CN105259326A - Pollution discharging control system - Google Patents
Pollution discharging control system Download PDFInfo
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- CN105259326A CN105259326A CN201510799739.8A CN201510799739A CN105259326A CN 105259326 A CN105259326 A CN 105259326A CN 201510799739 A CN201510799739 A CN 201510799739A CN 105259326 A CN105259326 A CN 105259326A
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Abstract
The embodiment of the invention discloses a pollution discharging control system, and belongs to the field of environment protection. The pollution discharging control system comprises a pollution discharging control subsystem, a data receiving subsystem and a remote monitoring subsystem, wherein the pollution discharging control subsystem comprises a remote monitoring and control terminal RTU, a sewage component detection module, a discharging amount detection module and a data sending module; the data receiving subsystem is connected with the pollution discharging control subsystem in a communication manner through a wireless transmission network and comprises a data acquisition gateway, a data processing computer and a database server; the remote monitoring subsystem is connected with the data receiving subsystem and comprises a monitoring terminal, an IC card identifier and a pollution control terminal.
Description
Technical field
The present invention relates to field of Environment Protection, particularly relate to a kind of blowdown control system.
Background technology
In recent years, water pollution problems receives publicity day by day, and the sewage discharge of blowdown enterprise is the main cause causing water pollutions, and in order to reduce sewage discharge, supervision department carries out sewage discharge restriction to blowdown enterprise.Current blowdown control mode is check sewer line water meter, draws blowdown enterprise quantity of wastewater effluent, and this control mode efficiency is lower, and blowdown enterprise steals sewer situation and happens occasionally.
Summary of the invention
The invention provides a kind of blowdown control system, can remote-control sewage discharge.
The embodiment of the present invention adopts following technical scheme:
A kind of blowdown control system, comprises blowdown control subsystem, data receiver subsystem, remote monitoring subsystem;
Described blowdown control subsystem comprises: RTU RTU, sewage composition detection module, discharge capacity detection module, data transmission blocks; Described RTU connects sewage discharge valve, and described RTU controls the opening and closing of described sewage discharge valve; RTU described in described sewage composition detection model calling, described sewage composition detection module detects sewage composition; Described discharge capacity detection module connects described RTU, and described discharge capacity detection module detects quantity of wastewater effluent; Described data transmission blocks connects described sewage composition detection module, obtains described sewage composition; Described data transmission blocks connects described discharge capacity detection module, obtains described quantity of wastewater effluent; Described data transmission blocks sends described sewage composition and described quantity of wastewater effluent by wireless-transmission network to described data receiver subsystem;
Described data receiver subsystem is communicated to connect by wireless-transmission network and described blowdown control subsystem, and described data receiver subsystem comprises: data acquisition gateway, data handling machine, database server; Described data acquisition gateway receives the described sewage composition of described data transmission blocks transmission and described quantity of wastewater effluent; Described data handling machine connects described data acquisition gateway, and described data handling machine obtains described sewage composition and described quantity of wastewater effluent, processes described sewage composition and described quantity of wastewater effluent; Described database server connects described data handling machine, and described database server stores the data after described data processing computing;
Described remote monitoring subsystem connects described data receiver subsystem, and described remote monitoring subsystem comprises: monitor terminal, IC-card recognizer, blowdown control terminal; Described monitor terminal connects described database server, show the data that described database server stores, described IC-card recognizer connects described blowdown control terminal, described blowdown control terminal connects described database server, and the data that described blowdown control terminal stores according to described database server carry out sewage discharge control.
Optionally, described sewage composition detection module comprises interconnective following at least one detecting unit:
Chemical oxygen demand COD detecting unit, described COD detecting unit detects COD content in sewage;
Ammonia nitrogen detecting unit, described ammonia nitrogen detecting unit detects ammonia nitrogen in sewage content;
Sulphuric dioxide detecting unit, described sulphuric dioxide detecting unit detects content of sulfur dioxide in sewage;
Heavy metal analysis unit, content of beary metal in described heavy metal analysis unit inspection sewage;
Nitride detecting unit, described nitride detecting unit detects amount of nitrides in sewage.
Optionally, after described sewage composition detection module detection sewage composition exceeds standard, send to described RTU and close the instruction of described sewage discharge valve, described RTU closes described sewage discharge valve.
Optionally, described RTU comprises emission control module, described emission control module stores sewage discharge Limited Doses, and when the described quantity of wastewater effluent that described discharge capacity detection module detects reaches described sewage discharge Limited Doses, described RTU closes described sewage discharge valve.
Optionally, described RTU comprises IC-card read module, and described IC-card read module connects described emission control module, and described IC-card read module reads the sewage discharge Limited Doses that IC-card stores emission control module stores described in data correction.
Optionally, described wireless-transmission network comprises: 2G network, 3G network, 4G network, wifi network.
Optionally, described blowdown control subsystem also comprises: command operating interface, described command operating interface connects described RTU, and described RTU receives the sewage discharge valve opening and closing instruction of command operating interface input, and described RTU controls the opening and closing of described sewage discharge valve according to instruction.
Optionally, described blowdown control subsystem also comprises display interface;
Described display interface connects described command operating interface, described display interface display operational order;
Described display interface connects RTU, described display interface display sewage discharge valve open and-shut mode;
Described display interface connects sewage composition detection module, described display interface display sewage composition;
Described display interface connects discharge capacity detection module, described display interface display quantity of wastewater effluent.
Optionally, described blowdown control terminal sends sewage discharge valve opening and closing instruction by described data receiver subsystem to described RTU, and described RTU controls the opening and closing of described sewage discharge valve according to instruction.
Optionally, described remote monitoring subsystem also comprises alarm module, and described alarm module connects described monitor terminal, and described alarm module connects described blowdown control terminal, when described sewage composition exceeds standard or described quantity of wastewater effluent reaches discharge Limited Doses, described alarm module is reported to the police.
The present invention has following beneficial effect:
The blowdown control system of the embodiment of the present invention, detects quantity of wastewater effluent and sewage composition, according to quantity of wastewater effluent Based Intelligent Control sewage discharge valve, thus realizes remote-control sewage discharge.
Accompanying drawing explanation
One of structural representation of the blowdown control system that Fig. 1 provides for the embodiment of the present invention;
The structural representation of sewage composition detection module in the blowdown control system that Fig. 2 provides for the embodiment of the present invention;
The structural representation of RTU module in the blowdown control system that Fig. 3 provides for the embodiment of the present invention;
The structural representation two of the blowdown control system that Fig. 4 provides for the embodiment of the present invention;
The structural representation three of the blowdown control system that Fig. 5 provides for the embodiment of the present invention;
The login process schematic diagram of the blowdown control system that Fig. 6 provides for the embodiment of the present invention.
Embodiment
Below in conjunction with embodiment and accompanying drawing, technical scheme of the present invention is further elaborated.
As shown in Figure 1, the embodiment of the present invention provides a kind of blowdown control system, comprises blowdown control subsystem 100, data receiver subsystem 200, remote monitoring subsystem 300;
Described blowdown control subsystem 100 comprises: RTU (RTU) 11, sewage composition detection module 12, discharge capacity detection module 13, data transmission blocks 14; Described RTU11 connects sewage discharge valve, and described RTU11 controls the opening and closing of described sewage discharge valve; Described sewage composition detection module 12 connects described RTU11, and described sewage composition detection module 12 detects sewage composition; Described discharge capacity detection module 13 connects described RTU11, and described discharge capacity detection module 13 detects quantity of wastewater effluent; Described data transmission blocks 14 connects described sewage composition detection module 12, obtains described sewage composition; Described data transmission blocks 14 connects described discharge capacity detection module 13, obtains described quantity of wastewater effluent; Described data transmission blocks 14 sends described sewage composition and described quantity of wastewater effluent by wireless-transmission network to described data receiver subsystem.
In the embodiment of the present invention, cordless communication network can be made up of VPN private network, collection in worksite data upload and issuing of center remote steering order is all carry out data transmission by VPN private network.
Described data receiver subsystem 200 is communicated to connect by wireless-transmission network and described blowdown control subsystem, and described data receiver subsystem 200 comprises: data acquisition gateway 21, data handling machine 22, database server 23; Described data acquisition gateway 21 receives the described sewage composition of described data transmission blocks 14 transmission and described quantity of wastewater effluent; Described data handling machine 22 connects described data acquisition gateway, and described data handling machine 22 obtains described sewage composition and described quantity of wastewater effluent, processes described sewage composition and described quantity of wastewater effluent; Described database server 23 connects described data handling machine 22, and described database server 23 stores the data after described data processing computing.
Described data receiver subsystem 200 receives the Real-time Monitoring Data that on-site data gathering device gathers, the data received are processed as requested, data after process are stored in database, receive the remote control commands that online monitoring platform issues, then send remote control command by data acquisition gateway to field apparatus.
Described remote monitoring subsystem 300 connects described data receiver subsystem 200, and described remote monitoring subsystem 300 comprises: monitor terminal 31, IC-card recognizer 32, blowdown control terminal 33; Described monitor terminal 31 connects described database server 23, show the data that described database server 23 stores, described IC-card recognizer 32 connects described blowdown control terminal 33, described blowdown control terminal 33 connects described database server 23, and the data that described blowdown control terminal 33 stores according to described database server carry out sewage discharge control by described blowdown control subsystem 100.
Described remote monitoring subsystem 300 has management function: have user management, the drain pollution management, toll administration, inspection management, report the functions such as management for repairment; Have discharge limit to return a salute function: IC-card management discharge limit, need in excess of the quota are swiped the card correction data; Tool be data show and remote control function: the Real-time Monitoring Data being shown each monitoring point by monitoring software in real time, and sends control command by monitoring software, the opening and closing of Long-distance Control electrically operated valve; There is alarm function: receive field apparatus alerting signal and in monitoring software, adopt the various ways prompting warning messages such as sound, image, word; There is inquiry, statistical function: can query history Monitoring Data, possess historical data statistics, analytic function.
The blowdown control system of the embodiment of the present invention has and arranges system discharge amount function, can realize the discharge capacity information automatically read in IC-card, and in import system, in order to arrange the operation of RTU parameter, facilitate the control system discharge capacity upper limit; There is real time monitoring function, flowmeter real time data information (instantaneous delivery, integrated flow) and valve real time data information can be checked with image and indications form; There is real time data look facility, flowmeter, valve real time data information can be checked; There is historical data look facility, can setup times condition, the discharge capacity historical data information of having preserved in inquiry system database; Have prompt functions, when total amount exceedes allow total amount 90%, 100%, system can carry out a point rank early warning, can directly start local sound and light alarm, and preserve warning message record, starts valve-off operation; There is Valve controlling function, when systems axiol-ogy racks up to surplus, valve-closing, when surplus is greater than 0, automatic valve opening, and show current valve state on a display screen; There is remote valve gate control function, can long-range valve be opened or shutoff operation; Have log information inquiry, system can log information recording in inquiry system in the fixed time; Have warning message query function, system can warning message record in inquiry system in the fixed time.
In the embodiment of the present invention, described wireless-transmission network comprises: 2G network, 3G network, 4G network, wifi network.
As shown in Figure 2, optional in the embodiment of the present invention, described sewage composition detection module 12 comprises interconnective following at least one detecting unit:
COD (chemical oxygen demand (COD)) detecting unit 121, described COD detecting unit 121 detects COD content in sewage;
Ammonia nitrogen detecting unit 122, described ammonia nitrogen detecting unit 122 detects ammonia nitrogen in sewage content;
Sulphuric dioxide detecting unit 123, described sulphuric dioxide detecting unit 123 detects content of sulfur dioxide in sewage;
Heavy metal analysis unit 124, described heavy metal analysis unit 124 detects content of beary metal in sewage;
Nitride detecting unit 125, described nitride detecting unit 125 detects amount of nitrides in sewage.
Optional in the embodiment of the present invention, described sewage composition detection module 12 detects after sewage composition exceeds standard, and send to described RTU11 and close the instruction of described sewage discharge valve, described RTU11 closes described sewage discharge valve.
As shown in Figure 3, optional in the embodiment of the present invention, described RTU11 comprises emission control module 111, described emission control module 111 stores sewage discharge Limited Doses, when the described quantity of wastewater effluent that described discharge capacity detection module 13 detects reaches described sewage discharge Limited Doses, described RTU11 closes described sewage discharge valve.
As shown in Figure 3, optional in the embodiment of the present invention, described RTU11 comprises IC-card read module 112, described IC-card read module 112 connects described emission control module 111, and described IC-card read module 112 reads IC-card and stores the sewage discharge Limited Doses that described in data correction, emission control module 111 stores.
The blowdown control system of the embodiment of the present invention, can import maximum for restriction total emission volumn write IC-card in RTU, thus limit value quantity of wastewater effluent, can by automatic Open valve after IC-card blowdown flow rate information importing RTU11, residue discharge capacity can accumulate use.
As shown in Figure 4, optional in the embodiment of the present invention, described blowdown control subsystem 100 also comprises: command operating interface 15, described command operating interface 15 connects described RTU11, described RTU11 receives the sewage discharge valve opening and closing instruction of command operating interface input, and described RTU11 controls the opening and closing of described sewage discharge valve according to instruction.
As shown in Figure 4, optionally, described blowdown control subsystem 100 also comprises display interface 16, and described display interface 16 connects described command operating interface 15, and described display interface 16 shows operational order;
Described display interface 16 connects RTU11, and described display interface 16 shows sewage discharge valve open and-shut mode;
Described display interface 16 connects sewage composition detection module 12, and described display interface 16 shows sewage composition;
Described display interface 16 connects discharge capacity detection module 13, and described display interface 16 shows quantity of wastewater effluent.
Optional in the embodiment of the present invention, described blowdown control terminal 33 sends sewage discharge valve opening and closing instruction by described data receiver subsystem 200 to described RTU11, and described RTU11 controls the opening and closing of described sewage discharge valve according to instruction.
As shown in Figure 5, optional in the embodiment of the present invention, described remote monitoring subsystem 300 also comprises alarm module 34, described alarm module 34 connects described monitor terminal, described alarm module 34 connects described blowdown control terminal 33, when described sewage composition exceeds standard or described quantity of wastewater effluent reaches discharge Limited Doses, described alarm module 34 is reported to the police.
Embodiment of the present invention medium-long range monitoring subsystem 300 can adopt IC-card identification keeper identity, also can adopt user name pin mode identification keeper identity, adopt during user name pin mode identification keeper's identity and the login process shown in Fig. 6 can be adopted to realize.
In the embodiment of the present invention, at actual blowdown flow rate (water yield or pollutant discharge amount) when reaching 90% of the amount of appraising and deciding, can carry out sound and light alarm, when exceeding the amount of appraising and deciding, sewage draining valve will start pass valve program automatically.
The blowdown control system of the embodiment of the present invention, pollutant load and quantity of wastewater effluent in Real-Time Monitoring each pollutant discharge of enterprise mouth sewage, the open and close state of Real-Time Monitoring sewage discharge valve, the opening and closing of RTU automatic control electric movable valve.Valve controlling terminal, identity recognizer, taximeter, dirty water pollutant higher limit can be set, time out-of-limit, system can stop valve automatically, stop blowdown, utilize various figure way of presentation, carry out in real time, historical data intuitively, bandwagon effect clearly, possess the query function of real time data, historical data, alert data.
The blowdown control system of the embodiment of the present invention, detects quantity of wastewater effluent and sewage composition, according to quantity of wastewater effluent Based Intelligent Control sewage discharge valve, thus realizes remote-control sewage discharge.In addition, the embodiment of the present invention adopts provides limitation mode, the super seniority among brothers and sisters of rigidity control enterprise is, strengthen gerentocratic law enforcement dynamics, for energy-saving and emission-reduction lay the foundation, adopt IC-card to swipe the card blowdown, robotization, information system management can be carried out to pollution charge, both save human and material resources resource, improve again charge efficiency.
The blowdown control system of the embodiment of the present invention, IC-card prepaying charge management function, reduce pollution charge risk, and automatically gather pollutant discharge of enterprise amount information by data acquisition controller, and can without enterprises process directly by Information Monitoring by wireless network transmissions to environmental administration's server, avoid human intervention; IC-card is swiped the card blowdown, by reading and writing IC card information, and by IC-card blowdown flow rate information transfer in pollution permission system instrument, automatic setting COD of sewage higher limit, system controls the opening and closing of electrically operated valve automatically according to actual conditions, realize carrying out robotization, information system management to pollution charge, both saved human and material resources resource; Pollutant load and the quantity of wastewater effluent such as Real-Time Monitoring each pollutant discharge of enterprise mouth COD of sewage, the open and close state of Real-Time Monitoring electrically operated valve, in real time display current enterprise blowdown situation; Possess the query function of real time data, historical data, alert data, utilize various figure way of presentation, intuitively, clearly show respective queries information.
The sequencing of above embodiment, only for ease of describing, does not represent the quality of embodiment.
Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.
Claims (10)
1. a blowdown control system, is characterized in that, comprises blowdown control subsystem, data receiver subsystem, remote monitoring subsystem;
Described blowdown control subsystem comprises: RTU RTU, sewage composition detection module, discharge capacity detection module, data transmission blocks; Described RTU connects sewage discharge valve, and described RTU controls the opening and closing of described sewage discharge valve; RTU described in described sewage composition detection model calling, described sewage composition detection module detects sewage composition; Described discharge capacity detection module connects described RTU, and described discharge capacity detection module detects quantity of wastewater effluent; Described data transmission blocks connects described sewage composition detection module, obtains described sewage composition; Described data transmission blocks connects described discharge capacity detection module, obtains described quantity of wastewater effluent; Described data transmission blocks sends described sewage composition and described quantity of wastewater effluent by wireless-transmission network to described data receiver subsystem;
Described data receiver subsystem is communicated to connect by wireless-transmission network and described blowdown control subsystem, and described data receiver subsystem comprises: data acquisition gateway, data handling machine, database server; Described data acquisition gateway receives the described sewage composition of described data transmission blocks transmission and described quantity of wastewater effluent; Described data handling machine connects described data acquisition gateway, and described data handling machine obtains described sewage composition and described quantity of wastewater effluent, processes described sewage composition and described quantity of wastewater effluent; Described database server connects described data handling machine, and described database server stores the data after described data processing computing;
Described remote monitoring subsystem connects described data receiver subsystem, and described remote monitoring subsystem comprises: monitor terminal, IC-card recognizer, blowdown control terminal; Described monitor terminal connects described database server, show the data that described database server stores, described IC-card recognizer connects described blowdown control terminal, described blowdown control terminal connects described database server, and the data that described blowdown control terminal stores according to described database server carry out sewage discharge control by described blowdown control subsystem.
2. system according to claim 1, is characterized in that, described sewage composition detection module comprises interconnective following at least one detecting unit:
Chemical oxygen demand COD detecting unit, described COD detecting unit detects COD content in sewage;
Ammonia nitrogen detecting unit, described ammonia nitrogen detecting unit detects ammonia nitrogen in sewage content;
Sulphuric dioxide detecting unit, described sulphuric dioxide detecting unit detects content of sulfur dioxide in sewage;
Heavy metal analysis unit, content of beary metal in described heavy metal analysis unit inspection sewage;
Nitride detecting unit, described nitride detecting unit detects amount of nitrides in sewage.
3. system according to claim 1 and 2, is characterized in that, after described sewage composition detection module detection sewage composition exceeds standard, send to described RTU and close the instruction of described sewage discharge valve, described RTU closes described sewage discharge valve.
4. system according to claim 1, it is characterized in that, described RTU comprises emission control module, described emission control module stores sewage discharge Limited Doses, when the described quantity of wastewater effluent that described discharge capacity detection module detects reaches described sewage discharge Limited Doses, described RTU closes described sewage discharge valve.
5. system according to claim 4, it is characterized in that, described RTU comprises IC-card read module, and described IC-card read module connects described emission control module, and described IC-card read module reads the sewage discharge Limited Doses that IC-card stores emission control module stores described in data correction.
6. the system according to claim 1 or 4 or 5, it is characterized in that, described wireless-transmission network comprises: 2G network, 3G network, 4G network, wifi network.
7. the system according to claim 1 or 2 or 4 or 5, it is characterized in that, described blowdown control subsystem also comprises: command operating interface, described command operating interface connects described RTU, described RTU receives the sewage discharge valve opening and closing instruction of command operating interface input, and described RTU controls the opening and closing of described sewage discharge valve according to instruction.
8. system according to claim 7, is characterized in that, described blowdown control subsystem also comprises display interface;
Described display interface connects described command operating interface, described display interface display operational order;
Described display interface connects RTU, described display interface display sewage discharge valve open and-shut mode;
Described display interface connects sewage composition detection module, described display interface display sewage composition;
Described display interface connects discharge capacity detection module, described display interface display quantity of wastewater effluent.
9. the system according to claim 1 or 2 or 4 or 5, is characterized in that, described blowdown control terminal sends sewage discharge valve opening and closing instruction by described data receiver subsystem to described RTU, and described RTU controls the opening and closing of described sewage discharge valve according to instruction.
10. the system according to claim 1 or 2 or 4 or 5, it is characterized in that, described remote monitoring subsystem also comprises alarm module, described alarm module connects described monitor terminal, described alarm module connects described blowdown control terminal, when described sewage composition exceeds standard or described quantity of wastewater effluent reaches discharge Limited Doses, described alarm module is reported to the police.
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