CN111533379B - Combined purification system suitable for controlling pathogens at discharge port - Google Patents

Abstract

The invention provides a combined purification system suitable for controlling pathogens at a discharge port, wherein a discharge port disinfection unit is arranged in the discharge port of a drainage system, so that various viruses in drainage can be quickly killed; the river-entering disinfection unit is arranged at the river-entering part of the discharge port for discharging water, realizes the deep disinfection of the virus in the river-entering water flow and aerosol, and has the functions of purifying water quality and removing odor; the lifting and whirling unit realizes the longitudinal circulation of the river water body; the corridor blocking unit is used for surrounding and blocking the river entering disinfection unit and the lifting and whirling flow unit in a near-shore water area of a river channel, and space blocking, efficient water quality purification and removal of malodorous substances of the water environment inside and outside the system are realized through the trapping and filtering effects of the filler and the filter screen and the transformation effect of microorganisms and the absorption effect of plants. The invention has the outstanding characteristics of strong applicability, quickness, high efficiency, easy implementation, various functions, flexible operation and the like.

Description

Combined purification system suitable for controlling pathogens at discharge port

Technical Field

The invention belongs to the technical field of municipal drainage and public health, and relates to a combined purification system suitable for controlling pathogens at a discharge port.

Background

The discharge port is used as an important component of the town drainage system, plays a role in discharging rainwater to surface water or entering the surface water after being treated by a sewage treatment plant, and the like, and is an important ring worth paying attention to in the quality improvement and efficiency enhancement action of the drainage system. It has been reported that some cities in China have detected viruses or pathogenic bacteria such as cholera at the discharge outlet. Related researches show that the outlet of the river channel is an important carrier library of microorganisms, and various human viruses and pathogenic bacteria exist.

The main routes for live viruses to reach the discharge include: the domestic sewage generated by virus infectors enters a combined drainage pipe network, and the viruses reach a discharge port and are discharged into surface water in rainy days; the split-flow rainwater pipeline with the rain and sewage mixed connection also has the problems; third, the surface runoff entraps the surface viruses to enter a shunt rainwater pipe network; sputum, droplets, touch articles and the like generated by virus infected persons outdoors enter a rainwater port through rainwater washing, and then enter a drainage system; the deposits in the drainage pipeline provide favorable environment for virus propagation and propagation, and the deposits carrying viruses are discharged through a discharge port when released into the river in rainy days.

The virus has a plurality of ways to enter a drainage pipe network, and the sources of the virus are extremely dispersed, so that the invasion and inoculation of the virus are not easy to be stopped from the sources of a drainage system. But the waste water in the drainage network will eventually be discharged from the discharge opening. In contrast, virus killing is more feasible at the drain at the end of the drainage system.

In view of the above, there is a need to develop a novel technique for in situ elimination of virus in the exhaust port.

Disclosure of Invention

It is an object of the present invention to provide a combined decontamination system suitable for stomal pathogen control. The system is characterized in that on the basis of ensuring the normal drainage function of a discharge port, a discharge port disinfection unit, a river-entering disinfection unit, a lifting backflow unit and a corridor blocking unit are installed at the discharge port of a river channel in an integrated equipment mode, the types of all modules of the system can be flexibly adjusted according to the type of the discharge port, the terrain condition of a received water body, the virus prevention and control and the treatment requirements of water purification and deodorization, and the virus blocking, sludge removal, water quality purification and odor treatment of the discharged water of the discharge port are realized through multiple functions of oxidant oxidation, ultraviolet irradiation, photocatalysis, biofilm methods, aquatic plants, microporous filter membranes and the like.

In order to realize the technical task, the invention adopts the following technical scheme to realize:

a combined purification system suitable for pathogen control at a discharge outlet is characterized by comprising a discharge outlet disinfection unit, a river-entering disinfection unit, a lifting and whirling unit and a corridor blocking unit; the discharge port disinfection unit is arranged in a discharge port at the tail end of the drainage system, and the rapid killing of various viruses in the drainage is realized through the inactivation of high-energy ultraviolet lamps and hydrogen peroxide in the discharge port on microorganisms; the river-entering disinfection unit is arranged at a river-entering part drained by the drainage outlet, realizes deep disinfection of viruses in river-entering water flow and aerosol through the oxidation of ozone nano bubbles, and has the functions of purifying water quality and removing odor; the lifting and whirling unit is arranged in the river channel and close to the river entering disinfection unit, and the lifting and flow guiding effects on the water body are coupled with the impact effect of river water flow to realize the longitudinal circulation of the river water in the system; the corridor blocking unit is arranged at the outer sides of the river entering disinfection unit and the lifting and flowing unit, and is enclosed in the water area near the bank of the river, and space blocking of aquatic organisms inside and outside the system is achieved through the blocking and filtering effects of the fiber filter screen.

Furthermore, the discharge port disinfection unit comprises a hydrogen peroxide ejector, a hydrogen peroxide conveying pipe and an inverted arch-shaped ultraviolet lamp; the hydrogen peroxide injector is arranged near the outlet of the outlet pipeline, consists of a hydrogen peroxide medicament, a hydrogen peroxide storage cabin and a pressurizing injector and is used for supplying hydrogen peroxide to the hydrogen peroxide conveying pipe; the inlet of the hydrogen peroxide conveying pipe is connected with the hydrogen peroxide injector, and the outlet of the hydrogen peroxide conveying pipe is arranged at the bottom of the discharge port pipeline and used for conveying hydrogen peroxide into a discharge water body; the inverted arch ultraviolet lamp is inverted arch-shaped, is arranged at the bottom of the discharge pipeline and is positioned at the downstream of the outlet of the hydrogen peroxide conveying pipe, the surface of the inverted arch ultraviolet lamp is waterproof by adopting waterproof paint, and the power is supplied and the irradiation intensity is regulated and controlled by an electric control facility outside the discharge pipeline.

Preferably, the hydrogen peroxide medicament in the hydrogen peroxide storage cabin in the hydrogen peroxide ejector ensures the degree of fullness of 20-100%; the flow range of the hydrogen peroxide ejected outwards by the hydrogen peroxide ejector is 1-20 mL/s; the inverted arch-shaped ultraviolet lamp consists of microwave electrodeless ultraviolet lamps, the wavelength range of the ultraviolet rays irradiated by the inverted arch-shaped ultraviolet lamps is 185-254 nm, and the irradiation intensity range is 10-50 mJ/cm²。

Furthermore, the river-entering disinfection unit comprises a receiving and discharging port, an impeller type generator, an ozone generating pressurizer, an ozone conveying pipe, a nano aeration disc, a ring-shaped floating body, a receiving and discharging cylinder body and a flow outlet; the accommodating and discharging port is positioned below the outlet of the discharging port pipeline and is used for accommodating and discharging water; the impeller type generator is positioned in the accommodating and discharging port and drives the impeller to rotate and generate electricity by means of the falling impact force of the discharged water body, so that power is supplied to the ozone generating pressurizer; the ozone generation pressurizer is arranged above the nano discharge port and is used for preparing ozone and outputting the ozone under pressure; the inlet of the ozone conveying pipe is connected with the ozone generating pressurizer, and the outlet of the ozone conveying pipe is connected with the nano aeration disc and used for conveying pressurized ozone; the nano aeration disc is arranged below the nano discharge port and used for uniformly dispersing ozone into water in the form of nano-level micro bubbles; the ring-shaped floating body is arranged below the discharge port and is used for ensuring that the toxin-killing unit entering the river is suspended on the river surface; the accommodating and discharging cylinder body is positioned below the ring-shaped floating body, and the bottom of the accommodating and discharging cylinder body is the outflow port.

Preferably, the impeller type generator in the river-entering disinfection unit further comprises a set of storage battery, and the output voltage range of the storage battery is 24-110V; the purity range of the ozone prepared by the ozone generation pressurizer is 5-50%, and the pressurizing pressure range is 200-1000 kPa; the ozone pressurization generator also comprises a waterproof cable connected with the mains supply and used for ensuring the power supply when the power supply of the impeller type generator is insufficient.

Furthermore, the lifting and whirling unit comprises an arched guide plate, an inflow port, a lifting pump, a waterproof cable, a guide cylinder, an annular floating body, an overflow port, an overflow groove and a solar power generation device; one end of the arched guide plate is connected to an inflow port located at the bottom of the uplifting whirling unit, and the other end of the arched guide plate is close to an outflow port of the river-entering disinfection unit and used for timely guiding water body flowing out of the river-entering disinfection unit to the inflow port of the uplifting whirling unit; the lifting pump is positioned in the center of the inflow opening and used for lifting the water body below the inflow opening vertically and upwards; the waterproof cable is used for supplying power to the lifting pump; the guide cylinder is positioned above the inflow opening and used for guiding the lifting water flow of the lifting pump vertically upwards; the annular floating body is arranged above the flow guide cylinder body and used for ensuring that the lifting flow-returning unit is suspended on the river surface; the overflow port is positioned above the annular floating body, the overflow groove is positioned around the overflow port, and the water body lifted by the lifting pump sequentially passes through the overflow port and the overflow groove and finally flows into a river; the solar power generation device is positioned above the overflow groove and used for supplying power to the lift pump.

Preferably, the lift range of a lifting pump in the lift and backflow unit is 1-8 m, and the flow range is 1-50 m³H; the model of the waterproof cable is FS-YJY, and the specification is single core, three core or four core; the solar power generation device further comprises a photovoltaic panel and a storage battery, wherein the photovoltaic panel is made of crystalline silicon, and the output voltage range of the storage battery is 24-110V.

Further, the corridor blocking unit comprises a frame body, elastic fillers, a filter screen, floating planting bases and emergent aquatic plants; the bottom of the frame body is inserted into the river bottom, the top of the frame body is higher than the river surface, and the frame body has certain structural strength and is used for supporting and bearing the elastic filler, emergent aquatic plants, floating planting bases and the filter screen; the elastic filler is arranged in the frame body, and the water quality purification effect is realized through a biological film attached and grown on the surface of the elastic filler; the filter screens are positioned on the vertical surfaces of the two sides of the corridor obstructing unit and are used for intercepting, filtering and adsorbing suspended particles in water; the floating planting base is nested on the frame body, has certain buoyancy and can float up and down along with the change of the water level of the river surface; the emergent aquatic plants are planted on the floating planting substrate and are used for absorbing and enriching pollutants such as nitrogen, phosphorus, heavy metals and the like in water and improving the landscape.

Preferably, the frame body in the gallery obstructing unit is made of stainless steel, aluminum alloy or high-density polyethylene (HDPE), and the diameter range of the adopted pipe is 15-50 mm; the elastic filler is strip-shaped or braid-shaped, is made of Polyethylene (PE), polypropylene (PP), reinforced polypropylene (RPP), chlorinated polyvinyl chloride (CPVC) or polyvinylidene fluoride (PVDF), and is arranged at intervals of 5-50 cm; the filter screen is made of stainless steel, polyvinyl chloride (PVC) or PE, and the mesh range of the pores is 3.5-50 meshes.

The invention discloses a combined purification system suitable for controlling pathogens at a discharge outlet, which has the multiple functions of quickly killing various viruses in drainage by a discharge outlet disinfection unit arranged in the discharge outlet, deeply killing the viruses in river water flow and aerosol by an river-entering disinfection unit adopting ozone nano bubbles, longitudinally circulating water by a lifting backflow unit coupled with the impact force of the river water flow, and blocking aquatic organisms inside and outside the system by a corridor blocking unit which surrounds the discharge outlet disinfection unit and the river-entering disinfection unit, effectively blocking a virus propagation path at the tail end of a town drainage system, powerfully ensuring and maintaining public health and ecological system safety, and simultaneously removing ammonia nitrogen and refractory organics, improving hydraulic circulation conditions, strengthening water self-cleaning capacity, inhibiting algae growth, improving landscape aesthetic value, enhancing human water closeness and the like, can generate good environmental, ecological, social and economic benefits.

Compared with the prior art in the same field, the invention has the following technical advantages and distinctive features.

1. High applicability

Through reasonable matching and layout of the discharge port disinfection unit, the river-entering disinfection unit, the lifting backflow unit and the corridor blocking unit, the requirements of omnibearing, deep and high-efficiency virus prevention and control and water environment improvement of different types of river discharge ports can be met.

2. Fast and efficient

The in-situ virus blocking technology for the river discharge outlet is quick in effect, good in effect and high in benefit by combining ultraviolet, hydrogen peroxide, ozone nano-bubbles and other disinfection technologies and coupling the lifting and flowing back and gallery blocking technology.

3. Is easy to implement

The transformation is carried out by fully utilizing the near-shore water area in the discharge outlet pipe and at the river, the space utilization rate is high, the engineering measures are few, the investment scale is small, and the implementation, the operation and the maintenance are easy.

4. Multiple functions

The biological water purification agent has multiple functions of quickly killing the virus at the discharge port of the river channel, deeply removing ammonia nitrogen and refractory organic matters, improving the hydraulic circulation condition of the river channel, strengthening the self-purification capacity of a water body, inhibiting the growth of algae, improving the aesthetic value of landscape, enhancing the closeness degree of human water and the like.

5. High comprehensive profit

The method can effectively block the virus transmission way at the tail end of the town drainage system, ensure and maintain public health and ecosystem safety, and improve the water environment quality and aquatic ecosystem, thereby generating good environmental, ecological, social and economic benefits.

Drawings

FIG. 1 is a schematic flow diagram of a combined decontamination system suitable for pathogen control at an exhaust port according to the present invention;

FIG. 2 is a schematic flow diagram of a combined effluent purification system suitable for pathogen control of the discharge outlet of the present invention;

FIG. 3 is a schematic view of the configuration of a vent sterilization unit in the system of the present invention;

FIG. 4 is a schematic diagram of the construction of a river disinfection unit in the system of the present invention;

FIG. 5 is a schematic diagram of a lift-slip unit in the system of the present invention;

fig. 6 is a schematic diagram of the configuration of a galley blocking unit in the system of the present invention.

The numbering meanings in FIGS. 1-6 are as follows:

1-row-of-openings disinfection unit, 11-hydrogen peroxide ejector, 12-hydrogen peroxide conveying pipe and 13-inverted arch ultraviolet lamp;

2-river entering disinfection unit, 21-discharge outlet, 22-impeller generator, 23-ozone generating pressurizer, 24-ozone delivery pipe, 25-nano aeration disc, 26-ring floating body, 27-discharge cylinder and 28-discharge outlet;

3-lifting and circulating unit, 31-arch guide plate, 32-inflow port, 33-lift pump, 34-waterproof cable, 35-guide cylinder, 36-annular floating body, 37-overflow port, 38-overflow groove and 39-solar power generation device;

4-corridor obstructing unit, 41-frame, 42-elastic filler, 43-filter screen, 44-floating planting base and 45-emergent aquatic plant;

5-river channel discharge port, 51-discharge port pipeline, 52-discharge water body, 53-river surface, 54-revetment and 55-river bottom;

6-water flow direction, 61-water flow direction of a discharge port pipeline, 62-discharge outlet flow direction, 63-inflow direction of a river-entering disinfection unit, 64-reflux underflow flow direction, 65-lifting reflux unit inflow flow direction, 66-reflux overflow flow direction, 67-gallery blocking unit inflow flow direction and 68-gallery blocking unit outflow flow direction.

Detailed Description

The invention is further described in detail with reference to the following specific examples and the accompanying drawings. The procedures, conditions, experimental methods and the like for carrying out the present invention are general knowledge and common general knowledge in the art except for the contents specifically mentioned below, and the present invention is not particularly limited.

Example 1:

a clean system that is used for 5 virus normal position of river course row mouth to block, its characterized in that clean system includes row mouth disinfection unit 1, goes into river disinfection unit 2, rises refluence unit 3 and corridor separation unit 4.

The discharge port disinfection unit 1 is arranged in a discharge port at the tail end of the town drainage system; the river-entering disinfection unit 2 is arranged at the river-entering part of the discharge port for discharging water; the lifting and whirling units 3 are arranged in the river channel and close to the river entry disinfection units 2, and the number of the lifting and whirling units is single or multiple; the corridor blocking unit 4 is used for mutually combining and blocking the river entering disinfection unit 2 and the lifting and whirling unit 3 in the water area near the bank of the river.

The row-port disinfection unit 1 comprises a hydrogen peroxide ejector 11, a hydrogen peroxide conveying pipe 12 and an inverted-arch ultraviolet lamp 13; the hydrogen peroxide injector 11 is arranged near the outlet of the outlet pipeline 51, consists of a hydrogen peroxide medicament, a hydrogen peroxide storage cabin and a pressurizing injector and is used for supplying hydrogen peroxide to the hydrogen peroxide conveying pipe 12; the inlet of the hydrogen peroxide delivery pipe 12 is connected with the hydrogen peroxide injector 11, and the outlet is arranged at the bottom of the outlet pipeline 51 and used for delivering hydrogen peroxide into the discharge water body 52; the inverted arch ultraviolet lamp 13 is inverted arch-shaped, is arranged at the bottom of the discharge pipeline 51 and is positioned at the downstream of the outlet of the hydrogen peroxide conveying pipe 12, the surface of the inverted arch ultraviolet lamp is waterproof by adopting waterproof paint, and the power is supplied and the irradiation intensity is regulated and controlled by an electric control facility outside the discharge pipeline 51.

The hydrogen peroxide agent in the hydrogen peroxide storage cabin in the hydrogen peroxide injector 11 is required to ensure the fullness of more than 20 percent, otherwise, the hydrogen peroxide is required to be supplemented in time; the flow rate of the hydrogen peroxide ejected outwards by the hydrogen peroxide ejector 11 is 10 mL/s; the inverted arch ultraviolet lamp13 is composed of microwave electrodeless ultraviolet lamp (UV lamp) with ultraviolet wavelength of 210 nm and irradiation intensity of 30 mJ/cm²。

The river-entering disinfection unit 2 comprises a receiving and discharging port 21, an impeller type generator 22, an ozone generating pressurizer 23, an ozone conveying pipe 24, a nanometer aeration disc 25, a ring-shaped floating body 26, a receiving and discharging cylinder 27 and an outflow port 28; the accommodating and discharging port 21 is positioned below the outlet of the discharging port pipeline 51 and is used for accommodating and discharging a water body 52; the impeller type generator 22 is positioned in the accommodating and discharging port 21 and drives the impeller to rotate and generate electricity by means of the falling impact force of the discharged water body 52, so as to supply power to the ozone generating pressurizer 23; the ozone generation pressurizer 23 is arranged above the accommodating and discharging port 21 and is used for preparing ozone and outputting the ozone under pressure; the inlet of the ozone conveying pipe 24 is connected with the ozone generating pressurizer 23, and the outlet is connected with the nano aeration disc 25 and used for conveying pressurized ozone; the nanometer aeration disc 25 is arranged below the nanometer discharge port 21 and used for uniformly dispersing ozone into water by nanometer-level micro-bubbles; the ring-shaped floating body 26 is arranged below the nano discharge port 21 and is used for ensuring that the river-entering disinfection unit 2 is suspended on the river surface 53; the accommodating and discharging cylinder 27 is positioned below the ring-shaped floating body 26, and the bottom of the accommodating and discharging cylinder 27 is the outlet 28.

The impeller type generator 22 in the river-entering disinfection unit 2 further comprises a set of storage battery, and the output voltage of the storage battery is 78V; the ozone generating pressurizer 23 is used for preparing ozone with the purity of 30 percent and the pressurizing pressure of 500 kPa; the ozone pressurization generator further comprises a waterproof cable 34 connected with the mains supply and used for guaranteeing power supply when the impeller type generator 22 is insufficient in power supply.

The lifting and circulating unit 3 comprises an arched guide plate 31, an inflow port 32, a lifting pump 33, a waterproof cable 34, a guide cylinder 35, an annular floating body 36, an overflow port 37, an overflow groove 38 and a solar power generation device 39; one end of the arched guide plate 31 is located at the bottom of the lifting whirling unit 3, and the other end of the arched guide plate is close to the outflow port 28 of the river entry disinfection unit 2, and is used for timely guiding the water body flowing out of the river entry disinfection unit 2 to the inflow port 32 of the lifting whirling unit 3; the lifting pump 33 is positioned in the center of the inflow opening 32 and is used for lifting the water body below the inflow opening 32 vertically and upwards; the waterproof cable 34 is used for supplying power to the lift pump 33; the guide cylinder 35 is located above the inlet 32 and is used for guiding the lifting water flow of the lift pump 33 vertically upwards; the annular floating body 36 is arranged above the flow guide cylinder 35 and used for ensuring that the lifting and flow-returning unit 3 is suspended on the river surface 53; the overflow port 37 is positioned above the annular floating body 36, the overflow groove 38 is positioned around the overflow port 37, and the water body lifted by the lift pump 33 sequentially passes through the overflow port 37 and the overflow groove 38 and finally flows into a river; the solar power generation device 39 is located above the overflow trough 38 and is used for supplying power to the lift pump 33.

The lift of the lift pump 33 in the lift circulation unit 3 is 4 m, and the flow rate is 25 m³H; the model of the waterproof cable 34 is FS-YJY, and the specification is three-core; the solar power generation device 39 further comprises a photovoltaic panel and a storage battery, the photovoltaic panel is made of crystalline silicon, and the output voltage of the storage battery is 78V.

The corridor blocking unit 4 comprises a frame body 41, an elastic filler 42, a filter screen 43, a floating planting base 44 and emergent aquatic plants 45; the bottom of the frame body 41 is inserted into the river bottom 55, the top of the frame body is higher than the river surface 53, and the frame body has certain structural strength and is used for supporting and bearing the elastic filler 42, the emergent aquatic plants 45, the floating planting bases 44 and the filter screen 43; the elastic filler 42 is arranged in the frame body 41, and realizes the water quality purification effect through a biological film attached and growing on the surface; the filter screens 43 are positioned on the vertical surfaces of the two sides of the corridor obstructing unit 4 and are used for intercepting, filtering and adsorbing suspended particles in water; the floating planting base 44 is nested on the frame body 41, has certain buoyancy and can float up and down along with the change of the water level of the river surface 53; the emergent aquatic plants 45 are planted on the floating planting base 44 and are used for absorbing and enriching pollutants such as nitrogen, phosphorus, heavy metals and the like in water and improving landscape.

The frame body 41 in the gallery obstruction unit 4 is made of aluminum alloy, and the diameter of a pipe adopted by the frame body is 30 mm; the elastic filler 42 is strip-shaped, is made of reinforced polypropylene (RPP) and is arranged at an interval of 25 cm; the material of the filter screen 43 is polyvinyl chloride (PVC), and the mesh number of the pores is 20 meshes.

The operation method of the purification system for blocking the virus at the drainage port 5 of the river channel in situ is characterized by comprising the following steps: the vent disinfection unit 1 disinfects in situ, the river entry disinfection unit 2 oxidizes and disinfects, the lift backflow unit 3 power backflow and the corridor blocking unit 4 filters and blocks.

The discharge port disinfection unit 1 can rapidly kill various viruses in discharged water through the inactivation of microorganisms by a high-energy ultraviolet lamp and hydrogen peroxide arranged in a discharge port; the river entering disinfection unit 2 realizes the deep disinfection of the virus in the river entering water flow and aerosol through the oxidation of the ozone nano bubbles, and has the functions of purifying water quality and removing odor; the lifting and flow-back unit 3 is used for realizing the longitudinal circulation of river water in the system by coupling the lifting and flow-guiding effects of corresponding facilities on the water body into the impact effect of river water flow; the corridor blocking unit 4 realizes the space blocking of aquatic organisms inside and outside the system through the blocking and filtering functions of the fiber filter screen 43.

Example 2:

the basic structure and the water purification method of the purification system for blocking the virus at the drainage port 5 of the river channel in situ are the same as those in the embodiment 1, and the specific implementation mode is as follows:

the row-port disinfection unit 1 comprises a hydrogen peroxide ejector 11, a hydrogen peroxide conveying pipe 12 and an inverted-arch ultraviolet lamp 13; the hydrogen peroxide injector 11 is arranged near the outlet of the outlet pipeline 51, consists of a hydrogen peroxide medicament, a hydrogen peroxide storage cabin and a pressurizing injector and is used for supplying hydrogen peroxide to the hydrogen peroxide conveying pipe 12; the inlet of the hydrogen peroxide conveying pipe (12) is connected with the hydrogen peroxide injector 11, and the outlet is arranged at the bottom of the outlet pipeline 51 and is used for conveying hydrogen peroxide into the discharge water body 52; the inverted arch ultraviolet lamp 13 is inverted arch-shaped, is arranged at the bottom of the discharge pipeline 51 and is positioned at the downstream of the outlet of the hydrogen peroxide conveying pipe 12, the surface of the inverted arch ultraviolet lamp is waterproof by adopting waterproof paint, and the power is supplied and the irradiation intensity is regulated and controlled by an electric control facility outside the discharge pipeline 51.

In the hydrogen peroxide ejector 11The hydrogen peroxide agent in the hydrogen peroxide storage cabin is required to ensure more than 20 percent of fullness, otherwise, the hydrogen peroxide is required to be supplemented in time; the flow rate of the hydrogen peroxide ejected outwards by the hydrogen peroxide ejector 11 is 20 mL/s; the inverted arch-shaped ultraviolet lamp 13 is composed of microwave electrodeless ultraviolet lamps, the ultraviolet wavelength of the radiation is 254 nm, and the radiation intensity is 50 mJ/cm²。

The river-entering disinfection unit 2 comprises a receiving and discharging port 21, an impeller type generator 22, an ozone generating pressurizer 23, an ozone conveying pipe 24, a nanometer aeration disc 25, a ring-shaped floating body 26, a receiving and discharging cylinder 27 and an outflow port 28; the accommodating and discharging port 21 is positioned below the outlet of the discharging port pipeline 51 and is used for accommodating and discharging a water body 52; the impeller type generator 22 is positioned in the accommodating and discharging port 21 and drives the impeller to rotate and generate electricity by means of the falling impact force of the discharged water body 52, so as to supply power to the ozone generating pressurizer 23; the ozone generation pressurizer 23 is arranged above the accommodating and discharging port 21 and is used for preparing ozone and outputting the ozone under pressure; the inlet of the ozone conveying pipe 24 is connected with the ozone generating pressurizer 23, and the outlet is connected with the nano aeration disc 25 and used for conveying pressurized ozone; the nanometer aeration disc 25 is arranged below the nanometer discharge port 21 and used for uniformly dispersing ozone into water by nanometer-level micro-bubbles; the ring-shaped floating body 26 is arranged below the nano discharge port 21 and is used for ensuring that the river-entering disinfection unit 2 is suspended on the river surface 53; the accommodating and discharging cylinder 27 is positioned below the ring-shaped floating body 26, and the bottom of the accommodating and discharging cylinder 27 is the outlet 28.

The impeller type generator 22 in the river-entering disinfection unit 2 further comprises a set of storage battery, and the output voltage of the storage battery is 78V; the ozone generating pressurizer 23 is used for preparing ozone with the purity of 30 percent and the pressurizing pressure of 500 kPa; the ozone pressurization generator further comprises a waterproof cable 34 connected with the mains supply and used for guaranteeing power supply when the impeller type generator 22 is insufficient in power supply.

The lifting and circulating unit 3 comprises an arched guide plate 31, an inflow port 32, a lifting pump 33, a waterproof cable 34, a guide cylinder 35, an annular floating body 36, an overflow port 37, an overflow groove 38 and a solar power generation device 39; one end of the arched guide plate 31 is located at the bottom of the lifting whirling unit 3, and the other end of the arched guide plate is close to the outflow port 28 of the river entry disinfection unit 2, and is used for timely guiding the water body flowing out of the river entry disinfection unit 2 to the inflow port 32 of the lifting whirling unit 3; the lifting pump 33 is positioned in the center of the inflow opening 32 and is used for lifting the water body below the inflow opening 32 vertically and upwards; the waterproof cable 34 is used for supplying power to the lift pump 33; the guide cylinder 35 is located above the inlet 32 and is used for guiding the lifting water flow of the lift pump 33 vertically upwards; the annular floating body 36 is arranged above the flow guide cylinder 35 and used for ensuring that the lifting and flow-returning unit 3 is suspended on the river surface 53; the overflow port 37 is positioned above the annular floating body 36, the overflow groove 38 is positioned around the overflow port 37, and the water body lifted by the lift pump 33 sequentially passes through the overflow port 37 and the overflow groove 38 and finally flows into a river; the solar power generation device 39 is located above the overflow trough 38 and is used for supplying power to the lift pump 33.

The lift of the lift pump 33 in the lift and circulation unit 3 is 8 m, and the flow rate is 50 m³H; the model of the waterproof cable 34 is FS-YJY, and the specification is four-core; the solar power generation device 39 further comprises a photovoltaic panel and a storage battery, the photovoltaic panel is made of crystalline silicon, and the output voltage of the storage battery is 110V.

The corridor blocking unit 4 comprises a frame body 41, an elastic filler 42, a filter screen 43, a floating planting base 44 and emergent aquatic plants 45; the bottom of the frame body 41 is inserted into the river bottom 55, the top of the frame body is higher than the river surface 53, and the frame body has certain structural strength and is used for supporting and bearing the elastic filler 42, the emergent aquatic plants 45, the floating planting bases 44 and the filter screen 43; the elastic filler 42 is arranged in the frame body 41, and realizes the water quality purification effect through a biological film attached and growing on the surface; the filter screens 43 are positioned on the vertical surfaces of the two sides of the corridor obstructing unit 4 and are used for intercepting, filtering and adsorbing suspended particles in water; the floating planting base 44 is nested on the frame body 41, has certain buoyancy and can float up and down along with the change of the water level of the river surface 53; the emergent aquatic plants 45 are planted on the floating planting base 44 and are used for absorbing and enriching pollutants such as nitrogen, phosphorus, heavy metals and the like in water and improving landscape.

The frame body 41 in the gallery obstruction unit 4 is made of high-density polyethylene (HDPE), and the diameter of a pipe adopted by the frame body is 50 mm; the elastic filler 42 is in a strip shape or a braid shape, is made of polyvinylidene fluoride (PVDF), and is arranged at an interval of 50 cm; the material of the filter screen 43 is Polyethylene (PE), and the mesh number of the pores is 50 meshes.

The discharge port disinfection unit 1 can rapidly kill various viruses in discharged water through the inactivation of microorganisms by a high-energy ultraviolet lamp and hydrogen peroxide arranged in a discharge port; the river entering disinfection unit 2 realizes the deep disinfection of the virus in the river entering water flow and aerosol through the oxidation of the ozone nano bubbles, and has the functions of purifying water quality and removing odor; the lifting and flow-back unit 3 is used for realizing the longitudinal circulation of river water in the system by coupling the lifting and flow-guiding effects of corresponding facilities on the water body into the impact effect of river water flow; the corridor blocking unit 4 realizes the space blocking of aquatic organisms inside and outside the system through the blocking and filtering functions of the fiber filter screen 43.

Example 3:

the basic structure and the water purification method of the purification system for blocking the virus at the drainage port 5 of the river channel in situ are the same as those in the embodiment 1, and the specific implementation mode is as follows:

the hydrogen peroxide agent in the hydrogen peroxide storage cabin in the hydrogen peroxide injector 11 is required to ensure the fullness of more than 20 percent, otherwise, the hydrogen peroxide is required to be supplemented in time; the flow rate of the hydrogen peroxide ejected outwards by the hydrogen peroxide ejector 11 is 1 mL/s; the inverted arch-shaped ultraviolet lamp 13 is composed of microwave electrodeless ultraviolet lamps, the wavelength of the irradiated ultraviolet is 185 nm, and the irradiation intensity is 10 mJ/cm²。

The impeller type generator 22 in the river-entering disinfection unit 2 further comprises a set of storage battery, and the output voltage of the storage battery is 24V; the ozone generating pressurizer 23 is used for preparing ozone with the purity of 5 percent and the pressurizing pressure of 200 kPa; the ozone pressurization generator further comprises a waterproof cable 34 connected with the mains supply and used for guaranteeing power supply when the impeller type generator 22 is insufficient in power supply.

Lift pump in the lift and reflux unit 333 has a head of 1 m and a flow rate of 1 m³H; the model of the waterproof cable 34 is FS-YJY, and the specification is a single core; the solar power generation device 39 further comprises a photovoltaic panel and a storage battery, the photovoltaic panel is made of crystalline silicon, and the output voltage of the storage battery is 24V.

The frame body 41 in the gallery obstruction unit 4 is made of stainless steel, and the diameter of a pipe adopted by the frame body is 15 mm; the elastic filler 42 is in a strip shape or a braid shape, is made of Polyethylene (PE), and is arranged at an interval of 5 cm; the filter screen 43 is made of stainless steel, and the mesh number of the pores is 3.5 meshes.

The protection of the present invention is not limited to the above embodiments. Variations and advantages that may occur to those skilled in the art may be incorporated into the invention without departing from the spirit and scope of the inventive concept, and the scope of the appended claims is intended to be protected.

Claims (9)

1. A combined purification system suitable for pathogen control at a discharge outlet is characterized by comprising a discharge outlet disinfection unit, a river-entering disinfection unit, a lifting and whirling unit and a corridor blocking unit;

the discharge port disinfection unit is arranged in a discharge port at the tail end of the drainage system, and the rapid killing of various viruses in the drainage is realized through the inactivation of high-energy ultraviolet lamps and hydrogen peroxide in the discharge port on microorganisms;

the river-entering disinfection unit is arranged at a river-entering part drained by the drainage outlet, realizes deep disinfection of viruses in river-entering water flow and aerosol through the oxidation of ozone nano bubbles, and has the functions of purifying water quality and removing odor;

the lifting and whirling unit is arranged in the river channel and close to the river entering disinfection unit, and the lifting and flow guiding effects on the water body are coupled with the impact effect of river water flow to realize the longitudinal circulation of the river water in the system;

the corridor blocking unit is arranged at the outer sides of the river entering disinfection unit and the lifting and flowing unit, and is enclosed in the water area near the bank of the river, and space blocking of aquatic organisms inside and outside the system is achieved through the blocking and filtering effects of the fiber filter screen.

2. The combined decontamination system for pathogen control of an exhaust port of claim 1, wherein said exhaust port disinfection unit comprises a hydrogen peroxide injector, a hydrogen peroxide delivery tube and an inverted arch ultraviolet lamp; the hydrogen peroxide injector is arranged near the outlet of the outlet pipeline, consists of a hydrogen peroxide medicament, a hydrogen peroxide storage cabin and a pressurizing injector and is used for supplying hydrogen peroxide to the hydrogen peroxide conveying pipe; the inlet of the hydrogen peroxide conveying pipe is connected with the hydrogen peroxide injector, and the outlet of the hydrogen peroxide conveying pipe is arranged at the bottom of the discharge port pipeline and used for conveying hydrogen peroxide into a discharge water body; the inverted arch ultraviolet lamp is inverted arch-shaped, is arranged at the bottom of the discharge pipeline and is positioned at the downstream of the outlet of the hydrogen peroxide conveying pipe, the surface of the inverted arch ultraviolet lamp is waterproof by adopting waterproof paint, and the power is supplied and the irradiation intensity is regulated and controlled by an electric control facility outside the discharge pipeline.

3. The combined decontamination system for stomal pathogen control of claim 2 wherein the hydrogen peroxide agent in the hydrogen peroxide storage compartment of the hydrogen peroxide syringe ensures a 20% to 100% fullness; the flow range of the hydrogen peroxide ejected outwards by the hydrogen peroxide ejector is 1-20 mL/s; the inverted arch-shaped ultraviolet lamp consists of microwave electrodeless ultraviolet lamps, the wavelength range of the ultraviolet rays irradiated by the inverted arch-shaped ultraviolet lamps is 185-254 nm, and the irradiation intensity range is 10-50 mJ/cm²。

4. The combined purification system suitable for pathogen control at the discharge outlet of claim 1, wherein the river disinfection unit comprises a receiving and discharging outlet, an impeller generator, an ozone generating pressurizer, an ozone delivery pipe, a nano aeration disc, a ring-shaped floating body, a receiving and discharging cylinder body and a discharge outlet; the accommodating and discharging port is positioned below the outlet of the discharging port pipeline and is used for accommodating and discharging water; the impeller type generator is positioned in the accommodating and discharging port and drives the impeller to rotate and generate electricity by means of the falling impact force of the discharged water body, so that power is supplied to the ozone generating pressurizer; the ozone generation pressurizer is arranged above the nano discharge port and is used for preparing ozone and outputting the ozone under pressure; the inlet of the ozone conveying pipe is connected with the ozone generating pressurizer, and the outlet of the ozone conveying pipe is connected with the nano aeration disc and used for conveying pressurized ozone; the nano aeration disc is arranged below the nano discharge port and used for uniformly dispersing ozone into water in the form of nano-level micro bubbles; the ring-shaped floating body is arranged below the discharge port and is used for ensuring that the toxin-killing unit entering the river is suspended on the river surface; the accommodating and discharging cylinder body is positioned below the ring-shaped floating body, and the bottom of the accommodating and discharging cylinder body is the outflow port.

5. The combined decontamination system for pathogen control at an exhaust port of claim 4, wherein the impeller generator in the river disinfection unit further comprises a set of batteries, the output voltage of the batteries is in the range of 24-110V; the purity range of the ozone prepared by the ozone generation pressurizer is 5-50%, and the pressurizing pressure range is 200-1000 kPa; the ozone pressurization generator further comprises a waterproof cable connected with the mains supply.

6. The combined purification system suitable for pathogen control at the discharge outlet of claim 1, wherein the lifting and circulating unit comprises an arched deflector, an inflow port, a lift pump, a waterproof cable, a deflector cylinder, an annular floating body, an overflow port, an overflow trough and a solar power generation device; one end of the arched guide plate is connected to an inflow port located at the bottom of the uplifting whirling unit, and the other end of the arched guide plate is close to an outflow port of the river-entering disinfection unit and used for timely guiding water body flowing out of the river-entering disinfection unit to the inflow port of the uplifting whirling unit; the lifting pump is positioned in the center of the inflow opening and used for lifting the water body below the inflow opening vertically and upwards; the waterproof cable is used for supplying power to the lifting pump; the guide cylinder is positioned above the inflow opening and used for guiding the lifting water flow of the lifting pump vertically upwards; the annular floating body is arranged above the flow guide cylinder body and used for ensuring that the lifting flow-returning unit is suspended on the river surface; the overflow port is positioned above the annular floating body, the overflow groove is positioned around the overflow port, and the water body lifted by the lifting pump sequentially passes through the overflow port and the overflow groove and finally flows into a river; the solar power generation device is positioned above the overflow groove and used for supplying power to the lift pump.

7. The combined purification system suitable for pathogen control at an exhaust port of claim 6, wherein the lift range of the lift pump in the lift circulation unit is 1-8 m, and the flow range is 1-50 m³H; the model of the waterproof cable is FS-YJY, and the specification is single core, three core or four core; the solar power generation device further comprises a photovoltaic panel and a storage battery, wherein the photovoltaic panel is made of crystalline silicon, and the output voltage range of the storage battery is 24-110V.

8. The combined decontamination system for stomal pathogen control of claim 1, wherein said corridor obstruction unit comprises a frame, a resilient filler, a screen, a floating planting base, and emergent aquatic plants; the bottom of the frame body is inserted into the river bottom, and the top of the frame body is higher than the river surface; the filter screens are positioned on two side vertical surfaces of the corridor blocking unit; the floating planting base is nested on the frame body.

9. The combined purification system for pathogen control at the discharge outlet of claim 8, wherein the frame of the corridor blocking unit is made of stainless steel, aluminum alloy or high density polyethylene, and the diameter of the tube is in the range of 15-50 mm; the elastic filler is strip-shaped or braid-shaped, is made of polyethylene, polypropylene, reinforced polypropylene, chlorinated polyvinyl chloride or polyvinylidene fluoride, and is arranged at intervals of 5-50 cm; the filter screen is made of stainless steel, polyvinyl chloride PVC or PE, and the mesh range of the pores is 3.5-50 meshes.

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