller, and there is a valve on the gas circulation pipeline; the current and voltage display table is connected to the controller On the total circuit of the device; the control terminal system controls the ozone generator, the ultrasonic generator, the water pump and the air pump through the circuit.

The control terminal system mentioned above is developed by the application program based on Labview.

The above-mentioned power supply is provided by solar energy and alternating current. When the solar energy is sufficient, all are provided by solar energy, and when the solar energy is insufficient, the solar energy and alternating current are jointly provided.

A working method of an ozone, ultraviolet light and ultrasonic wave synergistic wastewater treatment device, characterized in that the specific steps are as follows:

(1) Turn on the power, turn on the water pump switch in the controller to the left, and the waste liquid in the water tank enters the reactor chamber through the liquid outlet pipe of the water tank, the water pump and the liquid inlet pipe in turn from the liquid outlet of the water tank, and waits for the waste liquid to Turn off the water pump switch after the liquid is full of the chamber body.

(2) Open the ozone generator switch and the air pump switch, close the valve, the ozone generator produces ozone, and the ozone enters the reactor from the ozone inlet aeration head through the ozone inlet pipe;

(3) For waste liquids of different natures, install UV lamps with appropriate frequencies, turn on the UV lamps and ultrasonic generators, and adjust the ultrasonic generators and ozone gas flowmeters to provide ultrasonic waves of different frequencies and ozone of different flows;

(4) Turn on the switch of the water pump in the controller to the right, the liquid in the warehouse body can circulate into the warehouse body through the liquid circulation liquid pipeline, the water pump, and the liquid inlet pipeline in turn, and at the same time open the valve on the gas circulation pipeline, the warehouse body The unreacted ozone in the tank circulates through the gas circulation pipeline, ozone generator, and ozone intake pipeline to enter the chamber for reaction;

(5) Sampling and detecting various index values of the waste liquid at different positions of the chamber through the sampling port or adding a catalyzer through the sampling port, and detecting the change of the gas during the reaction process through the gas sensor;

(6) When the index values of the waste liquid meet the expected goals, turn off the power, the treated liquid is discharged through the liquid emptying port, and the gas in the chamber is discharged through the gas detection port.

Check the current and voltage values displayed by the current and voltage display table in the above-mentioned steps (1)-(6), and then obtain the power of the device in the working process.

The gas in the above-mentioned step (5) includes carbon dioxide, ozone and oxygen.

Advantages of the present invention:

(1) The three oxidation technologies of ozone, ultraviolet light and ultrasonic wave are integrated in one reactor, which reduces the volume of the reactor, improves the reaction efficiency and reduces the cost.

(2) Provide ultraviolet lamps of different frequencies by replacing the lamp tube.

(3) Through the synergistic effect of ultrasonic waves of different frequencies and ozone ultraviolet light, the cavitation of ultrasonic waves can promote the breaking of chemical bonds in organic matter in toxic and harmful wastewater, increase the contact between oxygen and toxic and harmful waste liquid, and jointly catalyze ozone with ultraviolet light Generate more hydroxyl radicals and improve the catalytic reaction efficiency.

(4) During the whole reaction process, the waste liquid can be circulated into the reaction chamber through the liquid pump, and the unreacted ozone can be circulated into the reaction chamber for reaction, which improves the reaction efficiency.

(5) The power supply part of the reaction device is converted from solar energy to realize the environmental protection and high efficiency of the oxidation process.

(6) The control terminal of the reaction device is controlled by the application program based on Labview, which realizes the automation of the whole operation process.

(4) Description of drawings:

Fig. 1 is a flow chart of an ozone, ultraviolet light and ultrasonic synergistic wastewater treatment device involved in the present invention.

Fig. 2 is a structural schematic diagram of an ozone, ultraviolet, and ultrasonic synergistic wastewater treatment device involved in the present invention.

Among them, 1 is the gas detection port, 2 is the upper flange, 3 is the bracket, 4 is the sampling port, 5 is the ultraviolet lamp, 6 is the ultrasonic vibrator, 7 is the chamber body, 8 is the ozone air inlet aeration head, 9 is the bottom Flange, 10 is the liquid emptying port, 11 is the liquid circulation outlet, 12 is the ozone gas outlet, 13 is the liquid inlet, 14 is the ozone inlet pipe, 15 is the liquid inlet pipe, 16 is the liquid circulation pipe, 17 is the gas Circulation pipeline, 18 is a valve, 19 is a controller, 20 is an oxygen inlet, 21 is a water tank outlet pipe, 22 is a water tank, 23 is a water tank outlet, 24 is an ozone gas flow meter, 25 is an air pump switch, 26 It is a water pump switch, 27 is an ozone generator switch, 28 is a current and voltage display table, and 29 is a gas sensor.

(5) Specific implementation methods:

Embodiment: a kind of ozone, ultraviolet light, ultrasonic wave synergy waste water treatment device (see figure 2), it is characterized in that it comprises the reaction chamber that has the ultraviolet lamp 5 of ultrasonic vibrator and replaceable frequency, has ultrasonic frequency adjustment function The controller 19, water tank 22 and power supply of ultrasonic generator and ozone generator, described reactor is connected controller 19 by pipeline and circuit, described ultrasonic controller is connected ultrasonic vibrator by circuit, and described water tank 22 is connected and controlled by pipeline device 19, and the power supply is connected to the controller through a circuit.

The aforementioned ozone, ultraviolet light, and ultrasonic synergistic wastewater treatment device also includes a bracket 3 on which a reactor, a controller 19 and a water tank 22 are fixed.

The reactor described above includes a chamber body 7, a gas sensor 29, an upper flange 2, an ultraviolet lamp 5 with a replaceable frequency, an ultrasonic vibrator 6, an ozone air inlet aeration head 8, and a lower flange 9; Square column shape, the upper flange 2 is assembled on the top of the warehouse body 7, and the lower flange 9 is assembled on the bottom of the warehouse body 7; the upper flange 2 has a gas detection port 1 and an ozone gas outlet 12, and the gas detection port 1 passes through the gas The pipeline is connected to the gas sensor 29, and the ozone gas outlet 12 is connected to the air pump in the controller 19 through the gas circulation pipeline 17; the liquid discharge port 10, the liquid circulation outlet 11 and the ozone air intake aeration head are arranged on the lower flange 9 8. The ozone inlet aeration head 8 is connected to the ozone generator in the controller 19 through the ozone inlet pipeline 14, and the liquid circulation outlet 11 is connected to the water pump in the controller 19 through the liquid circulation pipeline 16; 7. Ultrasonic vibrators 6 are installed on the outer walls of the opposite sides. The ultraviolet lamp 5 is located in the middle of the warehouse body 7 and is covered with a quartz lamp tube; the upper part of the warehouse body 7 has a liquid inlet 13, and the liquid inlet 13 The water pump in the controller is connected through the liquid inlet pipeline 15; two sampling ports 4 are arranged on the warehouse body 7.

The above-mentioned controller includes a control terminal system, an ozone generator, an ultrasonic generator, a water pump, an air pump, and a current and voltage display table 28; 8; the input end of the water pump is connected to the water tank 22 through the water tank outlet pipeline 21, and the output end of the water pump is connected to the warehouse body of the reactor through the liquid circulation pipeline 16 and the liquid inlet pipeline 15; the input end of the air pump is connected to the ozone generator And gas circulation pipeline 17, the output end of air pump connects ozone intake aeration head 8 by ozone gas inlet pipeline 14, and described ozone gas inlet pipeline 14 connects the ozone gas flowmeter 24 in the controller 19, and described gas circulation pipeline 17 There is a valve 18 on it; the current and voltage display meter 28 is connected to the total circuit of the controller; the control terminal system controls the ozone generator, ultrasonic controller, water pump and air pump through the circuit.

The control terminal system mentioned above is developed by the application program based on Labview.

The above-mentioned power supply is provided by solar energy and alternating current. When the solar energy is sufficient, all are provided by solar energy, and when the solar energy is insufficient, the solar energy and alternating current are jointly provided.

A kind of working method (see Fig. 1) of ozone, ultraviolet light, ultrasonic synergy wastewater treatment device, it is characterized in that concrete steps are as follows:

(1) Turn on the power supply, turn on the water pump switch 26 in the controller 19 to the left, and the waste liquid in the water tank 22 enters the reactor through the water tank liquid outlet pipe 21, the water pump and the liquid inlet pipe 15 successively from the water tank liquid outlet 23 The bin body 7, close the water pump switch 26 after the waste liquid is full of the bin body 7.

(2) open the ozone generator switch 27 and the air pump switch 25, close the valve 18, the ozone generator produces ozone, and the ozone enters the reactor from the ozone inlet aeration head 8 through the ozone inlet pipeline 14;

(3) For waste liquids of different properties, install the ultraviolet lamp 5 of suitable frequency, turn on the ultraviolet lamp 5 and the ultrasonic generator, adjust the ultrasonic generator and the ozone gas flow meter 24 to provide the ultrasonic waves of different frequencies and the ozone of different flows;

(4) Turn on the water pump switch 26 in the controller 19 to the right, and the liquid in the warehouse body 7 can enter the warehouse body 7 through the liquid circulation liquid pipeline 16, the water pump, and the liquid inlet pipeline 15 in turn, and open the gas circulation pipeline at the same time Valve 18 on the 17, the unreacted ozone in the storehouse body 7 enters storehouse body 7 reaction through gas circulation pipeline 17, ozone generator, ozone inlet pipeline 14 circulations successively;

(5) Sampling and detecting various index values of the waste liquid in different positions of the chamber body 7 through the sampling port 4 or adding a catalyzer through the sampling port 4, and detecting the change of gas during the reaction process through the gas sensor 29;

(6) When the index values of the waste liquid meet the expected goals, turn off the power, the treated liquid is discharged through the liquid emptying port 10, and the gas in the chamber body 7 is discharged through the gas detection port 1.

Check the current and voltage values shown in the current and voltage display table 28 in the above-mentioned steps (1)-(6), and then obtain the power of the device in the working process.

The gas in the above-mentioned step (5) includes carbon dioxide, ozone and oxygen.

Claims (9)

1. an ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment, it is characterized in that it comprises the reaction warehouse of the ultraviolet lamp with ultrasonic oscillator and replaceable frequency, controller, water tank and the power supply with the ultrasonic generator of ultrasonic frequency regulatory function and ozonizer, described reactor is by pipeline and circuit connection control device, described ultrasonic generator connects ultrasonic oscillator by circuit, described water tank is by pipeline connection control device, and described power supply is by circuit connection control device.

2. a kind of ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment according to claim 1, it is characterized in that described ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment also comprise support, fixed reactor, controller and water tank on described support.

3. a kind of ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment according to claim 1, is characterized in that described reactor comprises warehouse, gas sensor, upper flange, the ultraviolet lamp of replaceable frequency, ultrasonic oscillator, ozone air inlet aeration head, lower flange; Described warehouse is square column type, and warehouse top fit on flange, assembles lower flange bottom warehouse; Described upper flange has gas detection mouth and ozone outlet, described gas detection mouth connects gas detection sensor by gas pipeline, and described ozone outlet is by the air pump in gas recycling duct connection control device; Described lower flange there are emptying rate of liquid mouth, liquid circulation outlet and ozone air inlet aeration head, described ozone air inlet aeration head is by the ozonizer in ozone intake ducting connection control device, and described liquid circulation outlet is by the water pump in liquid circulation lines connection control device; The outer wall of the relative both sides of described warehouse is equipped with ultrasonic oscillator, and described ultraviolet lamp is positioned at warehouse center, and covers with quartz burner; Fluid inlet is arranged at the top of described warehouse, and described fluid inlet is by the water pump in liquid input duct connection control device; Described warehouse there are at least two thief holes.

4. a kind of ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment according to claim 1, is characterized in that described controller comprises control terminal system, ozonizer, ultrasonic generator, water pump, air pump and current/voltage indicator gauge; Described ozonizer is by the ozone air inlet aeration head in ozone intake ducting ligation device; The input terminus of described water pump connects water tank by water tank fluid pipeline, and water delivery side of pump passes through the warehouse of liquid input duct and liquid circulation lines ligation device; The input terminus of described air pump connects ozonizer and gas recycling duct, gas delivery side of pump connects ozone air inlet aeration head by ozone intake ducting, ozone gas flow meter in described ozone intake ducting connection control device, described gas recycling duct has valve; Described current/voltage indicator gauge is connected on the way circuit of controller; Described control terminal system is by control circui ozonizer, ultrasonic generator, water pump and air pump.

5. a kind of ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment according to claim 4, is characterized in that described control terminal system is by the application development based on Labview.

6. a kind of ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment according to claim 1, it is characterized in that described power supply is worked in coordination with by sun power and alternating-current to provide, all provided by sun power when sun power abundance, being worked in coordination with by sun power and alternating-current when sun power deficiency provides.

7. a method of work for ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment described in claim 1, is characterized in that concrete steps are as follows:

(1) opening power, pump switch in controller is opened to the left, waste liquid in water tank enters the warehouse of reactor successively by water tank fluid pipeline, water pump and liquid input duct from water tank liquid outlet, be full of until waste liquid the switch that to switch off the pump after warehouse;

(2) open ozonizer switch and air pump switch, valve-off, ozone produced by ozonizer, and ozone enters reactor by ozone intake ducting from ozone air inlet aeration head;

(3) for waste liquid of different nature, the ultraviolet lamp of suitable frequency is installed, opens ultraviolet lamp and ultrasonic generator, regulate ultrasonic generator and ozone gas flow meter with the ozone of the ultrasonic wave and different flow that provide different frequency;

(4) pump switch in controller is opened to the right, liquid in warehouse can enter warehouse by liquid circulation liquid pipeline, water pump, the circulation of liquid input duct successively, open the valve on gas recycling duct, in warehouse, unreacted ozone enters warehouse reaction through gas recycling duct, ozonizer, the circulation of ozone intake ducting successively simultaneously;

(5) sample the indices value of detection warehouse different positions waste liquid respectively by thief hole or add catalyst by thief hole, reaction process is by the change of gas in gas sensor detection reaction process;

(6) when the indices value of waste liquid meets re-set target, powered-down, the liquid after process is discharged by emptying rate of liquid mouth, and the gas in warehouse is discharged by gas detection mouth.

8. the method for work of a kind of ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment according to claim 7, it is characterized in that checking the electric current that current/voltage indicator gauge shows and magnitude of voltage in described step (1)-(6), and then obtain the power of this device working process.

9. the method for work of a kind of ozone, UV-light, ultrasonic wave synergistic reaction wastewater treatment equipment according to claim 7, is characterized in that the gas in described step (5) comprises carbonic acid gas, ozone and oxygen.