CN206960461U - The intelligent high-precision real-time evaluation system of Reservoir Eutrophication - Google Patents

The intelligent high-precision real-time evaluation system of Reservoir Eutrophication Download PDF

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Publication number
CN206960461U
CN206960461U CN201720790808.3U CN201720790808U CN206960461U CN 206960461 U CN206960461 U CN 206960461U CN 201720790808 U CN201720790808 U CN 201720790808U CN 206960461 U CN206960461 U CN 206960461U
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China
Prior art keywords
module
inductor
acquisition module
evaluation system
time evaluation
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Expired - Fee Related
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CN201720790808.3U
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Chinese (zh)
Inventor
吴迪
赵乔
向晓莉
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China Three Gorges University CTGU
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China Three Gorges University CTGU
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Abstract

Reservoir Eutrophication intelligently high-precision real-time evaluation system, including acquisition module, data memory module, processing module, display module;Processing module connects acquisition module, data memory module, acquisition module connection data memory module, processing module connection display module respectively.The acquisition module, data storage is carried out for the data of collection to be sent into data memory module, while send data to processing module;The processing module, for controlling display module to show result;The acquisition module includes total phosphorus inductor, total nitrogen inductor, chlorophyll a inductor, transparency inductor, permanganate indices inductor, positioning unit, power unit;The positioning unit, for being positioned to acquisition module present position;The power unit, for being moved to acquisition module.The utility model can understand the eutrophic state in each place in reservoir area in real time;The collection validity of information and the precision of result are improved, and the use of acquisition module can be reduced.

Description

The intelligent high-precision real-time evaluation system of Reservoir Eutrophication
Technical field
Assessment of Reservoir Eutrophication field is the utility model is related to, specifically a kind of Reservoir Eutrophication intelligence high-precision real When evaluation system.
Background technology
Under the serious stern form that nowadays freshwater resources lack, reservoir, which supplies water to have become, alleviates the insufficient weight of global water resources Want approach.Due to expanding economy around reservoir, the increase of point source, non-point source pollution loading, reservoir area sluggish flow after dam water storage, The speed of Reservoir Eutrophication is accelerated, water body is lost original function, influences economic and society sustainable development.Cause This, evaluation reservoir nutrition condition is significant to fwaater resources protection.
Body eutrophication evaluation method is enriched at present, and Assessment of Reservoir Eutrophication system is also varied, but is respectively provided with Following outstanding problem:
1st, data acquisition is mostly artificial collection, and efficiency is low, can not accomplish Real-time Feedback to information, and water sample is in transit If sending pollution, evaluation result can be influenceed;
2nd, a small number of automatic acquisition devices are mostly to be fixed on riverbank, and riverbank situation is complicated, can not truly reflect whole reservoir Eutrophic state;
If the 3, need to measure the eutrophic state of whole reservoir, number of devices needed for conventional method is big, and cost is high, feasibility Difference.
The content of the invention
In order to solve the above technical problems, the utility model provides a kind of Reservoir Eutrophication intelligently high-precision Real-Time Evaluation system System, it is practical, by the information of multiple acquisition modules, the eutrophic state in each place in reservoir area can be understood in real time;Pass through Positioner and power set realize the movement of acquisition module, change each intermodule in real time by the result of calculation of processing module Position relationship, improve the collection validity of information and the precision of result, and making for acquisition module can be reduced With;By warning module and communication module, policymaker can be made to understand reservoir area eutrophic state at any time, to formulate in next step Resolution.
The technical scheme that the utility model is taken is:
Reservoir Eutrophication intelligently high-precision real-time evaluation system, including acquisition module, data memory module, processing mould Block, display module;Processing module connects acquisition module, data memory module, acquisition module connection data memory module, place respectively Manage module connection display module.
The acquisition module, data storage is carried out for the data of collection to be sent into data memory module, while by number According to transmission to processing module;
The processing module, for controlling display module to show result;
The acquisition module includes total phosphorus inductor, total nitrogen inductor, chlorophyll a inductor, transparency inductor, Gao Meng Sour potassium index inductor, positioning unit, power unit;
The positioning unit, for being positioned to acquisition module present position;
The power unit, for being moved to acquisition module.
The processing module include single-point evaluation module, reservoir area evaluation module, apart from processing module, program decisions module, Pollutant diffusion model module, warning module, communication module;
The single-point evaluation module, the data for being sent to single acquisition module are handled, and draw its present position Eutrophic state.
The reservoir area evaluation module, for handling the eutrophic state of multiple positions, mould is spread with pollutant Pattern block is computation model, according to the position relationship between each acquisition module positioning unit tried to achieve apart from processing module, obtains storehouse The eutrophic state in area Nei Ge places.
The coordinate data of each acquisition module apart from processing module, provided according to positioning unit, analysis calculating are tried to achieve Position relationship between each acquisition module.
The warning module, exceed the place of critical condition for monitoring eutrophic state in reservoir area, and pass through communication Module periodically sends result to terminal device.
The positioning unit is Big Dipper locating module or d GPS locating module.
The power unit includes propeller or other power set that can move object in water.
The terminal device is mobile phone, tablet personal computer or notebook computer.
The total phosphorus inductor 5 uses PhosphaxSigma total phosphorus on-line computing models.
The total nitrogen inductor 6 uses NHN-202 ammonia nitrogen digital transducers.
The chlorophyll a inductor 7 uses the underwater luminoscopes of Cyclops-7.
The transparency inductor 8 uses JZ-WQZ turbidity inductors.
The permanganate indices inductor 9 measures COD using JSA6-COD oxygen demand COD analyzersMn, after calculating It can obtain permanganate indices.
A kind of intelligent high-precision real-time evaluation system of Reservoir Eutrophication of the utility model, it is practical, adopted by multiple Collect the information of module, the eutrophic state in each place in reservoir area can be understood in real time;Realized by positioner and power set The movement of acquisition module, changes the position relationship of each intermodule by the result of calculation of processing module, improves information in real time Collection validity and result precision, and the use of acquisition module can be reduced, save operating cost;By aobvious Showing device, the eutrophic state in each place in reservoir area is shown, make that policymaker is more directly perceived, effective problem analysis;Pass through early warning Module and communication module, policymaker can be made to understand reservoir area eutrophic state at any time, to formulate next step resolution.
Brief description of the drawings
Fig. 1 is the structured flowchart of Tthe utility model system.
Embodiment
Reservoir Eutrophication intelligently high-precision real-time evaluation system, including acquisition module 1, data memory module 2, processing mould Block 3, display module 4;Processing module 3 connects acquisition module 1, data memory module 2 respectively, and acquisition module 1 connects data storage Module 2, processing module 3 connect display module 4.
The acquisition module 1, data storage is carried out for the data of collection to be sent into data memory module 2, simultaneously will Data are sent to processing module 3.
The processing module 3, for controlling display module to show result.
The acquisition module 1 includes total phosphorus inductor 5, total nitrogen inductor 6, chlorophyll a inductor 7, transparency inductor 8th, permanganate indices inductor 9, positioning unit 10, power unit 11.
The positioning unit 10, for being positioned to the present position of acquisition module 1.
The power unit 11, for being moved to acquisition module 1.
The processing module 3 includes single-point evaluation module 12, reservoir area evaluation module 13, determined apart from processing module 14, scheme Plan module 15, pollutant diffusion model module 16, warning module 17, communication module 18.
The single-point evaluation module 12, the data for being sent to single acquisition module 1 are handled, and draw its residing position The eutrophic state put.
The reservoir area evaluation module 13, for handling the eutrophic state of multiple positions, spread with pollutant Model module 16 is computation model, is closed according to the position between each acquisition module positioning unit 10 tried to achieve apart from processing module 14 System, obtain the eutrophic state in reservoir area Nei Ge places.
The coordinate data of each acquisition module 1 apart from processing module 14, provided according to positioning unit 10, analysis calculate Try to achieve the position relationship between each acquisition module 1.
The warning module 17, the place of critical condition is exceeded for monitoring eutrophic state in reservoir area, and by logical Letter module 18 periodically sends result to terminal device.
The positioning unit 10 is Big Dipper locating module or d GPS locating module.
The power unit 11 includes propeller or other power set that can move object in water.
The terminal device is mobile phone, tablet personal computer or notebook computer.
The communication module 18 includes cable, optical cable in wire communication, the 2G/3G/4G/LTE connections in radio communication And WIFI/ WLANs connection.
The data memory module 2 uses Ali's database RDS versions.
The processing module 3 uses desktop computer or notebook computer.
Processing module 3 is realized by ArcGis softwares:Single-point evaluation module 12, reservoir area evaluation module 13, distance processing Module 14, program decisions module 15, pollutant diffusion model module 16, the function of warning module 17.
The display module 4 uses LCDs.
The total phosphorus inductor 5 uses PhosphaxSigma total phosphorus on-line computing models.
The total nitrogen inductor 6 uses NHN-202 ammonia nitrogen digital transducers.
The chlorophyll a inductor 7 uses the underwater luminoscopes of Cyclops-7.
The transparency inductor 8 uses JZ-WQZ turbidity inductors.
The permanganate indices inductor 9 measures COD using JSA6-COD oxygen demand COD analyzersMn, after calculating It can obtain permanganate indices.

Claims (8)

1. Reservoir Eutrophication intelligently high-precision real-time evaluation system, including acquisition module(1), data memory module(2), processing Module(3), display module(4);Processing module(3)Acquisition module is connected respectively(1), data memory module(2), acquisition module (1)Connect data memory module(2), processing module(3)Connect display module(4);It is characterized in that:
The acquisition module(1), for the data of collection to be sent into data memory module(2)Data storage is carried out, simultaneously will Data are sent to processing module(3);
The processing module(3), for controlling display module to show result;
The acquisition module(1)Including total phosphorus inductor(5), total nitrogen inductor(6), chlorophyll a inductor(7), transparency sense Answer device(8), permanganate indices inductor(9), positioning unit(10), power unit(11);
The positioning unit(10), for acquisition module(1)Present position is positioned;
The power unit(11), for acquisition module(1)Move.
2. the intelligent high-precision real-time evaluation system of Reservoir Eutrophication according to claim 1, it is characterised in that:Positioning unit (10)For Big Dipper locating module or d GPS locating module.
3. the intelligent high-precision real-time evaluation system of Reservoir Eutrophication according to claim 1, it is characterised in that:The power Unit(11)Including propeller.
4. the intelligent high-precision real-time evaluation system of Reservoir Eutrophication according to claim 1, it is characterised in that:The total phosphorus Inductor(5)Using PhosphaxSigma total phosphorus on-line computing models.
5. the intelligent high-precision real-time evaluation system of Reservoir Eutrophication according to claim 1, it is characterised in that:The total nitrogen Inductor(6)Using NHN-202 ammonia nitrogen digital transducers.
6. the intelligent high-precision real-time evaluation system of Reservoir Eutrophication according to claim 1, it is characterised in that:The leaf is green Plain a inductors(7)Using the underwater luminoscopes of Cyclops-7.
7. the intelligent high-precision real-time evaluation system of Reservoir Eutrophication according to claim 1, it is characterised in that:It is described transparent Spend inductor(8)Using JZ-WQZ turbidity inductors.
8. the intelligent high-precision real-time evaluation system of Reservoir Eutrophication according to claim 1, it is characterised in that:The Gao Meng Sour potassium index inductor(9)Using JSA6-COD oxygen demand COD analyzers.
CN201720790808.3U 2017-07-03 2017-07-03 The intelligent high-precision real-time evaluation system of Reservoir Eutrophication Expired - Fee Related CN206960461U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109470829A (en) * 2018-11-21 2019-03-15 武汉新烽光电股份有限公司 Water quality detection method, device, server, water-quality sampler and medium
CN113340914A (en) * 2021-06-17 2021-09-03 重庆大学 Method for measuring and calculating water eutrophication state based on hyperspectral remote sensing
CN113570265A (en) * 2021-08-02 2021-10-29 北部湾大学 Offshore eutrophication evaluation system

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109470829A (en) * 2018-11-21 2019-03-15 武汉新烽光电股份有限公司 Water quality detection method, device, server, water-quality sampler and medium
CN109470829B (en) * 2018-11-21 2021-08-10 武汉新烽光电股份有限公司 Water quality detection method, device, server, water quality sampler and medium
CN113340914A (en) * 2021-06-17 2021-09-03 重庆大学 Method for measuring and calculating water eutrophication state based on hyperspectral remote sensing
CN113570265A (en) * 2021-08-02 2021-10-29 北部湾大学 Offshore eutrophication evaluation system

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