KR20070070647A - United managing system for waste treatment facility using the quality of water simulator and statistical analysis method - Google Patents

Abstract

A system for integrally managing waste treatment facilities by using a water quality simulator and a statistical analysis is provided to save human resource and expense by integrally managing, monitoring, and controlling each local waste treatment facility in a central management server, and simulate a waster treatment process by accumulating/using data according to each situation to an integrated database. The integrated database(200) accumulates water quality information for each operation factor value of the waste treatment facility(100). The central management server(300) operates simulation based on the water quality information accumulated in the integrated database if the operation factor value is inputted. The simulation estimates the water quality of discharged water and outputs operation information to obtain the optimal water quality by applying an operation factor. The operation factor is a waste inflow waste, BOD(Biological Oxygen Demand), COD(Chemical Oxygen Demand), total nitrogen, total phosphate, and suspended solids.

Description

Integrated management system for sewage treatment facilities using water quality simulators and statistical analysis techniques {UNITED MANAGING SYSTEM FOR WASTE TREATMENT FACILITY USING THE QUALITY OF WATER SIMULATOR AND STATISTICAL ANALYSIS METHOD}

1 is a view showing the configuration of a sewage treatment facility maintenance system according to an embodiment of the present invention.

2 is a view showing the operation of the water quality simulator 310 according to an embodiment of the present invention.

3 is a diagram illustrating the operation of the inference and statistical analysis program 320 according to an embodiment of the present invention.

The present invention relates to a sewage treatment plant maintenance system using a water quality simulator and statistical analysis techniques. More specifically, the present invention relates to a sewage treatment facility maintenance system capable of managing all local sewage treatment facilities distributed by a central management server.

Currently, the environmental field, especially the water quality field, is managed in various forms in connection with clean drinking water supply to the public, or for surveying the water environment for water and sewage sources. However, if the current status of sewage treatment plants in the country is grasped, it is a reality that the environmental infrastructure has become smaller and relies on regional sewage treatment plants installed in a geographically dispersed area, thus securing a stable water quality and economical operational capacity.

In particular, since the management of local sewage treatment facilities is performed by non-skilled personnel, the management method according to the influent flow rate and the water quality which changes frequently is inadequate, and the stability of the discharge water quality is lowered, thereby reducing the efficiency of the environmental infrastructure.

The integrated management system of local sewage treatment facilities, which is being used in part, uses real-time analysis of the operation status of sewage treatment facilities using data collected through measuring instruments and water analysis at sewage treatment facilities in each region, and the amount of change over time. It was way that manager of local sewage treatment facility took measures according to each process.

Thus, the operations and measures for sewage treatment in each region were decided by a few regional managers, resulting in an inconsistent and unobjective manner of operation in each region sewage treatment facility. In particular, when the manager of the local sewage treatment facility is a non-specialist, there is a problem in that maintenance of the sewage treatment facility is not effectively performed.

Accordingly, the technical problem to be achieved by the present invention is to provide a sewage treatment facility maintenance system using a water quality simulator and statistical analysis technique that can objectively and uniformly manage locally distributed sewage treatment facilities in a central management server. will be.

An integrated management system of a local sewage treatment facility according to an aspect of the present invention for achieving the above object includes an integrated database that accumulates water quality information for each operating factor value of the sewage treatment facility; and The central management to run the simulation to output the operating information to predict the water quality when discharged by applying the operating factors, and obtain the optimum water quality, if the operating factor value is input, through the water quality information accumulated in the integrated database Include a server.

According to another aspect of the present invention, an integrated management system of a local sewage treatment facility includes an integrated database that accumulates water quality information on each operator's value of the sewage treatment facility; And a management program including an analysis program for outputting operational information by analyzing correlations between selected and inputted operational factors through the water quality information accumulated in the integrated database when the operational factor values of the sewage treatment facility are input. It includes.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

1 is a view showing the configuration of a sewage treatment facility maintenance system according to an embodiment of the present invention.

Hereinafter, a sewage treatment plant maintenance system according to an embodiment of the present invention will be described in detail with reference to FIG. 1.

As shown in FIG. 1, a sewage treatment facility maintenance system according to an embodiment of the present invention includes a local sewage treatment facility 100, an integrated database 200, and a central management server 300.

The local sewage treatment facility 100 according to the embodiment of the present invention means any sewage treatment facility installed in each region. Although only one is shown in FIG. 1, it means all local sewage treatment facilities distributed in the region. do.

The integrated database 200 transmits various water quality related data input from the local sewage treatment facility 100 to the central management server 300 and accumulates various input data.

The central management server 300 includes various programs such as the water quality simulator 310, the inference and statistical analysis program 320, the integrated monitoring control program 330, and the various water quality related data input from the integrated database 200. Providing an appropriate operation and response method to the integrated database 200 using various programs.

Referring to FIG. 2, the various programs included in the central management server 300 will be described in more detail. The water quality simulator 310 displays inputted water quality data such as an F-Simulator, an H-Simulator, or a C-Simulator. Run different types of simulators to determine the quality of the discharge.

First, the F-Simulator predicts how much the discharged water quality is discharged when operating with the current operation setting value through the accumulated data in the integrated database 200, and presents the optimum operating conditions accordingly.

That is, if the initial design value of the sewage treatment operation is out of standard due to internal and external environmental factors, or it is difficult to set the operating conditions due to the rapid change of external factors such as inflow or inflow water quality, F -Using the simulator, the optimum operating conditions are found by applying and simulating values such as residence time, operation rate, conveyance, chemical throughput, and oxygen injection to the function of each process.

Therefore, the manager of the local sewage treatment facility 100 may enter the central management server 300 with the amount of sewage, BOD, COD, Total Nitrogen (TN), Total Phosphorus (TP), and Suspended Solids. Pass some of the values. This is done by entering measurements using an online program.

At this time, the F-Simulator generates a function for the inputted measured values to predict the discharged water quality when maintaining the current operating state, and the residence time, operation rate, conveyance amount, chemical throughput, Delivers optimal operating conditions such as oxygen injection volume.

In addition, the C-Simulator predicts the water quality when discharged through the F-Simulator and virtually applies the work to be processed to the C-Simulator to predict the treatment result to prevent accidents that may be caused by the operator's mistaken judgment. It plays a role.

In addition, the H-Simulator compares the inflow water quality (inflow flow rate, BOD, COD, TN, TP, etc.) information measured on the reference day with the past sewage treatment plant operation information accumulated in the integrated database 200, and determines the closest operating conditions. (Operation, inflow, water quality, etc.) presents the best operational information when discharged.

Referring to FIG. 2, in more detail, when a manager of a local sewage treatment plant inputs real-time data related to real time online into an integrated database, the accumulated water quality database is accumulated. Based on the water quality simulator is operated, it informs the administrator of the operational information for the best water quality during discharge.

In this case, as shown in FIG. 2, the cumulative water quality database may be directly applied to the water quality simulator 310 to correct conditions during the water quality prediction / prevention operation during discharge and to perform an optimal control response. If necessary, the function can be operated by calibrating the function using inference and statistics based on the accumulated data.

In this case, the function info manager corrects the treatment plant environment basic data and the factor values applied to the function according to the result of the corrected function and stores them in the function info table. .

On the other hand, in order to plan the operation of the local sewage treatment facility 100, it is necessary to obtain a correlation for each process. In particular, it is important to reduce trial and error because each process in a sewage treatment plant is difficult to deform once the design is completed. In addition, when the non-experts operate, it is unlikely to obtain an optimal operation plan, and thus, the optimal operation plan is established using the inference and statistical analysis program 320.

The reasoning and statistical analysis program 320 according to an embodiment of the present invention will be described with reference to FIG. 3.

As shown in FIG. 3, the regional sewage treatment facility 100 analyzes and derives process-specific correlations for weather information, basic design information, laboratory water quality information, and instrument water quality information input to the integrated database 200, Analyze trends in water quality over time.

And, by using the various data accumulated in the integrated database 200 to calculate the processing standards and operating patterns for each process, finally predict the optimal treatment method for the inflow flow rate and inflow water quality, and propose an operation plan This is reflected in the water quality simulator 310.

In this case, the inference and statistical analysis program 320 is the same as the water quality simulator 310, when the manager of the local sewage treatment plant pre-defined and input the correlation items required for the operation for each process, the central management server 300 Based on the database accumulated in the integrated database 200, it presents an optimal operation method for each process.

Inference and statistical analysis program 320 is divided into historical trend analysis, fix point analysis and free point analysis method.

First, the historical trend analysis is applied to the sewage treatment plant to store the data collected for a certain period of time in the integrated database 200, which analyzes the statistical data by the desired form and item, which items of any process in the past Make sure you know what level the value of has been or how it has been managed.

Next, the fix point analysis pre-defines the correlation items necessary for operation of each process in the sewage treatment plant, and analyzes the correlations declared for each item even if the site operator lacks prior knowledge, thus enabling the operation of the sewage treatment plant in the past or in the past. It can identify how it has been done and provides a basis for future operational plans.

Finally, Free Point analysis extracts data stored in the integrated database 200 in addition to the correlation items defined by the sewage treatment plant operator in the “Fix Point Analysis” menu, and freely selects the items. Can be analyzed.

Therefore, the results of the various analysis methods are applied to the water quality simulator 310 to suggest a more appropriate countermeasure method.

In addition, the integrated surveillance control program 330 serves to monitor or control the local sewage treatment facility 310 to correctly perform its functions using the Internet.

Integrated monitoring control program 330 is composed of a remote monitoring control system, sewage conduit monitoring system and buried drawings information system.

First, the remote monitoring and control system transmits and collects the status information and measurement information on-line in the sewage treatment plant or satellite sewage treatment plant, sewage conduit and relay pumping station. Valve, motor, etc.) or automatic operation setting value (processing time, throughput, etc.) to control remotely.

Next, the sewage conduit monitoring system monitors the inflow of influent from the source, and uses accumulated data to centrally monitor the collection facilities with severe generation of confluent sewer overflows (CSOs), which are the major contaminants in urban areas during the initial rainfall. In this case, the total flow rate flowing from the inflow source provides operating data that is close to the optimum operation information by rank by utilizing the database accumulated in the integrated database 200. In addition, it can present data such as management number, type of pipe, diameter, year of laying, depth of laying, method of laying, method of foundation work when laying, soil condition, and can monitor the current condition of conduits by CCTV. It also monitors how much it has flowed in.

Then, based on the inflow and water quality of influent from each control point, the simulation is run to suggest the matters to be operated in the sewage treatment plant.

Lastly, the buried drawing information system prevents accidents that may occur during the operation management of the operation manager by providing information on facilities that cannot be visually checked, such as sewage conduits and diving facilities.

The central management server 300 may additionally operate an emergency response system, a facility maintenance program, and the like.

In particular, the emergency response system determines each local sewage treatment promptly by using the Unified Messaging Service (UMS) by determining the action taken by the local sewage treatment manager immediately by the central management server 300 when an emergency occurs. Give administrators a quick on-site emergency response and follow-up by telephone, fax, PDA or terminal.

As such, the central management server 300 integrates each local sewage treatment facility 100 and based on the data accumulated in the integrated database 200, the water quality simulator 310 and the inference and statistical analysis program 320. To control the water quality when discharged, and to operate the integrated monitoring control program 330 using the Internet to perform remote monitoring and control of various facilities.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the invention defined in the following claims are also provided. It belongs to the scope of rights.

As described above, according to the present invention, it is possible to centrally manage each regional sewage treatment plant using a central management server, thereby enabling centralized integrated management and monitoring control, thereby reducing manpower and cost.

In addition, by accumulating data according to each situation in the integrated database, even if the manager of the local sewage treatment facility is not an expert, the sewage treatment process can be predicted and operated using the accumulated data in advance.

Claims (10)

An integrated database that accumulates water quality information for each operator value of the sewage treatment plant; And When the operation factor value of the sewage treatment facility is input, through the water quality information accumulated in the integrated database, the operation factor is applied to predict the water quality when discharged, and to output the operation information to obtain the optimal water quality. Integrated management system of local sewage treatment facilities including a central management server to operate. The method of claim 1, The operating factor is an integrated management system of a local sewage treatment facility including influent sewage, BOD, COD, Total Nitrogen (T-N), Total Phosphorus (T-P), and Suspended Solids. The method according to claim 1 or 2, Wherein said simulation is a function of said operating factors. The method of claim 3, When the numerical value for the operating factor is input to the central management server, a function consisting of the selected operating factor is generated and applied to the local sewage treatment facility. The method of claim 1, The operation information is integrated management system of a local sewage treatment facility including at least one of the operation rate, the return amount, the chemical throughput, the oxygen injection amount of the sewage treatment plant. The method of claim 1, The central management server is an integrated management system of the local sewage treatment facility that can receive the sewage inflow of the local sewage treatment facility on-line and remotely monitor and control. An integrated database that accumulates water quality information for each operator value of the sewage treatment plant; And When the operation factor value of the sewage treatment facility is input, the central management server includes an analysis program that analyzes the correlation between the selected and inputted operation factors through the water quality information accumulated in the integrated database, and outputs the operation information. Integrated management system of local sewage treatment facilities, including. The method of claim 7, wherein The operating factor is the integrated management system of the local sewage treatment facility comprising at least one of analysis period, process, precipitation, water temperature. The method of claim 8, The operation information is integrated management system of the local sewage treatment facility to integrate the weather information, laboratory water quality information, instrument water quality information to analyze the correlation for each process to suggest the optimal operating method for inflow flow rate, inflow water quality. The method of claim 7, wherein The central management server is an integrated management system of the local sewage treatment facility that can receive the sewage inflow of the local sewage treatment facility on-line and remotely monitor and control.

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