CN204346999U - Fume emission monitoring system - Google Patents

Abstract

The utility model provides a kind of fume emission monitoring system.This fume emission monitoring system comprises: at least two branch center servers, center switch, the second data-interface machine and overall control center servers.Wherein, center switch is connected with at least two branch center servers respectively by the first data-interface machine.Overall control center server is by the second data-interface machine, center switch is connected with at least two branch center servers respectively, make the fume emission data of at least two branch center collection of server and/or electricity volume data by the second data-interface machine, center switch reports overall control center server, overall control center server is to exporting rationally effective fume emission data and/or electricity volume data after fume emission data and/or the process of electricity volume data analysis, reach and automatically realize on the whole to the object of fume emission data Real-Time Monitoring, reduce manpower, material resources cost, make simple to operation, efficiency is high.

Description

Fume emission monitoring system

Technical field

The utility model relates to coal combustion technology field, particularly relates to a kind of fume emission monitoring system.

Background technology

The enhancing of the day by day serious and people's environmental consciousness of the discharge along with atmosphere pollution, becomes ever more important to the monitor and forecast of the pollutant of discharge process.Owing to usually carrying a large amount of pollutants in the flue gas of fired power generating unit in thermal power plant, need to carry out strict restriction to the fume emission of fired power generating unit in thermal power plant, so become particularly important to the monitoring of each fired power generating unit fume emission.

At present, about fired power generating unit fume emission monitoring normally regional gather each fired power generating unit fume emission data and electricity volume data in its region, then gather above-mentioned data by staff and above-mentioned data are processed, know the fume emission situation of each fired power generating unit, realize regional and the fume emission of each fired power generating unit is monitored.When thinking to monitor on the whole and the fume emission data of control regional and electricity volume data, in prior art, normally general headquarters of monitoring center receive the related statements of the fume emission data that report of regional and electricity volume data, monitor and data analysis the fume emission data of regional and electricity volume data according to form.Cause monitoring also inaccurate not in time like this, and worker workload is large, operate and waste time and energy, cost is high, and efficiency is low.

Utility model content

Fundamental purpose of the present utility model is the joint line carrier communication apparatus providing a kind of new structure, and technical matters to be solved reduces carrier signal decay, improves security.

The purpose of this utility model and solve its technical matters and realize by the following technical solutions:

The utility model provides a kind of fume emission monitoring system, and this fume emission monitoring system comprises:

At least two branch center servers, described branch center server comprises the first data-interface machine, and described branch center server is for gathering fume emission data in its compass of competency and/or electricity volume data;

Center switch, is connected with described at least two branch center servers respectively by described first data-interface machine;

Overall control center server, described overall control center server is connected with described at least two branch center servers respectively by the second data-interface machine, center switch; Wherein, described overall control center server is for obtaining described fume emission data and/or the electricity volume data of described branch center collection of server, and after reasonable effective fume emission data and/or electricity volume data are obtained to described fume emission data and/or electricity volume data analysis, export described rationally effective fume emission data and/or electricity volume data, to realize the fume emission on-line monitoring in server compass of competency, each described branch center.

As front aforesaid fume emission monitoring system, wherein, described overall control center server comprises:

Database, is connected with described at least two branch center servers respectively by described second data-interface machine, center switch, for receiving and storing described fume emission data and/or the electricity volume data of described branch center collection of server;

Data analytics server, be connected with described at least two branch center servers respectively by described second data-interface machine, center switch, for obtaining described fume emission data and/or the electricity volume data of described branch center collection of server, and after reasonable effective fume emission data and/or electricity volume data are obtained to described fume emission data and/or electricity volume data analysis, export described rationally effective fume emission data and/or electricity volume data;

Described data analytics server also with described DataBase combining, for obtaining described fume emission data and/or electricity volume data from described database, and to obtain described fume emission data and/or electricity volume data process and store.

As front aforesaid fume emission monitoring system, wherein, described data analytics server comprises:

Data analysis set-up, described data analysis set-up is connected with described branch center server by described second data-interface machine, center switch, for analyzing described fume emission data and/or electricity volume data, obtain described rationally effective fume emission data and/or electricity volume data;

Data output device, described data output device is connected with described data analysis set-up, for exporting described rationally effective fume emission data and/or electricity volume data.

As front aforesaid fume emission monitoring system, wherein, described data analysis set-up comprises:

Sampling processing module, described sampling processing module is connected with described branch center server by described second data-interface machine, center switch, for described fume emission data and/or electricity volume data are carried out sampling processing, obtain fume emission sampled data and/or electricity volume sampled data;

Judge module, described judge module is connected with described sampling processing module and described data output device respectively, for judging whether described fume emission sampled data and/or electricity volume sampled data are described rationally effective fume emission data and/or electricity volume data.

As front aforesaid fume emission monitoring system, wherein, described database comprises:

Real-time data base, described real-time data base by described second data-interface machine, center switch respectively with described branch center server, described real-time data base is connected with described data analysis set-up, for storing described fume emission data and/or the electricity volume data of described branch center collection of server.

Efficient database, described efficient database is connected with described judge module, for storing described rationally effective fume emission data and/or electricity volume data.

As front aforesaid fume emission monitoring system, wherein, described overall control center server comprises:

Warning device, described warning device is connected with described judge module.

As front aforesaid fume emission monitoring system, wherein, described system also comprises: communication network; Accordingly, described overall control center server comprises:

The webserver, the described webserver is connected with described communication network, establishes a communications link for making described overall control center server and described branch center server.

By technique scheme, the utility model structure at least has following advantages:

The technical scheme that the utility model provides is passed through described overall control center server by described second data-interface machine, center switch is connected with described at least two branch center servers, the fume emission data of at least two branch center collection of server described in making and/or electricity volume data are by described second data-interface machine, center switch reports described overall control center server, described overall control center server is to exporting rationally effective fume emission data and/or electricity volume data after described fume emission data and/or the process of electricity volume data analysis, reach and automatically realize on the whole to the object of fume emission data Real-Time Monitoring, reduce manpower, material resources cost, make simple to operation, efficiency is high.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of instructions, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present utility model.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is further described.

Fig. 1 realizes structural representation for the one of the fume emission monitoring system that the utility model embodiment provides;

A kind of composition frame chart of the fume emission monitoring system that Fig. 2 provides for the utility model embodiment;

The another kind of composition frame chart of the fume emission monitoring system that Fig. 3 provides for the utility model embodiment.

Embodiment

There is the problems such as fume emission monitoring poor real, efficiency are low in the utility model embodiment for solving existing fume emission monitoring system, propose a kind of fume emission monitoring system of new structure, reach and automatically realize on the whole to the object of fume emission data Real-Time Monitoring, efficiency is high.

The technical scheme of the utility model embodiment is for solving the problems of the technologies described above, and general thought is as follows:

In the technical scheme that the utility model embodiment provides, described fume emission monitoring system comprises:

At least two branch center servers, described branch center server comprises the first data-interface machine, and described branch center server is for gathering fume emission data in its compass of competency and/or electricity volume data;

Center switch, is connected with described at least two branch center servers respectively by described first data-interface machine;

Overall control center server, described overall control center server is connected with described at least two branch center servers respectively by the second data-interface machine, center switch; Wherein, described overall control center server is for obtaining described fume emission data and/or the electricity volume data of described branch center collection of server, and after reasonable effective fume emission data and/or electricity volume data are obtained to described fume emission data and/or electricity volume data analysis, export described rationally effective fume emission data and/or electricity volume data, to realize the fume emission on-line monitoring in server compass of competency, each described branch center.

The technical scheme that the utility model provides is passed through described overall control center server by described second data-interface machine, center switch is connected with described at least two branch center servers, the fume emission data of at least two branch center collection of server described in making and/or electricity volume data are by described second data-interface machine, center switch reports described overall control center server, described overall control center server is to exporting rationally effective fume emission data and/or electricity volume data after described fume emission data and/or the process of electricity volume data analysis, reach and automatically realize on the whole to the object of fume emission data Real-Time Monitoring, reduce manpower, material resources cost, make simple to operation, efficiency is high.

For further setting forth the utility model for the technological means reaching predetermined utility model object and take and effect, below in conjunction with accompanying drawing and preferred embodiment, to according to its embodiment of testing table, structure, feature and the effect thereof that the utility model proposes, be described in detail as follows.In the following description, the not necessarily same embodiment that different " embodiment " or " embodiment " refers to.In addition, special characteristic, structure or feature in one or more embodiment can be combined by any suitable form.

As shown in Figure 1, the structural representation of fume emission monitoring system that provides of the utility model embodiment one.Fume emission monitoring system described in the present embodiment comprises: at least two branch center servers 40, center switch 30, second data-interface machine 20 and overall control center servers 10.Wherein, described branch center server 40 comprises the first data-interface machine 41, and described branch center server 40 is for gathering fume emission data in its compass of competency and/or electricity volume data.Described center switch 30 is connected with described at least two branch center servers 40 respectively by described first data-interface machine 41.Described overall control center server 10 is connected with described at least two branch center servers 40 respectively by the second data-interface machine 20, center switch 30.Wherein, described overall control center server 10 is for obtaining described fume emission data and/or the electricity volume data of server 40 collection of described branch center, and after reasonable effective fume emission data and/or electricity volume data are obtained to described fume emission data and/or electricity volume data analysis, export described rationally effective fume emission data and/or electricity volume data, to realize the fume emission on-line monitoring in server 40 compass of competency, each described branch center, thus reach realization automatically on the whole to the object of fume emission data Real-Time Monitoring, reduce manpower, material resources cost, make simple to operation, efficiency is high.

In the present embodiment, described fume emission data can comprise the concentration of the Pollutant emission concentration of the every platform boiler in each branch center data server institute compass of competency, the flue gas flow of every platform boiler, boiler deviating from device portal and discharging pollutants, the concentration of boiler being deviate from device outlet drain pollutant, etc.The electricity that described electricity volume data are the unit generation in each branch center data server institute compass of competency also passes to online electric quantity data, and wherein, these data are electricity volume incremental data.Described identification information comprises regional code, power plant's coding, machine group coding, etc.

In the present embodiment, the mode exporting rationally effective fume emission data and/or electricity volume data can have multiple, when specifically implementing, can adopt but not limit several mode:

The first, by rationally effective fume emission data and/or electricity volume data described in the form output display of Distribution GIS map.

Wherein, by form output display rationally effective fume emission data and/or the electricity volume data of GIS map, staff can be made to check geographic position and power plant desulfurization, the unit operation situation of each power plant, intuitively can check all unit working conditions, also can check the fume emission related data of single unit, the function such as location, inquiry to power plant can also be supported simultaneously.Practicality is high, is convenient to the fume emission situation that staff's overall situation controls the power plant in each branch center server institute compass of competency.

The second, by rationally effective fume emission data and/or electricity volume data described in the form output display of picture.

Wherein, by the form output display of picture rationally effective fume emission data and/or electricity volume data, can it is investigated and see and monitor by logarithm in real time, can various dimensions displaying real time data, convenient and practical.

The third, by rationally effective fume emission data and/or electricity volume data described in the form output display of figure.

Wherein, by the form output display of figure rationally effective fume emission data and/or electricity volume data, can checking and monitoring real time data, comprise connection status, in real time measuring point data, Realtime Alerts.Can realize the Real-Time Monitoring of data and check by visual pattern.

4th kind, by rationally effective fume emission data and/or electricity volume data described in the form output display of form.

Wherein, by the form output display of form rationally effective fume emission data and/or electricity volume data, show with the mode of form and chart is clear, generation and the derivation of form is provided.Comprise desulfuration efficiency, total emission volumn, discharge performance, drainage rate, historical data, history reported to the police, analyze the query analysis module such as contrast, data qualifier rate and little hourly value daily sheet, the annual average moon form, month year form, the emission monitoring form such as the situation that exceeds standard form, be convenient to derived data form.

Further, in order to store respectively from branch center server 40 obtain fume emission data and/or electricity volume data and through overall control center server 10 process after fume emission data and/or electricity volume data, the overall control center server 10 described in above-described embodiment can comprise: database 12 and data analytics server 11.As shown in Figure 2, wherein, described database 12 is connected with described at least two branch center servers 40 respectively by described second data-interface machine 20, center switch 30, for receiving and storing the described fume emission data and/or electricity volume data that described branch center server 40 gathers.Described data analytics server 11 is connected with described at least two branch center servers 40 respectively by described second data-interface machine 20, center switch 30, for obtaining described fume emission data and/or the electricity volume data of server 40 collection of described branch center, and after reasonable effective fume emission data and/or electricity volume data are obtained to described fume emission data and/or electricity volume data analysis, export described rationally effective fume emission data and/or electricity volume data.Described data analytics server 11 is also connected with described database 12, for obtaining described fume emission data and/or electricity volume data from described database 12, and processes the described fume emission data obtained and/or electricity volume data and stores.

In the present embodiment, data analytics server gets described fume emission data and/or electricity volume data from database, and the described fume emission data obtained and/or electricity volume data are processed, obtain rationally effectively fume emission data and/or electricity volume data.Wherein, can analyzing and processing etc. to the mode of fume emission data and/or electricity volume data, be not specifically limited in concrete processing mode the present embodiment.

In the present embodiment, described database is connected with described at least two branch center servers respectively by described second data-interface machine, center switch, the described fume emission data of database purchase branch center collection of server and/or electricity volume data, preserve raw data; Described database is connected with described data analytics server, reasonable effectively fume emission data and/or electricity volume data that database purchase obtains through described data analytics server process, for subsequent statistical, generation data sheet do data basis.

Concrete, as shown in Figure 3, the fume emission data stored in order to the described database 12 of clear differentiation and/or electricity volume data and the fume emission data after overall control center server 10 processes and/or electricity volume data, the database 12 described in above-described embodiment can comprise: real-time data base 121 and efficient database 122.Wherein, described real-time data base 121 by described second data-interface machine 20, center switch 30 respectively with described branch center server 40, described real-time data base 121 is connected with described data analysis set-up 111, for storing described fume emission data and/or the electricity volume data of server 40 collection of described branch center.Described efficient database 122 is connected with described judge module, for storing described rationally effective fume emission data and/or electricity volume data, for follow-up to this rationally effective fume emission data and/or electricity volume data should be used as basis.

Further, as shown in Figure 3, the data analytics server 11 described in above-described embodiment can comprise: data analysis set-up 111 and data output device 112.Wherein, described data analysis set-up 111 is connected with described branch center server 40 by described second data-interface machine 20, center switch 30, for analyzing described fume emission data and/or electricity volume data, obtain described rationally effective fume emission data and/or electricity volume data.Described data output device 112 is connected with described data analysis set-up 111, for exporting described rationally effective fume emission data and/or electricity volume data.

Concrete, the data analysis set-up described in above-described embodiment can comprise: sampling processing module and judge module.Wherein, described sampling processing module is connected with described branch center server by described second data-interface machine, center switch, for described fume emission data and/or electricity volume data are carried out sampling processing, obtain fume emission sampled data and/or electricity volume sampled data.Described judge module is connected with described sampling processing module and described data output device respectively, for judging whether described fume emission sampled data and/or electricity volume sampled data are described rationally effective fume emission data and/or electricity volume data.

In the present embodiment, within the predetermined sampling period, described sampling processing module carries out sampling processing to described fume emission data and/or electricity volume data, obtains fume emission sampled data and/or electricity volume sampled data.The fume emission sampled data obtained and/or electricity volume sampled data judge through judge module, obtain rationally effective fume emission data and/or electricity volume data.During concrete enforcement, judge whether fume emission sampled data and/or electricity volume sampled data are that rationally effective fume emission data and/or electricity volume data are specially:

Such as, within continuous 15 sampling periods, the fume emission data taked and/or electricity volume data are for empty, then be considered as fume emission data that during this period of time, overall control center server obtains and/or electricity volume data are AFR control, now the fume emission data that report of branch center server and/or electricity volume data are not rationally effective fume emission data and/or electricity volume data.In other words, reasonable effective fume emission data and/or electricity volume data for obtain fume emission sampled data and/or electricity volume sampled data within the predetermined sampling period.

Such as, within continuous 90 sampling periods, the fume emission data taked and/or electricity volume data are identical data, then be considered as fume emission data that during this period of time, overall control center server obtains and/or electricity volume data are astable data, now the fume emission data that report of branch center server and/or electricity volume data are not rationally effective fume emission data and/or electricity volume data.In other words, rationally effective fume emission data and/or electricity volume data are within the predetermined sampling period, obtain stable fume emission sampled data and/or electricity volume sampled data.

Such as, within each sampling period, no to scale is (such as to judge fume emission data and/or electricity volume data, instrument range, physical property limit value etc.), or whether for meeting logical data (such as, accidental data), for not having no to scale and meeting logical data, then the fume emission data of overall control center server acquisition and/or electricity volume data are reasonable effective fume emission data and/or electricity volume data.

In the present embodiment, described rationally effective fume emission data comprise the concentration of the Pollutant emission concentration of every platform boiler, the flue gas flow of every platform boiler, boiler deviating from device portal and discharging pollutants, the concentration of boiler being deviate from device outlet drain pollutant, the generated energy of boiler within the described predetermined sampling period; Wherein, the carrier of the described fume emission data that gather in institute compass of competency for described branch center data server of described boiler and/or electricity volume data.

In actual applications, utilize the concentration of the flue gas flow of the Pollutant emission concentration of every platform boiler described above, every platform boiler, boiler deviating from device portal and discharging pollutants, the concentration of boiler being deviate from device outlet drain pollutant, the generated energy of boiler within the described predetermined sampling period, can know the average smoke emissioning concentration of every platform boiler, fume emission speed, smoke discharge amount, fume emission removal efficiency and fume emission performance etc. by certain operational formula.In the specific implementation, the utility model the present embodiment does not limit concrete operational formula.

Further, when judging that fume emission sampled data and/or electricity volume sampled data are not reasonable effectively fume emission data and/or electricity volume data, need to remind monitoring personnel to carry out data processing in time, overall control center server described in above-described embodiment can comprise: warning device, and described warning device is connected with described judge module.In the present embodiment, for produce the information of AFR control, the information of astable data, outrange data message, do not meet the data message of logic, overall control center server will to operator on duty send warning message with notify operator on duty to process, the reasons such as effective prompting operator on duty equipment failure, network failure, maintenance cause partial data to lack, thus improve the monitoring of the fume emission to the fired power generating unit in data server compass of competency, each branch center.

Further, the fume emission monitoring system described in above-described embodiment also comprises: communication network; Accordingly, described overall control center server comprises: the webserver, and the described webserver is connected with described communication network, establishes a communications link for making described overall control center server and described branch center server.

In the specific implementation, such as, set up after network is connected at overall control center server and multiple branch centers data server, overall control center server disposition is at integrated data web area, and all the other branch center data servers are communicated with overall control center server by integrated data network.The interface of branch center data server is installed in strict accordance with state's net network requirement and is specified securing software, and heart registration is put on record in the information.This interface communication adopts stable ICP/IP protocol communication.Each branch center data server establishes data acquisition channel, and data have gathered and have been aggregated in each branch center data server, each branch center data server will pass through the mode of interface to overall control center server reported data according to certain frequency acquisition.Such as, each branch center data server by the data that collect with the frequency more than 15 minutes by the mode of interface to overall control center server reported data.That is, after each branch center data server collects real time data, must rise in 15 minutes at the acquisition time of these data and complete to overall control center server reported data.The fume emission data reporting it to collect from trend overall control center server by each branch center data server and/or electricity volume data, ensure that overall control center server can the fume emission data that gather of each branch center of Real-time Obtaining data server and/or electricity volume data, achieve the object of the Real-Time Monitoring to each branch center data server.

The utility model embodiment is by passing through described second data-interface machine by described overall control center server, center switch is connected with described at least two branch center servers, the fume emission data of at least two branch center collection of server described in making and/or electricity volume data are by described second data-interface machine, center switch reports described overall control center server, described overall control center server is to exporting rationally effective fume emission data and/or electricity volume data after described fume emission data and/or the process of electricity volume data analysis, reach and automatically realize on the whole to the object of fume emission data Real-Time Monitoring, reduce manpower, material resources cost, make simple to operation, efficiency is high.

Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to previous embodiment, 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 each embodiment technical scheme of the utility model.

Claims (7)

1. a fume emission monitoring system, is characterized in that, comprising:

At least two branch center servers, described branch center server comprises the first data-interface machine, and described branch center server is for gathering fume emission data in its compass of competency and/or electricity volume data;

Center switch, is connected with described at least two branch center servers respectively by described first data-interface machine;

Overall control center server, described overall control center server is connected with described at least two branch center servers respectively by the second data-interface machine, center switch; Wherein, described overall control center server is for obtaining described fume emission data and/or the electricity volume data of described branch center collection of server, and after reasonable effective fume emission data and/or electricity volume data are obtained to described fume emission data and/or electricity volume data analysis, export described rationally effective fume emission data and/or electricity volume data, to realize the fume emission on-line monitoring in server compass of competency, each described branch center.

2. fume emission monitoring system according to claim 1, is characterized in that, described overall control center server comprises:

Database, is connected with described at least two branch center servers respectively by described second data-interface machine, center switch, for receiving and storing described fume emission data and/or the electricity volume data of described branch center collection of server;

Data analytics server, be connected with described at least two branch center servers respectively by described second data-interface machine, center switch, for obtaining described fume emission data and/or the electricity volume data of described branch center collection of server, and after reasonable effective fume emission data and/or electricity volume data are obtained to described fume emission data and/or electricity volume data analysis, export described rationally effective fume emission data and/or electricity volume data;

Described data analytics server also with described DataBase combining, for obtaining described fume emission data and/or electricity volume data from described database, and to obtain described fume emission data and/or electricity volume data process and store.

3. fume emission monitoring system according to claim 2, is characterized in that, described data analytics server comprises:

Data analysis set-up, described data analysis set-up is connected with described branch center server by described second data-interface machine, center switch, for analyzing described fume emission data and/or electricity volume data, obtain described rationally effective fume emission data and/or electricity volume data;

Data output device, described data output device is connected with described data analysis set-up, for exporting described rationally effective fume emission data and/or electricity volume data.

4. fume emission monitoring system according to claim 3, is characterized in that, described data analysis set-up comprises:

Sampling processing module, described sampling processing module is connected with described branch center server by described second data-interface machine, center switch, for described fume emission data and/or electricity volume data are carried out sampling processing, obtain fume emission sampled data and/or electricity volume sampled data;

Judge module, described judge module is connected with described sampling processing module and described data output device respectively, for judging whether described fume emission sampled data and/or electricity volume sampled data are described rationally effective fume emission data and/or electricity volume data.

5. fume emission monitoring system according to claim 4, is characterized in that, described database comprises:

Real-time data base, described real-time data base by described second data-interface machine, center switch respectively with described branch center server, described real-time data base is connected with described data analysis set-up, for storing described fume emission data and/or the electricity volume data of described branch center collection of server;

Efficient database, described efficient database is connected with described judge module, for storing described rationally effective fume emission data and/or electricity volume data.

6. fume emission monitoring system according to claim 4, is characterized in that, described overall control center server comprises:

Warning device, described warning device is connected with described judge module.

7. the fume emission monitoring system according to any one of claim 1 ~ 6, is characterized in that, described system also comprises: communication network; Accordingly, described overall control center server comprises:

The webserver, the described webserver is connected with described communication network, establishes a communications link for making described overall control center server and described branch center server.