CN205091589U

CN205091589U - Monitoring system for sewage treatment

Info

Publication number: CN205091589U
Application number: CN201520847964.XU
Authority: CN
Inventors: 李武钲; 郑咏纭
Original assignee: FENRI DEVELOPMENT ENGINEERING Co Ltd
Current assignee: FENRI DEVELOPMENT ENGINEERING Co Ltd
Priority date: 2015-10-29
Filing date: 2015-10-29
Publication date: 2016-03-16
Anticipated expiration: 2025-10-29

Abstract

The utility model discloses a monitoring system for sewage treatment, it contains sewage treatment system and high in the clouds monitor platform. Sewage treatment system contains a plurality of sewage treatment units, sets up water level data monitoring ware, equipment data monitor and quality of water data monitoring ware to water level height data, mode of operation data and water quality monitoring data in the monitoring sewage treatment unit. Real -time supervision data upload carries out the comparison to high in the clouds monitor platform's data storehouse with water level critical value, unit exception condition and the quality of water continuous monitor data of storing among the intelligent database, judge whether sewage treatment system takes place unusually, sends the abnormal information and carries out appropriate processing or adjustment with notice operating personnel.

Description

Wastewater treatment supervisory system

Technical field

The utility model is about a kind of wastewater treatment supervisory system, particularly about a kind of running utilizing sensing equipment Real-Time Monitoring sewage disposal system, the data stored in the data monitored and high in the clouds monitor supervision platform are compared, judges whether sewage disposal system occurs abnormal intelligent monitoring system.

Background technology

Known sewage disposal system, there is following base conditioning step mostly, as catching rubbish foreign matter, allow sewage leave standstill to make sediment deposition, carry out oxygenolysis or add pharmacy disinfection supervisor, allow industrial waste water or domestic waste water just be disposed in the middle of external environment after treatment, avoid the water resource in central pollutant or germ harm natural, ecological.But only sewage kind is different, the complexity of process and requirement will change to some extent, and such as industrial waste water may need to process remaining of heavy metal material or noxious material, and domestic waste water then needs the process etc. of more organic substance decomposing.These all can have influence on finally discharged water quality.Sewage disposal system is in the past the state of timing sampling observation relevant device or storage pool mostly, or the water quality of timing detection floss hole is guaranteed to meet the standard of releasing.But such monitor mode is often real-time not, if water quality goes wrong, to be detected when noting abnormalities, the sewage of discharging during this section before detecting may pollute and have little time to remedy.

In addition, consider the Resourse Distribute of manpower and cost, each sewage disposal system not easily arranges specific personnel and continues to monitor, be therefore all abnormal there is a period of time after, just can find corresponding operating personnel or carry out the adjustment of being correlated with.And the experience of operating personnel, be again unpredictable change because of, the lazy careless mistake of personnel causes inspection certain, or drops into overdose of medicine agent etc. to reach emission standard, is all utilize the normal problems faced of current management and control sewage disposal system.

In view of this, how to design a kind of Real-Time Monitoring sewage disposal system, when various sewage places mileage sequence is carried out, the state of monitoring sewage disposal system that can be real-time and lasting, guarantee that the water quality of releasing can meet emission standard, can also lifting operation efficiency waste to reduce unnecessary human cost, will be the important technology that wastewater treatment dealer needs simultaneously.Therefore, inventor of the present utility model thinks and designs a kind of wastewater treatment supervisory system, and the disappearance for prior art is improved, and then the enforcement in enhancement industry utilizes.

Utility model content

Because the problem of above-mentioned prior art, the purpose of this utility model is providing a kind of wastewater treatment supervisory system exactly, with solve known cannot Real-Time Monitoring sewage disposal system, and cannot by learning with given data comparison the problem that exception occurs ahead of time.

According to an object of the present utility model, propose a kind of wastewater treatment supervisory system, it comprises sewage disposal system and high in the clouds monitor supervision platform.Wherein, sewage disposal system comprises multiple sewage treatment unit, waterlevel data monitor, device data monitor and water quality data monitor.Multiple sewage treatment unit has contain sewage space respectively, and contain sewage is connected to each other by sewer line between space.Pending sewage flows into sewage disposal system by influent stream pipeline, and after utilizing the sewage disposal device of corresponding contain sewage spatial placement to carry out wastewater treatment process, by releasing, pipeline is discharged.Waterlevel data monitor is arranged in the middle of default contain sewage space, the height of water level data of monitoring sewage in the middle of contain sewage space.Device data monitor is connected to sewage disposal device, the operational state data of monitoring sewage disposal device.Water quality data monitor is arranged in the middle of default multiple sewage treatment units, detects the water monitoring data of sewage in the contain sewage space of correspondence.High in the clouds monitor supervision platform is connected with sewage disposal system through Internet connection mode.High in the clouds monitor supervision platform comprises document data base, intelligent database and processor.Document data base stores height of water level data, operational state data and the water monitoring data uploaded by waterlevel data monitor, device data monitor and water quality data monitor.Intelligent database is connected to document data base, stores the continuous Monitoring Data of water quality of sewage disposal system historical data, and the water level critical value stored set by user and unit exception condition.Processor is connected to document data base and intelligent database, real-time comparison height of water level data and water level critical value, operational state data and unit exception condition and water monitoring data and the continuous Monitoring Data of water quality, when comparison result occurs abnormal, transmit abnormal information to operating personnel.

Preferably, contain sewage space can comprise treatment tank, sewage storage groove or wastewater treatment channel.

Preferably, sewage disposal system can comprise Monitoring Data gatherer further, be connected with water level prediction monitor, device data monitor and water quality data monitor through Internet of Things, receive height of water level data, operational state data and water monitoring data, and be uploaded to document data base via Internet connection.

Preferably, water monitoring data can comprise temperature, electrical conductivity, pH-value, dissolved oxygen amount and suspended particulates amount.

Preferably, the continuous Monitoring Data of water quality can record according to time interval the water monitoring data that water quality data monitor detects continuously, and the invalid data of deduction detecting and lost data, be stored in the middle of intelligent database.

Preferably, processor can the correlativity of comparison water monitoring data and the continuous Monitoring Data of water quality, and by calculating the difference value of water monitoring data and the continuous Monitoring Data of water quality, the variability assessing difference value is confirmed whether as abnormality.

Preferably, sewage disposal system can comprise multiple sludge treating block, has mud spatial accommodation respectively, is connected to each other between mud spatial accommodation by mud pipeline.The mud that multiple sewage treatment unit produces, the sludge treatment device utilizing corresponding mud spatial accommodation to arrange carries out Treatment of Sludge program, and by discarded after Treatment of Sludge, the waste water of generation is again back to sewage disposal system and carries out wastewater treatment process.

Preferably, mud spatial accommodation can arrange waterlevel data monitor, the height of water level data of monitoring mud in the middle of mud spatial accommodation, and by height of water level data upload to document data base.

Preferably, sludge treatment device can arrange device data monitor, the operational state data of monitoring sludge treatment device, and operational state data is uploaded to document data base.

Preferably, high in the clouds monitor supervision platform can comprise steering order database further, when real-time comparison result occurs abnormal, steering order corresponding in steering order database is sent to and produces abnormal sewage disposal device by processor, the state that the operating parameter directly adjusting sewage disposal device operates with adjustment.

From the above, according to wastewater treatment supervisory system of the present utility model, it can have one or more following advantage:

(1) this wastewater treatment supervisory system can utilize the treatment state of waterlevel data monitor, device data monitor and water quality data monitor Real-Time Monitoring sewage disposal system, and by data upload to high in the clouds monitor supervision platform, user can be monitored in real time sewage disposal system, reduce abnormality time of origin, improve the efficiency of process strain.

(2) this wastewater treatment supervisory system is compared by the water level critical value stored by Real-time Monitoring Data and intelligent database, unit exception condition and the continuous Monitoring Data of water quality, judge whether the wastewater level in the middle of sewage disposal system, equipment state and sewage quality produce ANOMALOUS VARIATIONS, propose the warning of abnormal information to take emergency measure early, continue the state maintaining sewage disposal system normal operation.

(3) this wastewater treatment supervisory system when abnormal generation, can utilize steering order directly to adjust sewage disposal device parameter, solves abnormal problem in real time, avoid manual operation to carry out excessive adjustment, reduce the waste of overall manpower and device resource.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of wastewater treatment supervisory system of the present utility model.

Fig. 2 is the schematic diagram of the sewage disposal system of embodiment of the present utility model.

Fig. 3 is the schematic diagram that the water monitor of embodiment of the present utility model is arranged.

Embodiment

For effect that the expensive juror of profit understands technical characteristic of the present utility model, content and advantage and can reach, now this creation is coordinated accompanying drawing, and be described in detail as follows with the expression-form of embodiment, and it is wherein used graphic, its purport is only the use of signal and aid illustration book, for the actual proportions after this creation enforcement and precisely may not configure, therefore should just appended graphic ratio and configuration relation not understand, limit to the interest field of the utility model on reality is implemented, conjunction be first chatted bright.

Please refer to Fig. 1, it is the schematic diagram of wastewater treatment supervisory system of the present utility model.As shown in the figure, wastewater treatment supervisory system comprises sewage disposal system 10 and high in the clouds monitor supervision platform 20, and both are connected to each other by wired or wireless Internet connection mode.Sewage disposal system 10 can be the large-scale wastewater treatment plant of each department, the small sewage treatment plant of household community or the sewage treatment facility etc. of factory, the present embodiment illustrates for single sewage disposal system 10, but wastewater treatment supervisory system also can allow high in the clouds monitor supervision platform 20 be connected to multiple sewage disposal system, monitors in real time simultaneously.Pending sewage is flowed into via influent stream pipeline 17 by influent stream mouth 15, is directed at weif orifice 16 discharges after multiple handling procedure by pipeline 19 of releasing.The first sewage treatment unit 11, second sewage treatment unit 12 and the 3rd sewage treatment unit 13 is provided with in the middle of sewage disposal system 10, each sewage treatment unit carries out different wastewater treatment process respectively, such as filter or precipitation sewage in foreign matter, oxygenolysis organism, add pharmacy disinfection etc.The mode that wastewater treatment process performs comprises and arranges respective contain sewage space, after sewage enters, then performs wastewater treatment process by the treatment facility of correspondence.As shown in this embodiment, first sewage treatment unit 11 comprises the first contain sewage space 11a and the first sewage disposal device 11b, second sewage treatment unit 12 comprises the second contain sewage space 12a and the second sewage disposal device 12b, 3rd sewage treatment unit 13 comprises the 3rd contain sewage space 13a and the 3rd sewage disposal device 13b, connects between each contain sewage space with sewer line 18.Contain sewage space described here comprises treatment tank, sewage storage groove or wastewater treatment channel etc., conditions of demand according to handling procedure are arranged, therefore, the sewage disposal system of various different demand or different scales can comprise the sewage treatment unit of varying number, and its quantity is not limited to three sewage treatment units described in the present embodiment.

In the middle of above-mentioned sewage disposal system 10, relevant sensor can be set in the middle of each sewage treatment unit to monitor the situation of wastewater treatment, equally as shown in Figure 1, the first sewage treatment unit 11 comprises the first waterlevel data monitor 111, first device data monitor 112 and the first data of water quality monitor 113.First water level prediction monitor 111 and the first water quality data monitor 113 are arranged on the first contain sewage space 11a, monitor sewage height of water level in space and the water quality situation of wastewater treatment respectively, first device data monitor 112 is connected to the first sewage disposal device 11b, monitors the operational state of the first sewage disposal device 11b.Similarly, the second sewage treatment unit 12 also can comprise the second waterlevel data monitor 121, second device data monitor 122 and the second water quality data monitor 123; 3rd sewage treatment unit 13 can comprise the 3rd waterlevel data monitor 131, the 3rd device data monitor 132 and the 3rd data of water quality monitor 133.The mode that in the middle of second and third sewage treatment unit 12,13, monitor is arranged can be same as the first sewage treatment unit 11, but the utility model is not as limit, water level prediction monitor and data of water quality monitor also can only be arranged among the sewage treatment unit of acquiescence, the treatment state of monitoring specific program, but not be arranged in the middle of each sewage treatment unit.In addition, device data monitor not necessarily independently sensing device, also can be acquisition and transmitting device, the operational parameter data directly on crawl sewage disposal device or operating condition data, then is uploaded to high in the clouds monitor supervision platform 20.

Again for the first sewage treatment unit 11, height of water level data, operational state data and water monitoring data that first waterlevel data monitor 111, first device data monitor 112 and the first data of water quality monitor 113 monitor, can utilize wireless transmission method to be sent to the document data base 21 of high in the clouds monitor supervision platform 20.Wireless transmission method described here utilizes radio transmitting device 14 to transmit Monitoring Data, and this radio transmitting device 14 can be wireless network base stations, allows each monitor WiFi transmission mode can be utilized to connect the Internet, by data upload to document data base 21.Or radio transmitting device 14 also can be data collector, Internet of Things is utilized to be connected with the first waterlevel data monitor 111, first device data monitor 112 and the first water quality data monitor 113, to receive and after integrating each Monitoring Data, be more together uploaded to document data base 21 by radio transmitting device 14.Similarly, the second sewage treatment unit 12 and the 3rd sewage treatment unit 13 also can upload Monitoring Data in a like fashion.

The data bank 21 of high in the clouds monitor supervision platform 20 stores height of water level data, operational state data and the water monitoring data uploaded, intelligent database 22 is then connected to data bank 21, by the historical data measured by each water monitor, storage becomes the continuous Monitoring Data of water quality, the continuous Monitoring Data of this water quality, can contain every day, weekly, monthly, the continuous data in per season, also namely in special time interval, the data of all water quality monitoring pointers.At this, if having, abnormal Monitoring Data occurs, or monitoring equipment fault cannot obtain correct Monitoring Data, all the data of its time interval must be deducted.By the percentile calculating of effective monitoring record value, can check and guarantee the validity of data transfer rate, its account form can following formulae discovery.

P = \frac{T - (D_{u} + D_{m})}{T} \times 100 %

Wherein, P is effective monitoring record value percent, and T is the T.T. of time interval, and Du is invalid data in monitor, and Dm is lost data in monitor.

After the validity guaranteeing the continuous Monitoring Data of the water quality in the middle of intelligent database 22, while the first sewage treatment unit 11 operates, processor 23 in the middle of high in the clouds monitor supervision platform 20 can the continuous Monitoring Data of water quality in the middle of the water monitoring data that records in real time of comparison first water monitor 113 and intelligent database 22, carries out the analysis of correlativity.Utilize the difference of data in the middle of real-time water monitoring data and the continuous Monitoring Data of water quality, calculate arithmetic average, difference standard deviation, trust coefficient, relative error and test the eigenwerts such as the relative accuracy checked and mean difference, when these eigenwerts exceed default critical value, judge that the water quality in the middle of the first sewage treatment unit 11 occurs abnormal.Now, processor 23 can transmit the operating personnel of abnormal information 201 to sewage disposal system 10, such as, transmit note to the portable hand-held device of operating personnel, notify that problem occurs the first sewage treatment unit 11, need to take suitable emergency measure as early as possible, avoid water quality continuous worsening.Or also can issue abnormal information by monitor supervision platform beyond the clouds, the monitor staff connecting this platform can be learnt, and water quality produces extremely, and the process making correspondence that can be real-time.

Moreover, intelligent database 22 also stored user setting water level critical value and unit exception condition, when the water level that the first waterlevel data monitor 111 in the middle of the first sewage treatment unit 11 detects sewage in the middle of the first contain sewage space 11a is higher than the highest critical value or lower than lowest critical value, processor 23 judges that height of water level is abnormal, provide alert by transmitting abnormal information 201 couples of operating personnel, allow operating personnel can improve in good time or reduce flow to adjust height of water level problem, avoid the first sewage disposal device 11b dally or the too much water yield cannot be processed.In addition, unit exception condition is then monitor for the mode of operation of the first sewage disposal device 11b, such as processor 23 can to operate the setting whether exceeded in unit exception condition by comparison first sewage disposal device 11b continuously, when monitoring continuous running and exceeding Preset Time, notify operating personnel's checkout facility or consider to replace or restarting equipment, avoiding over-running to damage the first sewage disposal device 11b.In addition, high in the clouds monitor supervision platform 20 also can comprise steering order database, when storing generation exception, steering order corresponding to different situations, when processor comparison notes abnormalities, can directly the steering order of correspondence be back in the middle of sewage treatment unit, such as, when the first sewage disposal device 11b occurs abnormal, directly adjusted the operating parameter of the first sewage disposal device 11b by the steering order of correspondence, the mode of operation of adjustment board equipment occurs to avoid aberrant continuation.The framework of above-mentioned high in the clouds monitor supervision platform 20 and monitor mode, also can be equally applicable to the second sewage treatment unit 12 and the 3rd sewage treatment unit 13, thus integrant wastewater treatment supervisory system.

Please refer to Fig. 3, it is the schematic diagram of the sewage disposal system of embodiment of the present utility model.As shown in the figure, the sewage disposal system of the present embodiment comprises multiple sewage treatment unit and multiple sludge treating block, wherein sewage treatment unit comprises conservancy trash pool 31, Shen sand grease removal tank 32, equalization basin 33, is oxidized dark canal 34, final sedimentation tank 35, sterilization pool 36 and pond 37 of releasing, and is connected by sewer line.After sewage is flowed into by influent stream mouth, after the sewage disposal device process arranged in the middle of above-mentioned contain sewage space, to be released discharge by weif orifice.Above-mentioned sewage treatment unit can distinguish corresponding different sewage disposal devices, and such as conservancy trash pool 31 can arrange conservancy trash machine and conveyor; Shen sand grease removal tank 32 arranges stirring machine, sand washer, sand pump and washed-out sand waste water pump; Equalization basin 33 comprises stirring machine and fan blower; Be oxidized dark canal 34 and aerator is set; Final sedimentation tank 35 comprises mud scraper and scum silica frost pump; Sterilization pool 36 arranges suction pump, chemicals feeder and deodorizing apparatus; Pond 37 of releasing arranges suction pump, and the board quantity of above-mentioned sewage disposal device all can adjust according to the scale of sewage disposal system.Each board equipment can install device data monitor, the state of each sewage disposal device of Real-Time Monitoring operation.Waterlevel data monitor 31a, 32a, 36a, 37a then can select to be installed in important conservancy trash pool 31, Shen sand grease removal tank 32, sterilization pool 36 and pond 37 etc. of releasing, and monitor the height of water level in the middle of main wastewater treatment process.

Except multiple sewage treatment unit, sewage disposal system also can arrange multiple sludge treating block, and it comprises mud storage tank 41, gravity concentration tank 42 and wastewater collection pond 43.At the mud that final sedimentation tank 35 produces, be first transported to mud storage tank 41 via mud pipeline and keep in, partial sludge forms waste sludge via after gravity concentration, and another part is then back to equalization basin 33.And the waste water produced in Treatment of Sludge program, then collect wastewater collection pond 43, come back to the dark canal 34 of oxidation and carry out wastewater treatment process.The mud storage tank 41 of sludge treating block can comprise feeder pump, return sludge pump, conveyor, dewaterer; Gravity concentration tank 42 arranges stirring machine; Wastewater collection pond 43 arranges the sludge treatment devices such as suction pump.Similar with sewage treatment unit, sludge treating block also installs device data monitor at each board equipment, the state of each sludge treatment device of Real-Time Monitoring operation.Waterlevel data monitor 41a, 43a are then optionally installed in mud storage tank 41 gravity concentration tank 42 and wastewater collection pond 43, the height of water level of mud spatial accommodation in the middle of monitoring Treatment of Sludge program.

Please refer to Fig. 3, it is the schematic diagram of the water monitor setting of embodiment of the present utility model.As shown in the figure, the sewage disposal system of the present embodiment comprises multiple sewage treatment unit, as equalization basin 51, be oxidized dark canal 52, settling basin 53 and pond 54 of releasing, can with reference to the setting of previous embodiment, except carrying out water level monitoring for contain sewage space and carrying out except status monitoring for sewage disposal device, also must sewage quality wherein be monitored.For the present embodiment, water quality data monitor 51a, 52a, 54a can be arranged at equalization basin 51 respectively, be oxidized dark canal 52 and final pond 54 of releasing, the change of sewage quality in the middle of section wastewater treatment process before, during and after utilization, judge that whether water quality is abnormal.The position that water quality data detecting device is arranged, the change according to sewage disposal system also can be arranged in the middle of other sewage treatment units, is not limited to the position set by the present embodiment.

These water quality data monitors 51a, 52a, 54a, sensor can be utilized to detect the temperature of sewage respectively, electrical conductivity, pH-value, dissolved oxygen amount and suspended particulates amount, these projects are according to imposing a condition, the such as interval of temperature setting, the interval of pH-value setting or the concentration etc. of suspended particulates, the monitoring record numerical value of different condition is obtained respectively by sensor, again these are numerically reached the document data base of high in the clouds monitor supervision platform, by the correlativity of the continuous Monitoring Data of water quality in the middle of these Real-Time Monitoring record numerical value of processor comparison and intelligent database, in the middle of the water quality of judgement process, whether each monitoring project produces exception.

The judgement of correlativity can comprise the difference utilizing data in the middle of real-time water monitoring data and the continuous Monitoring Data of water quality, calculates arithmetic average, difference standard deviation, trusts coefficient, relative error and test the eigenwerts such as the relative accuracy checked and mean difference.Its account form comprises following formula (1)-(5):

\overset{&OverBar;}{d} = \frac{1}{n} Σ_{i = 1}^{n} d_{i} - - - (1)

S d = {[\frac{Σ_{i = 1}^{n} d_{i}^{2} - \frac{{(Σ_{i = 1}^{n} d_{i})}^{2}}{n}}{n - 1}]}^{\frac{1}{2}} - - - (2)

C C = t_{0.975} \frac{S d}{\sqrt{n}} - - - (3)

Wherein, for " Real-Time Monitoring record " and the arithmetic mean of " the continuous Monitoring Data of water quality " data difference; d _ifor " Real-Time Monitoring record " and the difference of " the continuous Monitoring Data of water quality " data; N is monitoring record number of times; Sd is the standard deviation of " Real-Time Monitoring record " and " the continuous Monitoring Data of water quality " data difference; CC is for trusting coefficient (confidencecoefficient); T is certified value.

Below respectively the temperature of water quality detection reality, electrical conductivity, pH-value, the example such as dissolved oxygen amount and suspended particulates amount are described.First for the detection of temperature, visual sewage treatment unit set-up mode adjusts, if outdoor treatment pond, impact will to be subject between sunshine period and to make sooner or later that detecting ear temperature has obvious gap, such as day temperature is maintained at about 26 DEG C, then maintain about 23 DEG C night, intelligent database notes down this treatment pond every day, weekly and the change in per season, set up temperature variation curve, when the obvious deflection curve of the temperature data real-time monitored, produce abnormal information and notify operator or managerial personnel.Again for electrical conductivity, in the middle for the treatment of pond, the continuous monitoring numerical value of one day is all between 3.5 μ s/cm to 3.9 μ s/cm, low electrical conductivity numerical value reflects that contaminated degree is light relatively, if water quality data monitor detecting real-time to numerical value exceed above-mentioned numerical value, or the numerical value that detecting real-time arrives improves apart from lasting with continuous numerical difference of monitoring, then judge that electrical conductivity occurs abnormal.Equally for the detection of dissolved oxygen amount, potential of hydrogen and suspended particulates amount, utilize continuous detecting data in the middle of intelligent database, set up the change curve of every day, such as dissolved oxygen amount can between 2ppm to 7ppm, pH value between 8 to 10 and suspended solid between 55mg/L to 72mg/L.Therefore, when Real-time Monitoring Data exceedes default threshold value or the difference continuous enlargement with standard, system then judges to produce extremely.When these occur extremely, except sending abnormal notice, also can according to the direct transfer operation instruction of default control mode to each sewage disposal device, such as increase the dosage of chemicals feeder, increase stirring or settling time etc., when originally abnormal data are got back in normal range, being returned to the setting of board originally, make the more efficient process unusual condition of overall sewage disposal system.

The foregoing is only illustrative, but not be restricted person.Anyly do not depart from spirit of the present utility model and category, and to its equivalent modifications of carrying out or change, all should be contained in accompanying claim.

Accompanying drawing illustrates mark

10: sewage disposal system

11,12,13: first, second, third sewage treatment units

11a, 12a, 13a: first, second, third contain sewage space

11b, 12b, 13b: first, second, third sewage disposal device

111,121,131: first, second, third water level prediction monitors

112,122,132: first, second, third device data monitors

113,123,133: first, second, third data of water quality monitors

14: radio transmitting device

15: influent stream mouth

16: weif orifice

17: influent stream pipeline

18: sewer line

19: pipeline of releasing

20: high in the clouds monitor supervision platform

21: document data base

22: intelligent database

23: processor

201: abnormal information

31: conservancy trash pool

31a, 32a, 36a, 37a, 41a, 43a: water level prediction monitor

32: Shen sand grease removal tank

33,51: equalization basin

34,52: be oxidized dark canal

35,53: final sedimentation tank

36: sterilization pool

37,54: pond of releasing

41: mud storage tank

42: gravity concentration tank

43: wastewater collection pond

51a, 52a, 54a: data of water quality monitor

Claims

1. a wastewater treatment supervisory system, is characterized in that, comprises:

Sewage disposal system, described in it, sewage disposal system comprises:

Multiple sewage treatment unit, described multiple sewage treatment unit has contain sewage space respectively, be connected to each other by sewer line between described contain sewage space, pending sewage flows into described sewage disposal system by influent stream pipeline, after utilizing the sewage disposal device of corresponding described contain sewage spatial placement to carry out wastewater treatment process, by releasing, pipeline is discharged;

Waterlevel data monitor, is arranged in the middle of default described contain sewage space, monitors the height of water level data of described sewage in the middle of described contain sewage space;

Device data monitor, is connected to described sewage disposal device, monitors the operational state data of described sewage disposal device; And

Water quality data monitor, is arranged in the middle of default described multiple sewage treatment unit, detects the water monitoring data of described sewage in the described contain sewage space of correspondence; And

High in the clouds monitor supervision platform, be connected with described sewage disposal system through Internet connection mode, described high in the clouds monitor supervision platform comprises:

Document data base, stores described height of water level data, described operational state data and the described water monitoring data uploaded by described waterlevel data monitor, described device data monitor and described water quality data monitor;

Intelligent database, is connected to described document data base, stores the continuous Monitoring Data of water quality of described sewage disposal system historical data, and the water level critical value stored set by user and unit exception condition; And

Processor, be connected to described document data base and described intelligent database, height of water level data described in real-time comparison and described water level critical value, described operational state data and described unit exception condition and described water monitoring data and the continuous Monitoring Data of described water quality, when comparison result occurs abnormal, transmit abnormal information to operating personnel.

2. wastewater treatment supervisory system as claimed in claim 1, it is characterized in that, described contain sewage space comprises treatment tank, sewage storage groove or wastewater treatment channel.

3. wastewater treatment supervisory system as claimed in claim 1, it is characterized in that, described sewage disposal system comprises Monitoring Data gatherer further, be connected with described waterlevel data monitor, described device data monitor and described water quality data monitor through Internet of Things, receive described height of water level data, described operational state data and described water monitoring data, and be uploaded to described document data base via Internet connection.

4. wastewater treatment supervisory system as claimed in claim 1, it is characterized in that, described water monitoring data comprises temperature, electrical conductivity, pH-value, dissolved oxygen amount and suspended particulates amount.

5. wastewater treatment supervisory system as claimed in claim 1, it is characterized in that, described water quality continuous Monitoring Data system records according to time interval the described water monitoring data that described water quality data monitor detects continuously, and the invalid data of deduction detecting and lost data, be stored in the middle of described intelligent database.

6. wastewater treatment supervisory system as claimed in claim 1, it is characterized in that, the correlativity of water monitoring data and the continuous Monitoring Data of described water quality described in described processor comparison, by calculating the difference value of described water monitoring data and the continuous Monitoring Data of described water quality, the variability assessing described difference value is confirmed whether as abnormality.

7. wastewater treatment supervisory system as claimed in claim 1, it is characterized in that, described sewage disposal system comprises multiple sludge treating block, there is mud spatial accommodation respectively, be connected to each other by mud pipeline between described mud spatial accommodation, the mud that described multiple sewage treatment unit produces, the sludge treatment device utilizing corresponding described mud spatial accommodation to arrange carries out Treatment of Sludge program, by discarded after described Treatment of Sludge, the waste water of generation is again back to described sewage disposal system and carries out described wastewater treatment process.

8. wastewater treatment supervisory system as claimed in claim 7, it is characterized in that, described mud spatial accommodation arranges described waterlevel data monitor, monitor the described height of water level data of described mud in the middle of described mud spatial accommodation, and by described height of water level data upload to described document data base.

9. wastewater treatment supervisory system as claimed in claim 7, it is characterized in that, described sludge treatment device arranges described device data monitor, monitors the described operational state data of described sludge treatment device, and described operational state data is uploaded to described document data base.

10. wastewater treatment supervisory system as claimed in claim 1, it is characterized in that, the monitor supervision platform progress of described high in the clouds comprises steering order database, when real-time comparison result occurs abnormal, steering order corresponding in described steering order database is sent to and produces abnormal described sewage disposal device by described processor, the state that the operating parameter directly adjusting described sewage disposal device operates with adjustment.