CN108217994B - Intelligent treatment system applied to water eutrophication - Google Patents

Intelligent treatment system applied to water eutrophication Download PDF

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CN108217994B
CN108217994B CN201810103303.4A CN201810103303A CN108217994B CN 108217994 B CN108217994 B CN 108217994B CN 201810103303 A CN201810103303 A CN 201810103303A CN 108217994 B CN108217994 B CN 108217994B
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water
micro
responsible person
responsible
treatment system
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CN108217994A (en
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余恒
孙安民
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Ningbo Lisheng Environmental Protection Engineering Co ltd
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Ningbo Lisheng Environmental Protection Engineering Co ltd
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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F7/00Aeration of stretches of water
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F3/00Biological treatment of water, waste water, or sewage
    • C02F3/02Aerobic processes
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2209/00Controlling or monitoring parameters in water treatment
    • C02F2209/22O2
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/10Biological treatment of water, waste water, or sewage

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  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Biodiversity & Conservation Biology (AREA)
  • Microbiology (AREA)
  • Treatment Of Water By Oxidation Or Reduction (AREA)
  • Telephone Function (AREA)

Abstract

The invention discloses an intelligent treatment system applied to water eutrophication, which relates to the field of sewage treatment and solves the problems that various aerobic organisms growing in water are dead in quantity and sink to the water bottom due to no dissolved oxygen in the water, and the various aerobic organisms are deposited into water bottom sludge after rotting and deteriorating to form an internal pollution source in a water area, and the technical scheme has the key points that: the intelligent treatment system applied to water eutrophication can increase the dissolved oxygen in water, thereby indirectly preventing various aerobic organisms in water from dying and sinking to the water bottom.

Description

Intelligent treatment system applied to water eutrophication
Technical Field
The invention relates to the field of sewage treatment, in particular to an intelligent treatment system applied to water eutrophication.
Background
In the times of rare and scattered living, all water areas in the environment basically keep good quality, and the water area pollution is gradually increased along with the gradual frequent activities of human beings because the pollution discharged by the activities of human beings exceeds the limit of the self-purification capacity of the water areas.
All waters have a degree of self-cleaning capability derived from dissolved oxygen in the water, and if the water is anoxic, the water must be in serious pollution. The higher the dissolved oxygen content in water, the higher the self-cleaning ability of the water area, and the natural dissolved oxygen content in natural water is usually about 1 ppm. After a small amount of pollutants enter the water area, the dissolved oxygen in the water area oxidizes and decomposes the pollutants into inorganic matters without pollution effect and releases the inorganic matters in a gas form, the water area recovers clean, and the dissolved oxygen content in the water area recovers after a period of natural dissolution, so that the circular balance of the self-cleaning capacity of the water area is realized, and the clean ecological environment of the water area is maintained.
However, when the total amount of contaminants entering the water exceeds the self-cleaning capacity of the dissolved oxygen content in the water, the dissolved oxygen content in the water is consumed by light after the oxidation decomposition of part of the contaminants, and the remaining contaminants are combined with water molecules in two forms of dissolution and suspension to form bulky colloidal polymer molecular groups, in the colloidal polymer molecular group, all water molecules are tightly combined with pollutants in a chemical bond connection and charged particle electric adsorption mode, this binding causes the water molecules to lose all their activity and ability to bind to other substances because all the externally attached chemical bonds and the electrical adsorption gaps are occupied by water molecules and other contaminant molecules, even if the forced aeration and oxygen introduction means are adopted, the dissolved oxygen in the water cannot be dissolved, and the pollutant molecules cannot be directly oxidized and decomposed because all external connection chemical bonds and electric adsorption gaps are occupied by water molecules and other pollutant molecules. The large colloidal polymer molecular groups are diffused in all the water areas, so that all the water areas lose all the dissolved oxygen capacity and the self-cleaning capacity of the water areas is completely lost. The chemical agents can only temporarily remove part of the pollutants from the water, but the agents form new connection with the water, and the space for oxygen to dissolve in the water is not created, so that the water area can only be the result of more serious pollution and more pollution treatment by chemical means.
Because the water is not dissolved with oxygen, various aerobic organisms growing in the water die in a large amount and sink to the water bottom, and the various aerobic organisms are rotten and deteriorated and then deposited into sludge at the water bottom, so that an internal pollution source in the water area is formed, and an improved space is provided.
Disclosure of Invention
The invention aims to provide an intelligent treatment system applied to water eutrophication, which can increase dissolved oxygen in water so as to indirectly prevent various aerobic organisms in the water from dying and sinking to the water bottom.
The technical purpose of the invention is realized by the following technical scheme:
an intelligent treatment system applied to water eutrophication comprises a micro-nano aeration device floating on the water surface and a dissolved oxygen detection device arranged at the bottom of the micro-nano aeration device and used for detecting the dissolved oxygen condition in water;
if the dissolved oxygen amount in water detected by the dissolved oxygen detection device is lower than the dissolved oxygen amount in water preset by the central processing unit, the micro-nano aeration equipment is started to aerate the water to form micro-bubbles with diameters of tens of micrometers and tens of nanometers, so that the aerobic microorganisms are promoted to degrade pollutants in the water.
By adopting the scheme, the dissolved oxygen detection device is used for detecting the oxygen-containing condition in water, and the micro-nano aeration equipment is used for improving the oxygen-containing condition in water, so that the survival of aerobic organisms in water is greatly improved, the efficiency of removing pollutants in water is improved, and the eutrophication in a water tank is reduced.
Preferably, the intelligent treatment system applied to water eutrophication further comprises a positioning device arranged on the dissolved oxygen detection device and used for detecting the position of the dissolved oxygen detection device, a responsible person mobile phone number database for storing the mobile phone numbers of the responsible persons of the micro-nano aeration equipment, the positions of which are matched with the corresponding positions of the cell phones of the responsible persons, a responsible person maintenance condition database for storing the mobile phone numbers of the responsible persons and the success rates of the corresponding responsible persons for maintaining the micro-nano aeration equipment, and a short message prompting device;
if the time for starting aeration of the micro-nano aeration equipment exceeds the time preset by the central processing unit, the dissolved oxygen amount of oxygen detected by the dissolved oxygen detection device in water is still lower than the dissolved oxygen amount of oxygen preset by the central processing unit in water, the central processing unit takes the position of the positioning device as an inquiry object to call the phone number of the corresponding micro-nano aeration equipment responsible person in a responsible person phone number database, takes the phone number of the responsible person as the inquiry object to call the success rate of the responsible maintenance of the micro-nano aeration equipment matched with the inquiry object in a responsible person maintenance condition database, and takes the phone number of the responsible person with the highest success rate of maintenance of the micro-nano aeration equipment as an information sending object, and sends prompt information to the corresponding responsible person through a short message prompt device.
By adopting the scheme, through the positioning device and the mobile phone number of the responsible person, the responsible person maintenance condition database is combined, so that the responsible person with higher maintenance success rate can be obtained through the responsible person maintenance condition database when the micro-nano aeration equipment goes wrong, and the corresponding responsible person can be timely reminded through the short message prompt device, so that the corresponding responsible person can be timely maintained.
Preferably, the mobile phones of the responsible persons are defined to be provided with GPS trackers, and the intelligent treatment system applied to water eutrophication further comprises a route planning module, a corresponding mobile phone number and a responsible person tracking position database corresponding to the position tracked by the mobile phone GPS tracker;
the central processing unit takes the position of the positioning device as an inquiry object to call the mobile phone number of the corresponding micro-nano aeration equipment responsible person in the mobile phone number database of the responsible person, takes the mobile phone number of the micro-nano aeration equipment responsible person as the inquiry object to call a mobile phone tracking position matched with the inquiry object in the mobile phone tracking position database of the responsible person, and simultaneously starts the route planning module to calculate the distance from each responsible person to the micro-nano aeration equipment by taking the mobile phone tracking position as a starting point and the position of the positioning device as an end point;
the central processing unit compares the distance from each responsible person to the micro-nano aeration equipment with a preset maintenance distance, eliminates maintenance personnel of which the distance from each responsible person to the micro-nano aeration equipment exceeds the preset maintenance distance, calls the success rate of the responsible person for maintaining the micro-nano aeration equipment matched with the maintenance condition data of the responsible persons by using the mobile phone number corresponding to the rest responsible persons, and sends prompt information to the corresponding responsible person by using the mobile phone number of the responsible person with the highest success rate of maintaining the micro-nano aeration equipment as an information sending object through a short message prompting device.
By adopting the scheme, the distance from each responsible person to the micro-nano aeration equipment can be actively planned through the responsible person tracking position database, the positioning device and the route planning module, the responsible persons far away from the micro-nano aeration equipment are eliminated through the calculation of the central processing unit, and the remaining responsible persons select the staff with higher success rate of maintaining the micro-nano aeration equipment.
Preferably, the intelligent treatment system applied to water eutrophication further comprises a route screenshot module;
the route screenshot module takes the route planned by the route planning module as a screenshot and stores the information sent by the short message prompting device so as to inform the corresponding responsible person.
By adopting the scheme, the route planning condition can be actively informed to the corresponding responsible person through the setting of the route screenshot module.
Preferably, the intelligent treatment system applied to water eutrophication further comprises a voice prompter;
if the short message prompting device is sent to the corresponding responsible person, the voice prompter is started to dial the mobile phone number of the corresponding responsible person so as to inform the corresponding responsible person.
By adopting the scheme, the corresponding responsible person can be prompted by the short message prompting device through the setting of the voice prompting device.
Preferably, the mobile phone is defined to be provided with a Bluetooth identification transmitting module, the intelligent treatment system applied to water eutrophication further comprises a Bluetooth identification receiving module, an equipment number database and a proximity prompting device, wherein the Bluetooth identification receiving module is arranged on the micro-nano aeration equipment and is used for identifying a physical address in the Bluetooth identification transmitting module in the mobile phone, the equipment number database stores the physical address in the Bluetooth identification transmitting module and corresponds to the position of the positioning device, and the proximity prompting device is arranged on the micro-nano aeration equipment;
the Bluetooth identification receiving module calls the matched address from the equipment number database by using the identified physical address of the Bluetooth identification transmitting module, compares the matched address with the set position of the positioning device, and starts the proximity prompting device to prompt if the matched address is consistent with the set position of the positioning device.
By adopting the scheme, the physical address of the Bluetooth identification transmitting module on the mobile phone of the user can be identified through the setting of the Bluetooth identification receiving module, whether the corresponding equipment is correct or not can be known through the equipment number database, and when the equipment number is correct, the near prompting device can be started to prompt the user.
Preferably, the near field presentation device includes a light emission presentation circuit and a sound presentation circuit.
By adopting the scheme, the luminous prompt of the luminous prompt circuit is combined with the voice prompt of the voice prompt circuit, and compared with a single prompt mode, the voice prompt circuit has a better prompt effect.
Preferably, the light-emitting prompting circuit is a light-emitting diode.
By adopting the scheme, the light-emitting diode is preferably selected as the light-emitting prompting circuit, so that the cost is reduced, and the prompting effect on a user is ensured.
In conclusion, the invention has the following beneficial effects: the dissolved oxygen detection device is used for detecting the oxygen-containing condition in water, and the micro-nano aeration equipment is used for improving the oxygen-containing condition in water, so that the survival of aerobic organisms in water is greatly improved, the efficiency of removing pollutants in water is improved, and the eutrophication in a water tank is reduced.
Drawings
FIG. 1 is a first system block diagram of an intelligent treatment system for eutrophication of water bodies;
FIG. 2 is a system block diagram II of an intelligent treatment system for water eutrophication;
FIG. 3 is a third system block diagram of the intelligent treatment system for water eutrophication;
fig. 4 is a schematic structural diagram of the micro-nano aeration equipment.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
As shown in fig. 1 and 4, the intelligent treatment system applied to water eutrophication disclosed in the present embodiment comprises a micro-nano aeration device floating on the water surface and a dissolved oxygen detection device arranged on one side of the micro-nano aeration device close to the water bottom for detecting the dissolved oxygen condition in water, wherein the dissolved oxygen detection device preferably adopts a waterproof dissolved oxygen determinator, preferably model CX-401, preferably a flow-making aerator of the micro-nano aeration device, and a NOZZLE economic powerful flow-making aerator is a multipurpose aeration mode developed by using a jet flow guide principle. The unique mixed air chamber design, powerful rivers and air mixed injection make the stirring even, complete, under the effect of guiding device, form powerful high dissolved oxygen injection, the entrainment effect of injection rivers is that the surrounding water forms large-traffic forerunner motion trend, produces large-traffic oxygen boosting circulation effect, the NOZZLE entrainment powerful mixed aerator of class has two kinds of mounting methods of floating type and submerged type, and the submerged type is preferred here.
As shown in fig. 4, when the dissolved oxygen amount of the dissolved oxygen detection device in water is lower than the dissolved oxygen amount in water preset by the central processing unit, the micro-nano aeration device is started to aerate the water to form micro-bubbles with diameters of tens of micrometers and tens of nanometers, so as to promote aerobic microorganisms to degrade pollutants in the water.
As shown in fig. 2, the intelligent treatment system for eutrophication water body further comprises a positioning device arranged on the dissolved oxygen detection device for detecting the position of the dissolved oxygen detection device, a database of phone numbers of responsible persons for the micro-nano aeration equipment responsible persons, which stores positions and positions matched with the positions of the cell numbers of the responsible persons, a database of maintenance conditions of the responsible persons, which stores phone numbers of the responsible persons and success rates of maintaining the micro-nano aeration equipment by the corresponding responsible persons, and a short message prompting device, wherein the positioning device preferably selects a GPS locator, and the short message prompting device preferably selects a short message prompting device.
As shown in fig. 2, when the time for starting aeration of the micro-nano aeration device exceeds the time preset by the central processing unit, the dissolved oxygen amount in water detected by the dissolved oxygen detection device is still lower than the dissolved oxygen amount in water preset by the central processing unit, the central processing unit takes the phone number of the person in charge of the micro-nano aeration device as an inquiry object by taking the phone number of the person in charge as the positioning object, and takes the phone number of the person in charge as the inquiry object to call the success rate of maintaining the micro-nano aeration device in the maintenance condition database of the person in charge, and takes the phone number of the person in charge with the highest success rate of maintaining the micro-nano aeration device as an information sending object, and sends prompt information to the corresponding person in charge through the short message prompt device.
In the actual use process, because one micro-nano aeration device usually has a plurality of responsible heat, how to determine a proper responsible person is particularly important, the mobile phones of the responsible person are defined to be provided with GPS trackers, and the intelligent treatment system applied to water eutrophication also comprises a route planning module, a responsible person tracking position database corresponding to the mobile phone number and the position tracked by the mobile phone GPS tracker; the central processing unit takes the position of the positioning device as an inquiry object to call the mobile phone number of the corresponding micro-nano aeration equipment responsible person in the mobile phone number database of the responsible person, takes the mobile phone number of the micro-nano aeration equipment responsible person as the inquiry object to call a mobile phone tracking position matched with the inquiry object in the mobile phone tracking position database of the responsible person, simultaneously, the route planning module is started to take the mobile phone tracking position as a starting point, the position of the positioning device is taken as an end point, the distance from each responsible person to the micro-nano aeration equipment is calculated, and the route planning module preferably selects a route planner.
The central processing unit compares the distance from each responsible person to the micro-nano aeration equipment with a preset maintenance distance, eliminates maintenance personnel with the distance from the micro-nano aeration equipment exceeding the preset maintenance distance, calls the success rate of the responsible micro-nano aeration equipment matched with the maintenance condition data of the responsible person by using the mobile phone number corresponding to the rest responsible persons as an information sending object, and sends prompt information to the corresponding responsible person by using a short message prompting device.
In order to improve the effect that a person in charge informed by the short message prompting device can find the micro-nano aeration equipment in time, the intelligent treatment system applied to water eutrophication further comprises a route screenshot module; the route screenshot module takes the route planned by the route planning module as a screenshot and stores the information sent by the short message prompting device so as to inform the corresponding responsible person.
In order to avoid that a user can check the short message information sent by the short message prompting device in time when obtaining the short message information, the intelligent treatment system applied to the water eutrophication also comprises a voice prompting device; if the short message prompting device is sent to the corresponding responsible person, the voice prompter is started to dial the mobile phone number of the corresponding responsible person so as to inform the corresponding responsible person.
As shown in fig. 3, in addition, when a user finds a nearby area according to the route planning screenshot, the micro-nano aeration device can be found more quickly, a bluetooth identification transmitting module is arranged on the defined mobile phone, the intelligent treatment system applied to water eutrophication further comprises a bluetooth identification receiving module arranged on the micro-nano aeration device and used for identifying a physical address in the bluetooth identification transmitting module in the mobile phone, an equipment number database storing the physical address in the bluetooth identification transmitting module and corresponding to the position of the positioning device, and a proximity prompting device; the Bluetooth identification receiving module calls a matched address from the equipment number database by using the identified physical address of the Bluetooth identification transmitting module, compares the address with the set position of the positioning device, and starts the near prompting device to prompt if the address is consistent with the set position of the positioning device, wherein the near prompting device comprises a light-emitting prompting circuit and a sound prompting circuit, the light-emitting prompting circuit preferably selects a light-emitting diode, and the sound prompting circuit preferably selects a loudspeaker.
The integral process comprises the following steps:
after the micro-nano aeration equipment is started for a period of time, when the dissolved oxygen detection device detects that the oxygen-containing condition in water is not well relieved, the mobile phone number of a user is acquired through the positioning device and the mobile phone number database of the responsible person, the condition of tracking the position of the responsible person is acquired by combining the mobile phone number database of the responsible person, and the distance from each responsible person to the micro-nano aeration equipment is calculated through the route planning module.
The central processing unit is used for eliminating partial longer-distance responsible persons, the responsible persons with higher maintenance success rate in the rest responsible persons are obtained by combining the responsible person maintenance condition database, the short message prompting device is used for notifying, and the voice prompter is used for synchronously prompting so as to notify the corresponding responsible persons.
When the responsible person arrives nearby, the Bluetooth identification receiving module carries out corresponding identification on the Bluetooth identification transmitting module at the mobile phone of the user, and the central processing unit and the equipment number database are combined to judge whether the responsible person is the responsible person or not, and when the judgment is successful, the nearby prompting device carries out corresponding prompting on the nearby responsible person.
The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (6)

1. An intelligent treatment system applied to water eutrophication is characterized in that: the intelligent treatment system applied to water eutrophication comprises micro-nano aeration equipment floating on the water surface and a dissolved oxygen detection device arranged at the bottom of the micro-nano aeration equipment and used for detecting the dissolved oxygen condition in water;
if the dissolved oxygen amount in water detected by the dissolved oxygen detection device is lower than the dissolved oxygen amount in water preset by the central processing unit, the micro-nano aeration equipment is started to aerate the water to form micro-bubbles with the diameter of tens of microns and tens of nanometers, so that aerobic microorganisms are promoted to degrade pollutants in the water;
the intelligent treatment system applied to water eutrophication also comprises a positioning device arranged on the dissolved oxygen detection device and used for detecting the position of the dissolved oxygen detection device, a database of the phone numbers of the responsible persons, a database of the maintenance conditions of the responsible persons, and a short message prompting device, wherein the phone numbers of the responsible persons are stored in the database of the phone numbers of the responsible persons, the positions of the cell numbers of the responsible persons are matched with the positions of the corresponding micro-nano aeration devices, the database of the maintenance conditions of the responsible persons is stored in the database of the phone numbers of the responsible persons, the success rate of the maintenance of the micro-nano aeration devices of the corresponding responsible persons is stored in the database, the mobile phones defining the responsible persons are all provided with GPS trackers, and the intelligent treatment;
if the aeration starting time of the micro-nano aeration equipment exceeds the time preset by a central processing unit, the dissolved oxygen amount of oxygen in water detected by a dissolved oxygen detection device is lower than the dissolved oxygen amount of oxygen in water preset by the central processing unit, the central processing unit takes the position of a positioning device as an inquiry object to call a mobile phone number of a corresponding micro-nano aeration equipment responsible person in a responsible person mobile phone number database, takes the mobile phone number of the micro-nano aeration equipment responsible person as the inquiry object to call a mobile phone tracking position matched with the responsible person tracking position in a responsible person tracking position database, and simultaneously, a route planning module is started to take the mobile phone tracking position as a starting point and the position of the positioning device as a micro-nano end point to calculate the distance from each responsible person to the aeration equipment;
the central processing unit compares the distance from each responsible person to the micro-nano aeration equipment with a preset maintenance distance, eliminates maintenance personnel of which the distance from each responsible person to the micro-nano aeration equipment exceeds the preset maintenance distance, calls the success rate of the responsible person for maintaining the micro-nano aeration equipment matched with the maintenance condition data of the responsible persons by using the mobile phone number corresponding to the rest responsible persons, and sends prompt information to the corresponding responsible person by using the mobile phone number of the responsible person with the highest success rate of maintaining the micro-nano aeration equipment as an information sending object through a short message prompting device.
2. The intelligent treatment system applied to water eutrophication of claim 1, which is characterized in that: the intelligent treatment system applied to water eutrophication also comprises a route screenshot module;
the route screenshot module takes the route planned by the route planning module as a screenshot and stores the information sent by the short message prompting device so as to inform the corresponding responsible person.
3. The intelligent treatment system applied to water eutrophication of claim 2, which is characterized in that: the intelligent treatment system applied to water eutrophication also comprises a voice prompter;
if the short message prompting device is sent to the corresponding responsible person, the voice prompter is started to dial the mobile phone number of the corresponding responsible person so as to inform the corresponding responsible person.
4. The intelligent treatment system for eutrophication water body according to claim 3, wherein: the intelligent treatment system for water eutrophication also comprises a Bluetooth identification receiving module, an equipment number database and a near prompting device, wherein the Bluetooth identification receiving module is arranged on the micro-nano aeration equipment and is used for identifying a physical address in the Bluetooth identification transmitting module in the mobile phone;
the Bluetooth identification receiving module calls the matched address from the equipment number database by using the identified physical address of the Bluetooth identification transmitting module, compares the matched address with the set position of the positioning device, and starts the proximity prompting device to prompt if the matched address is consistent with the set position of the positioning device.
5. The intelligent treatment system for eutrophication of water bodies of claim 4, which is characterized in that: the near prompting device comprises a light-emitting prompting circuit and a sound prompting circuit.
6. The intelligent treatment system for eutrophication of water bodies of claim 5, which is characterized in that: the light-emitting prompting circuit is preferably a light-emitting diode.
CN201810103303.4A 2018-02-01 2018-02-01 Intelligent treatment system applied to water eutrophication Active CN108217994B (en)

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