CN212954512U - Industrial circulating water treatment system utilizing nano-ion treatment technology - Google Patents
Industrial circulating water treatment system utilizing nano-ion treatment technology Download PDFInfo
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- CN212954512U CN212954512U CN202120518579.6U CN202120518579U CN212954512U CN 212954512 U CN212954512 U CN 212954512U CN 202120518579 U CN202120518579 U CN 202120518579U CN 212954512 U CN212954512 U CN 212954512U
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Abstract
The utility model relates to an utilize industrial circulating water processing system of nanometer ion processing technology, including the catch basin, circulating water pump, indirect heating equipment, cooling tower and nanometer ion processing system, nanometer ion processing system is including handling the pond, nanometer ion generator and nanometer ion electrode assembly, nanometer ion generator links to each other with nanometer ion electrode assembly electricity, nanometer ion generator control nanometer ion electrode assembly produces high-frequency high-voltage static electricity, nanometer ion electrode assembly sets up in handling the pond, the output of catch basin links to each other with circulating water pump's inlet tube, circulating water pump's outlet pipe links to each other through the pipeline with the end of intaking of handling the pond, the outlet end of handling the pond links to each other through the inlet tube of pipeline with indirect heating equipment, indirect heating equipment's outlet pipe links to each other with the top of the tower of cooling tower, the bottom of the cooling tower links to each other with the. The utility model discloses can produce high frequency high voltage static and can produce the effect of hindering dirty, anticorrosion, disinfecting and killing algae, quality of water is cleaner, and heat exchange efficiency improves.
Description
Technical Field
The utility model belongs to the technical field of the circulating water treatment, concretely relates to utilize industrial circulating water processing system of nanometer ion treatment technique.
Background
The circulating water system generally comprises a water collecting tank, a circulating pump and a cooling tower, wherein the circulating pump drives water in the water collecting tank to the heat exchanger, hot water after heat exchange enters the cooling tower for cooling, and the hot water after cooling flows back to the circulating water tank. Due to the fact that circulating water is used all year round, various bacteria and algae are easy to breed and scale is easy to generate in the water collecting tank and the cooling tower, the system needs to be stopped periodically to clean the cooling tower and the water collecting tank, normal operation of the air separation system is affected, and economic loss is caused.
At present, the softening treatment of circulating water mainly adopts a method of adding a corrosion and scale inhibitor and a sterilization algicide to soften calcium and magnesium ions in water so as to prevent the problem of scaling inside equipment, but the wastewater discharged every day in a circulating water tank contains a large amount of chemical components such as phosphate, zinc salt, molybdate and the like, which can not meet the wastewater discharge standard regulated by national environmental protection, the wastewater can be discharged after being treated to reach the standard, the environmental protection pressure of enterprises is increased, the cost of chemicals is high, the use and management of the chemicals are complex, the pipelines and heat exchange equipment are corroded, and the service life of the equipment is shortened.
In summary, it is highly desirable to provide an industrial circulating water treatment system using nano-ion treatment technology, which can prevent scale, remove scale, prevent corrosion, sterilize and kill algae, and has cleaner water quality, and is helpful for improving heat exchange efficiency.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a can hinder dirty, scale removal, anticorrosion, disinfect and go out algae, quality of water cleaner, help improving heat exchange efficiency's the industrial circulating water processing system who utilizes nanometer ion processing technology.
The above purpose is realized by the following technical scheme: an industrial circulating water treatment system utilizing a nano ion treatment technology comprises a water collecting tank, a circulating water pump, heat exchange equipment, a cooling tower and a nano ion treatment system, the nano ion treatment system comprises a treatment pool, a nano ion generator and a nano ion electrode assembly, the nanometer ion generator is electrically connected with the nanometer ion electrode assembly, the nanometer ion generator controls the nanometer ion electrode assembly to generate high-frequency high-voltage static electricity, the nano ion electrode assembly is arranged in the treatment tank, the output part of the water collecting tank is connected with the water inlet pipe of the circulating water pump, the water outlet pipe of the circulating water pump is connected with the water inlet end of the treatment tank through a pipeline, the water outlet end of the treatment tank is connected with the water inlet pipe of the heat exchange equipment through a pipeline, and a water outlet pipe of the heat exchange device is connected with the top of the cooling tower, and the bottom of the cooling tower is connected with the water collecting tank.
The utility model discloses an adopt the circulating water to carry out the heat transfer, circulating water pump extracts the cooling water from the catch basin, carries nanometer ion processing system through circulating water pump and carries out the scale removal reaction, carries indirect heating equipment to the water of heating and carries out the heat exchange cooling, goes into the cooling tower through the rivers of heat transfer, flows to the catch basin again. The utility model discloses a nanometer ion processing system, nanometer ion electrode assembly produce high frequency high voltage static, and is concrete, and nanometer ion electrode assembly produces 25kV to 30 kV's high frequency high voltage static, and when high frequency high voltage static acted on the circulating water, electrostatic field direction and circulating water rivers direction quadrature carried out energy exchange with the electric field, and the electric field energy is changed into aquatic chemical energy to produce and hinder dirty, anticorrosion, disinfect and kill algae, quality of water is cleaner, and effect effects such as indirect heating equipment, cooling tower heat exchange efficiency improve.
The further technical scheme is that the nano ion generator comprises an electric cabinet, and an output interface of the electric cabinet is connected with the nano ion electrode assembly. The whole nanometer ion treatment system mainly comprises two parts, wherein one part is a nanometer ion electrode assembly, one part of a nanometer ion generator (comprising a power supply) generates high-frequency high-voltage static electricity after being electrified, then some nanometer materials in the nanometer ion electrode assembly release electric fields with strong power, the water molecule generating structure is changed through energy, the physical properties and the water molecule structure of water are changed, then a certain amount of ozone is generated in the water, and the activity of the water molecules is increased.
The further technical scheme is that an output interface of each electric cabinet is connected with a plurality of nano ion electrode assemblies. Specifically, in the practical application process, the diameter of the nano-ion electrode assembly is 32cm, the length is determined according to the water quality of the water pool and the water quality of the client, the specific quantity is calculated by installing one pipe of 300 tons per hour circulation volume, the calcium hardness of the circulating water to be treated is correspondingly increased when the calcium hardness exceeds 100mg/L, two or two points are increased by five or three points possibly, and the average downward spacing distance is 20 cm. Special requirements are to ensure the effect. All water that must flow through the body 90% passes through the body.
Generally, an output interface of an electric cabinet is connected with 4-21 nano ion electrode assemblies, but not limited thereto. In the application process, at least one electric cabinet sends an operation record to a background management center through a GPRS control panel, and the GPRS control panel is integrated in the electric cabinet. The background management center is connected with the electric cabinet in a one-to-many mode, and the electric cabinet is connected with the nano ion electrode assembly in a one-to-many mode, so that unified management of the background management center is achieved, and remote real-time monitoring can be achieved. The system adopts a TCP/IP protocol to access a wireless public communication network and is in networking communication with a background management center.
The further technical scheme is that the nano ion electrode assembly at least comprises an electrode core, and the electrode core is connected with a power supply through a high-voltage cable. The nano ion electrode assembly comprises a high-voltage cable, a cable electrode connector, an electrode core, a copper tube, an electrode sleeve and a threaded connection plug, wherein the high-voltage cable penetrates through the waterproof elbow and is electrically connected with the cable electrode connector; the electrode sleeve is sleeved on the red copper pipe, and the red copper pipe is sleeved on the electrode core; the cable electrode connector is embedded at the upper end between the copper tube and the electrode core; the lower end of the waterproof elbow is in threaded connection with the upper end of the electrode sleeve; the threaded connection plug is in threaded connection with the lower end of the electrode sleeve. The electrode core is made of a mixture material of nano silver, nano titanium dioxide, nano iron disulfide and graphene. The electrode core is added with graphene, so that the equipment can obtain better power density, the nano silver is added to enhance the conductivity of the electrode core, and the nano titanium dioxide and the nano iron disulfide are added to ensure that the equipment is not easy to oxidize and can increase current, so that the equipment performance is better.
The further technical scheme is that the water collecting tank is connected with a water supplementing system through a water supplementing inlet pipe. So set up, the water loss of supplementary circulating water circulation heat transfer process.
A further technical scheme is that the water supplementing water inlet pipe is provided with an adjusting valve.
The further technical scheme is that the industrial circulating water treatment system utilizing the nano-ion treatment technology further comprises a water heating system, and a water inlet end and a water outlet end of the water heating system are respectively connected with the heat exchange equipment through pipelines. When the water heater works, water cooled by the heating water system flows into the heating system after passing through the heat exchange equipment.
The further technical scheme is that the outer layer of the electrode core is provided with a tin coating. The arrangement is adopted to prevent oxidation and increase current, so that more electric fields are arranged in the water body to do work.
Compared with the prior art, the utility model discloses possess following beneficial effect: the environment-friendly problem of circulating water is solved under the condition of no medicament, no solid waste exists in the system operation process, the equipment does not contain total phosphorus and residual nitrogen, and COD (chemical oxygen demand) emission meets the discharge standard of pollutants for municipal wastewater treatment plants; the water is saved, and the concentration ratio of the circulating water is improved; the heat exchange equipment is prevented from scaling, and the descaling effect can be achieved, so that the end difference is improved, the corrosion of circulating water to the equipment is effectively prevented, the nano-ion electric field generates an electric flocculation effect, suspended matters in water are precipitated and discharged through side filtration, bacteria cannot absorb nutrition and excrete, original viscous substances can automatically fall off, new viscous substances cannot be generated, the viscous fillers cannot be adhered, the water is cleaner, a cooling tower is cleaner, and the water cooling is better; although the equipment uses high-voltage static electricity in a working area, the voltage is 220V, the current is lower than 0.5 Bo' an, no harm is caused to human bodies, and the safe and reliable operation of the equipment can be ensured under the protection of a leakage device.
Drawings
The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation.
Fig. 1 is a schematic view of an industrial circulating water treatment system using a nano-ion treatment technology according to an embodiment of the present invention.
In the figure:
1 water collecting tank 2 circulating water pump 3 heat exchange equipment 4 cooling tower
5 treatment pool 6 nanometer ion generator 7 nanometer ion electrode assembly 8 regulating valve
9 water replenishing inlet pipe 10 heats water system 11 moisturizing system.
Detailed Description
The present invention will be described in detail with reference to the drawings, which are provided for illustrative and explanatory purposes only and should not be construed as limiting the scope of the present invention in any way. Furthermore, features from embodiments in this document and from different embodiments may be combined accordingly by a person skilled in the art from the description in this document.
The embodiment of the utility model provides a following, refer to fig. 1, an utilize industrial circulating water processing system of nanometer ion processing technology, including catch basin 1, circulating water pump 2, indirect heating equipment 3, cooling tower 4 and nanometer ion processing system, nanometer ion processing system includes processing pond 5, nanometer ion generator 6 and nanometer ion electrode assembly 7, nanometer ion generator 6 with nanometer ion electrode assembly 7 electricity links, nanometer ion generator 6 control nanometer ion electrode assembly 7 produces high frequency high voltage static electricity, nanometer ion electrode assembly 7 sets up in processing pond 5, the output of catch basin 1 with circulating water pump 2's inlet tube links to each other, circulating water pump 2's outlet pipe with the inlet end of processing pond 5 passes through the pipeline and links to each other, the outlet end of processing pond 5 passes through the pipeline and links to each other with indirect heating equipment 3's inlet tube, the water outlet pipe of the heat exchange device 3 is connected with the top of the cooling tower 4, and the bottom of the cooling tower 4 is connected with the water collecting tank 1.
The utility model discloses an adopt the circulating water to carry out the heat transfer, like figure 1, circulating water pump 2 carries nanometer ion processing system to carry out the descaling reaction from 1 extraction cooling water in the catch basin through circulating water pump 2, carries indirect heating equipment 3 to the water of heating and carries out the heat exchange cooling, and rivers through the heat transfer flow into cooling tower 4, flow to catch basin 1 again. The utility model discloses a nanometer ion processing system, nanometer ion electrode assembly 7 produce high frequency high voltage static, and is concrete, and nanometer ion electrode assembly 7 produces 25kV to 30 kV's high frequency high voltage static, and when high frequency high voltage static acted on the circulating water, electrostatic field direction and circulating water rivers direction quadrature carry out energy exchange with the electric field, and the electric field energy changes the aquatic chemical energy into to produce and hinder dirty, anticorrosion, disinfect and go out the algae, quality of water is cleaner, and the effect such as indirect heating equipment 3, 4 heat exchange efficiency improvement of cooling tower.
The utility model discloses the high-pressure high-frequency static electricity of production, its switching frequency is about 10kHz-50kHz, and its frequency is high, and the precision is high, and dynamic response is fast, and not only the voltage is high, utilizes the molecular structure of high frequency electric field change water moreover, makes its scale control and scale removal, specifically is the principle and does: when water passes through a high-frequency electric field, the molecular physical structure of the water is changed, original associated chain-shaped macromolecules are broken into single water molecules, positive and negative ions of salts in the water are surrounded by the single water molecules, the movement speed is reduced, the effective collision frequency is reduced, the electrostatic attraction is reduced, and the structure on a heated wall type pipe surface cannot be realized, so that the anti-scaling purpose is achieved. Meanwhile, the dipole moment of the water molecule is increased, so that the attraction capacity of the water molecule and positive and negative ion scale molecules of the salt is increased, the scale on the heating surface or the pipe wall is softened and easy to fall off, and the scale removal effect is generated.
On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1, the nano-ion generator 6 includes an electric cabinet, and an output interface of the electric cabinet is connected to the nano-ion electrode assembly 7. The whole nanometer ion treatment system mainly comprises two parts, wherein one part is a nanometer ion electrode assembly 7, one part is a nanometer ion generator 6 (comprising a power supply), high-frequency high-voltage static electricity is generated after the nanometer ion generator is electrified, then, some nanometer materials in the nanometer ion electrode assembly 7 release electric fields with strong power, the water molecule generating structure is changed through energy, the physical characteristics and the water molecule structure of water are changed, then, a certain amount of ozone is generated in the water, and the activity of the water molecules is increased.
On the basis of the above embodiment, in another embodiment of the present invention, the output interface of each of the electric cabinets is connected to a plurality of nano-ion electrode assemblies 7. Specifically, in the practical application process, the diameter of the nano-ion electrode assembly 7 is 32cm, the length is determined according to the water quality of the water pool and the water quality of the client, the specific quantity is calculated by installing one pipe with the circulation amount of 300 tons per hour, the circulation amount of circulating water to be treated is correspondingly increased when the circulation amount exceeds 100mg/L, two or two points are increased by five or three points possibly, and the average downward spacing distance is 20 cm. Special requirements are to ensure the effect. All water that must flow through the body 90% passes through the body.
Generally, the output interface of one electric cabinet is connected to 4-21 nano ion electrode assemblies 7, but not limited thereto. In the application process, at least one electric cabinet sends an operation record to a background management center through a GPRS control panel, and the GPRS control panel is integrated in the electric cabinet. The background management center is connected with the electric cabinet in a one-to-many mode, and the electric cabinet is connected with the nano ion electrode assembly 7 in a one-to-many mode, so that unified management of the background management center is achieved, and remote real-time monitoring can be achieved. The system adopts a TCP/IP protocol to access a wireless public communication network and is in networking communication with a background management center.
On the basis of the above embodiment, in another embodiment of the present invention, the nano-ion electrode assembly 7 at least includes an electrode core, and the electrode core is connected to the power supply through a high voltage cable. Specifically, the nano ion electrode assembly 7 comprises a high-voltage cable, a cable electrode connector, an electrode core, a copper tube, an electrode sleeve and a threaded connection plug, wherein the high-voltage cable penetrates through the waterproof elbow and is electrically connected with the cable electrode connector; the electrode sleeve is sleeved on the red copper pipe, and the red copper pipe is sleeved on the electrode core; the cable electrode connector is embedded at the upper end between the copper tube and the electrode core; the lower end of the waterproof elbow is in threaded connection with the upper end of the electrode sleeve; the threaded connection plug is in threaded connection with the lower end of the electrode sleeve. The electrode core is made of a mixture material of nano silver, nano titanium dioxide, nano iron disulfide and graphene. The electrode core is added with graphene, so that the equipment can obtain better power density, the nano silver is added to enhance the conductivity of the electrode core, and the nano titanium dioxide and the nano iron disulfide are added to ensure that the equipment is not easy to oxidize and can increase current, so that the equipment performance is better.
On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1, the water collecting tank 1 is connected to the water charging system 11 through the water charging inlet pipe 9. So set up, the water loss of supplementary circulating water circulation heat transfer process.
On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1, the water inlet pipe 9 is provided with an adjusting valve 8.
On the basis of the above embodiment, in another embodiment of the present invention, as shown in fig. 1, the industrial circulating water treatment system using the nano-ion treatment technology further includes a water heating system 10, and a water inlet end and a water outlet end of the water heating system 10 are respectively connected to the heat exchanging device 3 through pipes. When the water heater works, water cooled by the heating water system 10 flows into the heating system after passing through the heat exchange equipment 3.
On the basis of the above embodiment, in another embodiment of the present invention, the outer layer of the electrode core is provided with a tin plating layer. The arrangement is adopted to prevent oxidation and increase current, so that more electric fields are arranged in the water body to do work.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (8)
1. An industrial circulating water treatment system utilizing a nano ion treatment technology is characterized by comprising a water collecting tank, a circulating water pump, a heat exchange device, a cooling tower and a nano ion treatment system, wherein the nano ion treatment system comprises a treatment tank, a nano ion generator and a nano ion electrode assembly, the nano ion generator is electrically connected with the nano ion electrode assembly, the nano ion generator controls the nano ion electrode assembly to generate high-frequency high-voltage static electricity, the nano ion electrode assembly is arranged in the treatment tank, an output part of the water collecting tank is connected with a water inlet pipe of the circulating water pump, a water outlet pipe of the circulating water pump is connected with a water inlet end of the treatment tank through a pipeline, a water outlet end of the treatment tank is connected with a water inlet pipe of the heat exchange device through a pipeline, a water outlet pipe of the heat exchange device is connected with the top of the cooling tower, and the tower bottom of the cooling tower is connected with the water collecting tank.
2. The industrial circulating water treatment system using the nano-ion treatment technology as claimed in claim 1, wherein the nano-ion generator comprises an electric cabinet, and an output interface of the electric cabinet is connected with the nano-ion electrode assembly.
3. The industrial circulating water treatment system using the nano-ion treatment technology as claimed in claim 2, wherein the output interface of each electric cabinet is connected with a plurality of nano-ion electrode assemblies.
4. The industrial circulating water treatment system using the nano-ion treatment technology as claimed in claim 2, wherein the nano-ion electrode assembly at least comprises an electrode core, and the electrode core is connected with a power supply through a high voltage cable.
5. The industrial circulating water treatment system utilizing the nano-ion treatment technology as claimed in any one of claims 1 to 4, wherein the water collecting tank is connected with a water replenishing system through a water replenishing inlet pipe.
6. The industrial circulating water treatment system using the nano-ion treatment technology as claimed in claim 5, wherein the water replenishing inlet pipe is provided with an adjusting valve.
7. The industrial circulating water treatment system using the nano-ion treatment technology according to any one of claims 1 to 4, further comprising a water heating system, wherein a water inlet end and a water outlet end of the water heating system are respectively connected with the heat exchange equipment through pipelines.
8. The industrial circulating water treatment system using the nano-ion treatment technology as claimed in claim 4, wherein the outer layer of the electrode core is provided with a tin plating layer.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120518579.6U CN212954512U (en) | 2021-03-11 | 2021-03-11 | Industrial circulating water treatment system utilizing nano-ion treatment technology |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120518579.6U CN212954512U (en) | 2021-03-11 | 2021-03-11 | Industrial circulating water treatment system utilizing nano-ion treatment technology |
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| Publication Number | Publication Date |
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| CN212954512U true CN212954512U (en) | 2021-04-13 |
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| CN202120518579.6U Expired - Fee Related CN212954512U (en) | 2021-03-11 | 2021-03-11 | Industrial circulating water treatment system utilizing nano-ion treatment technology |
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- 2021-03-11 CN CN202120518579.6U patent/CN212954512U/en not_active Expired - Fee Related
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Granted publication date: 20210413 |