KR20120000336A - Integrated management system of ecological water for multiple water resources and method using the same - Google Patents

Abstract

PURPOSE: An ecology water integrated management system utilizing plural water sources and management method using the same are provided to offer additional services by utilizing a monitoring result. CONSTITUTION: A water treatment apparatus(80) supplies water by receiving the water from plural water sources(10, 20, 30, 40, 50). A monitoring apparatus(11, 21, 31, 41, 51) measures information about the quality and quantity of water in restoration target water or the water sources. A calculation control apparatus(61) analyzes the quantity and quality of water received from the water sources through a measured value. The calculation control apparatus controls the calculation control apparatus according to a simulation result.

Description

INTEGRATED MANAGEMENT SYSTEM OF ECOLOGICAL WATER FOR MULTIPLE WATER RESOURCES AND METHOD USING THE SAME}

The present invention is to secure the water (hereinafter referred to as ecological water) necessary for ecologically eco-friendly restoration of water bodies (hereinafter referred to as restoration target water) such as real streams, rivers, ponds or lakes. The present invention relates to a networked system and method for supporting decision-making and providing integrated management of water quantity and water quality. Specifically, in order to restore ecologically friendly water to be restored, sewage treatment water, storm water and lake water ( When there are various combinations of water sources that can be utilized in terms of quantity and quality of water, valley water, ground water, river water, and circulating water, determine one or more water sources effective at that time To provide appropriate operating conditions for each water treatment system for one or more water sources. The. In addition, it is very difficult to evaluate whether the restoration and management of the restoration target body are properly performed. The quantitative and water quality conditions of the restoration target body ecologically and ecologically restored by the present invention are monitored, and the monitored results are utilized. It provides a water source that can be used as ecological water in economic, quantitative and water quality among various water sources, a method to determine and manage the appropriate water treatment degree, and a networked device to support and manage the decision-making process. For the purpose of

Among various elements of the land, the water spaces such as real streams, rivers, ponds or lakes are closely related to human activities, and people's demand for ecological water spaces is also increasing. As a result, local governments across the country are actively engaged in ecological river restoration projects and ecological lake creation projects. However, if the restoration project is carried out for the purpose of merely producing a result without a sufficient understanding of the ecological function of the restoration target body, there may be various problems. Therefore, the restoration project of contaminated water bodies needs to be actively considered to secure the health of aquatic ecosystems, unlike the previous river restoration or lake creation projects which focused on completion and size.

In other words, although the existing hydrophilic river restoration plans and lake creation projects are positive in that they activate the surrounding water bodies and respond to the needs of citizens' hydrophilic spaces, they are mostly downstream without sufficient consideration of ecological and environmental health. It is planned and operated by 'back-pumping' upstream by utilizing the water supply source. Therefore, not only does it burden the citizens but also puts a lot of limits in restoring a healthy water environment. In case of simulating existing cases or restoring to parked rivers and lakes without considering the environment, ecological and environmental health and water circulation characteristics inherent to each river or lake, financial burden and saving energy resources It can cause problems such as wasteful waste and degradation of ecological sustainability. The most important factor in the ecological and ecological restoration of water bodies to be restored is whether or not sufficient water quality can be secured and supplied throughout the year.

As a method of securing ecological water, a method of reusing sewage treatment water, a method of utilizing rainwater, and a method of pumping downstream water and reinjecting it upstream are generally used. Recently, lake water (reservoir index), valley A method of actively utilizing various water sources such as water and groundwater has been proposed. On the other hand, each water source is subject to severe seasonal fluctuations in quantity and water quality, whether the water source can economically satisfy the quantitative and water quality conditions required for restoration, and if the water quality conditions are not met. This involves a complex decision-making process to determine the level of water treatment that should be added as needed.

The rivers have environmental functions to maintain the natural ecology of the rivers, the completion of water and space utilization in the rivers, and the flood control function for flood protection. In order to effectively maintain the various functions of these streams, a flow rate (hereinafter referred to as ecological water volume) is required to maintain a clear and sufficient stream flow rate. In other words, for efficient and sustainable river management while considering nature and human beings together, sufficient amount of ecological water must be secured so that the ecological function of the river can be effectively exercised. Therefore, the amount of ecological water can be defined as the minimum amount of water required for the conservation of nature and ecosystems in rivers.

In addition, a water quality monitoring system has recently been introduced to monitor the pollution level of restoration targets such as rivers and lakes. A water quality monitoring system generally refers to analyzing the status of water quality changing in time and space or continuously tracking the change in order to determine whether the water resource is suitable for the purpose of use before using it.

The domestic water quality monitoring system is measured and operated according to the user's operation purpose, and it is mainly used for the purpose of water quality monitoring of river water, major appeals, national water intake sources, major industrial areas and agricultural water. On the other hand, there have not been any devices and methods for establishing ecological water monitoring system to monitor the water quality and water quality of restoration targets and managing the ecological and environmental health of restored waterbodies using the monitored results. .

The major hydraulic factors and water quality factors for aquatic ecosystems are water level, flow rate and flow rate, dissolved oxygen concentration (DO), hydrogen ion concentration (pH), water temperature, turbidity, biological oxygen demand (BOD), chemical oxygen demand (COD), total Organic Carbon (TOC), Total Nitrogen (TN), Ammonia (NH ₃ -N), Total Phosphorus (TP), Electrical Conductivity (EC), Suspended Matter (SS), Coliform Count, Trace Hazardous Substances, Heavy Metals, Coloring, Oil, Journeys and pesticides.

In particular, as the water quality items, dissolved oxygen concentration (DO), hydrogen ion concentration (pH), water temperature, turbidity, biological oxygen demand (BOD), and ammonia (NH ₃ -N) are important. Once the restoration target and the species to be restored are determined, the quantitative and water quality conditions appropriate for the species will change as the life cycle of the species is changed to spawning, incubating, juvenile, and adult.

When there are various water sources available at each time, the process of determining the most economical water source and water treatment condition that satisfies the quantitative and water quality conditions for the species to be restored is very complicated. Using a decision support system is a viable approach.

Therefore, there is a need for a method for deciding how to secure and manage ecological water required during the ecological and ecological restoration of restoration targets, and networked devices and methods to support and manage the numerous decisions that must be made in this process. Do.

The present invention is to solve such a conventional problem, the object of the present invention is to target a number of water sources that can be utilized as ecological water in the restoration target body, there is a variation in the quantity and water quality that each water source can be secured seasonally At the time, complex decisions are made as to whether the water source can economically meet the quantitative and qualitative conditions required by the restoration body, and the level of water treatment to be added as needed if the water quality conditions are not met. This involves the process of determining the appropriate combination of sources and the degree of water treatment of the source, based on the results of the hydraulic and water quality monitoring of one or more points of ecologically and ecologically restored waterbodies. To provide a networked device to manage and manage The.

According to a feature of the present invention for achieving the above object, the integrated ecological water management system using the multiple water source of the present invention is a management system for securing ecological water to restore the restoration target body ecologically or environmentally from multiple water sources A water treatment apparatus for supplying water or performing additional water treatment from the multiple water sources; A monitoring device installed in the multiple water source or the restoration target body for measuring information on quantity and water quality; A database storing information including the measured values measured by the monitoring device and quantitative or water quality conditions related to the species to be restored; Ecological water integrated management calculation control for controlling the water treatment device by simulating and analyzing the quantity and water quality of the multiple water sources selected through the measured values measured by the monitoring device, and determining whether the simulation analysis result meets a predetermined standard value It is preferable to include a device.

The integrated ecological water management control system of the present invention compares the measured value measured by the monitoring device with the simulation analysis result, and repeats the combination of the water sources and the operating conditions of the water treatment device so that the simulation analysis result meets a predetermined standard value. It is preferable to change it.

Ecological water integrated management calculation control device of the present invention is the evaluation quantity determined by the type of organisms to be restored, the quantity and water quality requirements of the organisms to be restored, the watershed and regional characteristics of the water bodies to be restored or operating cost of the ecological water treatment facility It is desirable to determine the reference value based on the evaluation quality of the water or the evaluation cost.

The ecological water integrated management calculation control apparatus of the present invention simulates using a water quality simulation program or a rainfall runoff process simulation program, and the input data of the model is determined by pre-established input data and monitoring results by the monitoring device. It is desirable to.

Ecological water integrated management calculation control device of the present invention preferably comprises a water quality simulation program or rainfall runoff simulation program consisting of QUAL2K, WASP or SWMM.

The ecological water integrated management calculation control apparatus of the present invention simulates changes in the quantitative and water quality conditions occurring over time while dripping or restoring the water body to be restored, such as HEC-2 and HEC-RAS, or QUAL2K and It is preferable to carry out by using a model such as WASP, and the input data of the model is preferably determined by the input data built in advance and the monitoring result by the monitoring apparatus.

The ecological water integrated management calculation control apparatus of the present invention generates an alarm when the monitoring result of the restoration target body transmitted to the database does not satisfy the quantitative condition and the water quality condition suitable for the preset restoration target species, After storing the alarm occurrence history, it is preferable to change the water source combination, to present the operating conditions of the water treatment device, or to change the operating conditions of the water treatment device automatically.

The monitoring device of the present invention is dissolved oxygen concentration (DO), hydrogen ion concentration (pH), water temperature, turbidity, water level, flow rate, flow rate, biological oxygen demand (BOD), chemical oxygen demand (COD), total organic carbon (TOC) , Total Nitrogen (TN), Ammonia (NH ₃ -N), Total Phosphorus (TP), Electrical Conductivity (EC), Suspended Matter (SS), Coliform Count, Trace Hazardous Substances, Heavy Metals, Coloring, Oil, Journey and Pesticides It is preferable to select and measure one or more according to the purpose.

The management method using the integrated ecological water management system utilizing the multiple water sources of the present invention is a management method using the management system for securing the ecological water for ecologically or ecologically restoring the restoration target body from the multiple water sources. Selecting and monitoring the quantity and water quality of each water source by the monitoring device; Generating a water source combination scenario by the ecological water integrated management calculation control device by combining one or more of the multiple water sources according to the monitoring result by the monitoring apparatus; Conducting a simulation analysis on the amount and quality of water source by the ecological water integrated management calculation control device based on the water source combination scenario; Whether the simulation result is included in an approximate range of the result monitored by the monitoring device by the ecological water integrated management calculation control device, and whether the simulation result satisfies the reference value according to the restoration purpose of the restoration target body. Determine whether or not; If the simulation result meets the reference value, it is preferable to control the water treatment device according to the simulation result.

The step of determining whether the present invention satisfies the standard value is the evaluation quantity determined by the type of the organism to be restored, the quantity and quality requirements of the organism to be restored, the watershed and regional characteristics of the water body to be restored, or the operating cost of the ecological water treatment facility. It is preferable to judge by the reference value which consists of evaluation quality, or evaluation cost.

Determining whether or not the standard value of the present invention is satisfied may be determined by changing the combination of the water sources and the operating conditions of the water treatment apparatus when the simulation analysis result by the integrated ecological water management control system does not meet a predetermined standard value. It is desirable to repeat the simulation by the calculation control device to determine whether the reference value is satisfied.

In the step of determining whether the reference value of the present invention is met, when the simulation result is not included in the approximate range of the result monitored by the monitoring device, it is preferable to repeat the simulation by changing the simulation requirement.

In the step of determining whether the reference value of the present invention is met, if the quantity obtained by the simulation analysis results is less than the evaluation quantity, it is preferable to repeat the simulation by reconstructing the combination of the water sources based on the indicators related to the quantity of the multiple water sources. Do.

In the step of determining whether the present invention meets the standard value, it is preferable to repeat the simulation by recombining the bulk water source in order, adding additional supplemental water sources, or replacing the micro water source.

Determining whether or not the criteria of the present invention are met satisfies that when the water quality of the simulation results is less than the evaluation water quality, it is preferable to repeat the simulation by reconstructing the combination of the water sources based on the indicators related to the water quality of the multiple water sources. Do.

Determining whether the criteria of the present invention are met may exclude the low water source, replace the low water source, or additionally add the high water source to repeat the simulation.

In the step of determining whether the reference value of the present invention is met, when the cost of the simulation result exceeds the evaluation cost, it is preferable to repeat the simulation by reconstructing the combination of the water sources based on the indicators related to the costs of the multiple water sources. Do.

In the step of determining whether the present invention meets the standard value, it is preferable to additionally add a high quality water source or to repeat the simulation analysis by excluding the high cost water source.

In the step of conducting a simulation analysis on the water quality and water quality of the present invention, the simulation is performed using a water quality simulation program or a rainfall runoff simulation program composed of QUAL2K, WASP, or SWMM, and the input data of the model is previously determined. It is desirable to determine by the input data established and the monitoring results by the monitoring device.

The step of conducting a simulation analysis of the water quality and water quality of the present invention is the simulation of changes in the quantitative and water quality conditions that occur over time while dripping or residing the water to be restored is HEC-2 and HEC- It is preferable to carry out by using a model such as RAS or QUAL2K and WASP, and the input data of the model is preferably determined by the input data previously constructed and the monitoring result by the monitoring apparatus.

The controlling of the water treatment apparatus of the present invention may generate an alarm when the monitoring result of the restoration target body does not satisfy the quantitative condition and the water quality condition suitable for the preset restoration target species, and store the history of alarm generation. Then, it is preferable to include changing the water source combination, presenting the operating conditions of the water treatment apparatus, or automatically changing the operating conditions of the water treatment apparatus.

According to the integrated management system of ecological water using multiple water sources and the management method using the same according to the present invention, it is possible to design and manage a restoration target body economically, ecologically and environmentally while satisfying various water sources and complex quantitative water quality management standards. It becomes possible.

In addition, the present invention has an advantage of maximizing the restoration effect of the restoration target species by operating the ecological water treatment facility according to the water treatment conditions for the water source selected to meet the criteria according to the target species to restore the various available water sources. .

In addition, the present invention is a water quality using the water quality accumulated in the ecological water management database, the water treatment device effluent, the monitoring results for the representative point of the restoration target body and the water quality model built in the integrated control system of ecological water management management The simulation results can be used to economically optimize the operation of the ecological water network. In addition, additional services such as dashin information may be provided using the monitoring results and simulation results.

1 is a block diagram showing a preferred embodiment of an integrated ecological water management system utilizing multiple water sources according to the present invention.
Figure 2 is a flow chart showing a management method using an integrated ecological water management system using multiple water sources according to the present invention.
Figure 3 is an explanatory diagram showing the criteria for the quantity and water quality of the water source of the integrated ecological water management system using multiple water sources according to the present invention.
Figure 4 is an explanatory diagram showing a water source change route of the integrated ecological water management system using multiple water sources according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the integrated ecological water management system and a management method using the same using multiple water sources according to the present invention will be described in detail.

The present invention has been described with reference to the embodiments shown in the drawings, which are described as one embodiment by which the technical spirit of the present invention and its core configuration and operation are not limited.

1 to 4 illustrate an exemplary embodiment of an integrated ecological water management system and a management method using the same using multiple water sources according to the present invention.

Figure 1 is a schematic diagram showing the configuration of the ecological water integrated management system and method (hereinafter, ecological water integrated management system and method) using multiple water sources according to the present invention. As shown, ecological water integrated management system and method according to the present invention is sewage treatment water, rainwater, groundwater, reservoir index (hosu), valley water, river water and circulating water (10, 20, 30, 40, 50), etc. When there are various water sources that can be utilized, the monitoring results (11, 21, 31, 41, 51) can be installed to calculate the quantity of each water source and analyze the water quality. To send). Available water sources can be expanded further, such as subway runoff.

Each of the water sources 10, 20, 30, 40, and 50 has separate pumps 12, 22, 32, 42, and 52 and control valves 13, 23, 33, 43, and 53 for controlling the flow of water. Is provided.

The monitoring device (11, 21, 31, 41, 51) provided in the integrated ecological water management system of the present invention is installed in each water source to measure the information about the quantity and quality of the water source, basically water level, It is preferable to include the flow rate, the dissolved oxygen concentration (DO), the hydrogen ion concentration (pH), the turbidity, the water temperature, and the ammonia (NH ₃ -N). Among them, ammonia (NH ₃ -N) can be analyzed offline.

Monitoring items carried out at the monitoring points of the monitoring devices 11, 21, 31, 41, and 51 are installed on-site including dissolved oxygen concentration (DO), hydrogen ion concentration (pH), water temperature, turbidity, and water level. It is desirable to measure and transmit to the ecological water integrated management database (60).

In addition, biological oxygen demand (BOD), chemical oxygen demand (COD), total organic carbon (TOC), total nitrogen (TN), ammonia (NH ₃ -N), total phosphorus (TP), electrical conductivity (EC), suspended solids (SS), coliform count, trace harmful substances, heavy metals, coloring, oil, journeys and pesticides may be additionally selected and monitored depending on the purpose of monitoring.

Specifically, depending on the species to be restored, there are also water quality items in which hydrogen ion concentration (pH) is set in the form of a range having an upper limit and a lower limit such as 6.7 to 7.5, and a dissolved oxygen concentration (DO) of 6 mg / L or more. As such, the lower limit is given and the upper limit is given, such as 25 mg / L or less of suspended solids (SS).

Ammonia (NH ₃ -N) can have serious biotoxicity, which is one of the main monitoring items because of its sensitivity to species. In addition, monitoring of the quantity of water quality conditions can be carried out in the singular or plural representative monitoring points 101 and 102 of the effluent 91 and the restoration target body 100 of the water treatment apparatus 80 to be described below. The results monitored by each monitoring device are sent to the integrated ecological water management database 60.

In the integrated ecological water management database 60 of the present invention, criteria for setting the quantity and the quality of water for the restoration target body 100 are stored, an example of which is illustrated in FIG. 3. As shown, the criteria for determining the quantity and water quality of the restoration target body 100 is the type of the restoration target organism, the quantity and water quality requirements of the restoration target organisms, the watershed and regional characteristics of the restoration target body 100 Or ecological water treatment plant operating costs. The criteria for determining the quantity and quality of water for the restoration target water are stored in the database 60, and the criteria for determination of the quantity and quality of the restoration target water bodies stored in the database 60 are sent to the restoration target water body 100. Valuation flow rate and valuation water quality are calculated.

In particular, in the case of the restoration target species to be restored in the restoration target body 100, it may be selected singularly or plurally in consideration of quantitative conditions and water quality conditions, ecology and economics. Specifically, the species to be restored are classified into domestic species of fish that live in the upper, middle, and downstream or brackish waters depending on the habitat environment, or each species considering the sensitive species, intermediate species, and resistant species against pollution. The fish species may be input in advance to the integrated ecological water management database 60 of the present invention by investigating appropriate quantitative and water quality conditions for each time period.

According to the present invention, the integrated control system for ecological water management and management for simulating the water quality of the water inlet of the restoration target body 100 and the water quality of the restoration target body 100 using the data of the database 60 as an input data. It includes.

The ecological water integrated management calculation control device 61 simulates the quantity and water quality of the selected water sources through the measured values measured by the monitoring devices 11, 21, 31, 41, and 51, and the reference value is constant. By determining whether it satisfies the water treatment apparatus 80 serves to provide the water treatment criteria and to control the water treatment apparatus 80 accordingly.

The ecological water integrated management calculation control device 61 determines the evaluation quantity and the evaluation quality according to the criteria for determining the quantity and quality of the restoration target water bodies input into the database 60. The evaluation quantity and the quality of the evaluation means a determination index for determining whether the simulation result of the quantity and quality of the water source satisfies a predetermined standard value, which is the type of the organism to be restored and the organism to be restored as described above. It is determined by the criteria for determining the quantity and quality of water to be restored, such as water quality requirements for each time, watershed and regional characteristics of the water to be restored 100, operating cost of the ecological water treatment facility, and the like.

In addition, the ecological water integrated management calculation control device 61 creates a preliminary scenario by selecting and combining various water sources 10, 20, 30, 40, and 50. That is, the ecological water integrated management calculation control device 61 selects and combines some or all of the plurality of water sources 10, 20, 30, 40, and 50 according to preset selection criteria.

For example, the water source selection criteria applied to the ecological water integrated management calculation control device 61 may be composed of a mass water source order, a high quality water source order, a low cost water source order, or a combination of weights for each of them. Can be. Such water source selection criteria is preferably selected with the highest priority as to whether or not to meet the quantity required in the restoration target body (100). In addition, the ecological water integrated management calculation control device 61 may consider the water quality improvement range that can be treated by the water treatment device 80 in the process of selecting the water source.

The ecological water integrated management calculation and control device 61 is the amount of ecological water that depends on the number of inflows and the water quality and the water treatment degree of the water treatment device 80 from the plurality of water sources (10, 20, 30, 40, 50) Conduct a simulation analysis of water quality conditions. The simulation of the quantitative water quality conditions of inflow ecological water is SWMM that simulates the watershed through the water quality simulation program such as QUAL2K or WASP that simulates the water quality of the waterbodies, or the groundwater, sewage and storm drainage of the watershed. It can be configured by embedding the rainfall runoff process simulation program such as ecological water integrated management calculation control unit 61 and the like.

That is, when water is introduced from each water source combined using a water quality simulation program such as QUAL2K and a rainfall runoff process program such as SWMM, the change of water quality over time of the introduced water, or the movement and mutual The reaction can be simulated.

The ecological water integrated management calculation control device 61 simulates by using a model built in itself, and the previously constructed input data and installed monitoring devices (11, 21, 31, 41, 51, 91). , 101, 102 can be used together with the monitoring results of the integrated ecological water management database (60) to build input data for each model.

The ecological water integrated management calculation control device 61 determines whether the simulation analysis result meets a predetermined standard value when the simulation analysis on the quantity and quality of water sources combined by the above model is completed.

First, it is determined whether the monitoring result of the monitoring apparatuses 101 and 102 installed at the representative point of the restoration target body and the simulation result of the integrated ecological water management control controller 61 are located within the approximate range. If the simulation and monitoring results are outside the approximate range, the monitoring results can be used to correct the parameters of the hydraulic and water quality models.

The ecological water integrated management calculation control device 61 may determine whether the reference value is satisfied based on the evaluation quantity, the evaluation quality and the evaluation cost, which are criteria according to the quantity, the quality of the water, or the cost. As described above, the evaluation quantity, the evaluation quality and the evaluation cost are determined according to the criteria previously stored in the database 60.

When the simulation result satisfies the reference value, the outflow water from the water treatment device 80 may be introduced into the restoration target body 100 so that the restoration target body 100 may be normally operated. However, if the simulation results do not meet the criteria, the most economic conditions are to conduct additional water quality simulations and economic evaluations for various scenarios that change the analysis requirements such as changing the water source or changing the operating conditions of the water treatment system. Can be set to operate by recombination.

An example of the process of recombining the altered water source is shown in FIG. 4. The route for changing the water source changes for three reasons: underrated water quality, underwater water quality, and overpriced water costs.

In the case where the evaluation quantity is insufficient, the water source may be recombined by recombining the bulk water source in order, adding a supplementary water source, or replacing the micro water source.

In the case of poor evaluation, the water source may be recombined by excluding a low water source, replacing a low water source, or adding a high water source.

In the case of exceeding the evaluation cost, the water source may be recombined by excluding the high cost water source or adding additional low cost water sources.

As such, when the water quality and the water quality of the water source are simulated by the integrated ecological water management control device 61, and it is determined whether the result satisfies the reference value, the integrated ecological water management control device 61 is Accordingly operates the water treatment apparatus (80).

The water treatment device 80 is connected to each water source (10, 20, 30, 40, 50) is provided with influent water, the amount of water calculated by the ecological water integrated management calculation control device 61 by treating the received influent water And the water quality is introduced into the restoration target body (100).

The pump 101 and the control valve 102 for controlling the inflow of the monitoring device 100 and the inflow water is also provided at the point flowing into the restoration target body 100. In addition, the hydraulic conditions and the flow rate and water quality monitoring results (101, 102) carried out at the representative monitoring point of the restoration target body 100 is transmitted to the ecological water integrated management database 60 suitable for the restoration target species previously set and If the water quality conditions are not satisfied, an alarm is generated, the alarm history is stored, and then changed to an appropriate ecological water source, an operation condition of the improved water treatment apparatus 80 is presented, or an operation condition is automatically changed. Can be.

The above-described water source monitoring devices 11, 21, 31, 41, 51, ecological water integrated management database 60, ecological water integrated management calculation control device 61 and water treatment device 80 are all wired or wirelessly. Can be connected. Then, the inflow water flowing from each water source (10, 20, 30, 40, 50) is water-treated by the water treatment device 80 is introduced into the restoration target body (100).

Hereinafter will be described in detail the operation of the management method using the integrated ecological water management system using multiple water sources according to the present invention having the configuration as described above.

First, in order to provide a method of economically securing and managing ecological water, the restoration target organisms for the restoration target body 100 are selected in advance, and the quantitative and water quality management standards for each restoration target are set, and Monitoring items can be selected.

The criteria for determining the quantity and quality of water for the restoration target water are stored in the database 60, and the criteria for determination of the quantity and quality of the restoration target water bodies stored in the database 60 are sent to the restoration target water body 100. The evaluation flow rate and the evaluation water quality are determined.

When all of the criteria and other information about the quantity and quality of water are input to the database 60, the available water sources are selected, and the quantity and quality of each water source are monitored and the results are transmitted to the database 60.

When the measurement result of the quantity and water quality of each water source is stored in the database 60, the ecological water integrated management calculation control device 61 determines the quantity and quality of water for the restoration target water inputted to the database 60. Determine the quantity and quality of evaluation according to

In addition, the ecological water integrated management calculation control device 61 creates a preliminary scenario by selecting and combining various water sources 10, 20, 30, 40, and 50. The ecological water integrated management calculation control device 61 may select and combine the water sources according to the order of the mass water source, the high-quality water source order, the low-cost water source order, or a combination of the weighted values for each of them.

When the water source is selected and combined, the ecological water integrated management calculation control device 61 is based on the quantity and quality of the influent water flowing from the plurality of water sources 10, 20, 30, 40, and 50 and the water treatment degree of the water treatment device 80. Simulate an analysis of the quantitative and qualitative water quality conditions of the ecological water that depend on it.

Through this simulation process, changes in water quality over time of water introduced from each combined water source, movement and interaction of general and toxic substances, etc. can be simulated.

When the simulation result is derived, it is determined whether the monitoring result of the monitoring devices 101 and 102 installed at the representative point of the restoration target body 100 and the simulation result of the integrated ecological water management calculation control device 61 are located in the approximate range. To judge. If the simulation and monitoring results are outside the approximate range, the monitoring results can be used to correct the parameters of the hydraulic and water quality models.

If the simulation result is within the approximate range of the monitoring result, the ecological water integrated management calculation control device 61 may determine whether the reference value is satisfied based on the evaluation quantity, the evaluation quality and the evaluation cost which are the criteria according to the quantity, the quality of the water or the cost. Can be.

The determination of whether the threshold is met can be made based on the quantity of assessment, quality of assessment or the cost of the assessment. That is, if the simulation result does not meet any of the evaluation quantity, the quality of the evaluation, or the cost of the evaluation, the analysis requirements are changed to regenerate the spring combination scenario.

By repeating such a process, it is possible to secure an optimum quantity and quality of water, and to operate the water treatment device 80 accordingly.

In the scope of the basic technical spirit of the present invention, many modifications are possible to those skilled in the art, and the scope of the present invention should be interpreted based on the claims which will be described later. .

* Description of the symbols for the main parts of the drawings *
10, 20, 30, 40, 50: multiple water sources
11, 21, 31, 41, 51: monitoring device for each water source
12, 22, 32, 42, 52: pump
13, 23, 33, 43, 53: control valve
60: database 61: integrated control of ecological water management
80: water treatment device 100: water restoration target

Claims (21)

In the management system to secure the ecological water to restore the restoration target body ecologically or environmentally from multiple water sources,
A water treatment device for supplying water from the multiple water sources or performing additional water treatment;
A monitoring device installed in the multiple water source or the restoration target body for measuring information on quantity and water quality;
A database storing information including measurement values measured by the monitoring device and quantitative or water quality conditions related to the species to be restored; and
Ecological water integrated management calculation control for controlling the water treatment device by simulating and analyzing the quantity and water quality of the multiple water sources selected through the measured values measured by the monitoring device, and determining whether the simulation analysis result meets a predetermined standard value Containing device
Ecological water integrated management system using multiple water sources.
The method of claim 1,
The ecological water integrated management calculation control device
Comparing the measured value measured by the monitoring device with the simulation result, and repeatedly changing the combination of the water sources and the operating conditions of the water treatment device so that the simulation result satisfies a predetermined reference value.
Ecological water integrated management system using multiple water sources.
The method of claim 1,
The ecological water integrated management calculation control device
Based on the types of organisms to be restored, the quantity and quality requirements of the organisms to be restored, the watershed and regional characteristics of the waters to be restored, or the operating costs of the ecological water treatment plant, To decide
Ecological water integrated management system using multiple water sources.
The method of claim 1,
The ecological water integrated management calculation control device
The simulation is carried out using the water quality simulation program or the rainfall runoff process simulation program.
Ecological water integrated management system using multiple water sources.
The method of claim 4, wherein
The ecological water integrated management calculation control device
Water quality simulation program or rainfall runoff simulation program consisting of QUAL2K, WASP or SWMM
Ecological water integrated management system using multiple water sources.
The method of claim 4, wherein
The ecological water integrated management calculation control device
Simulation of changes in the quantitative and water quality conditions that occur over time while dwelling or restoring the water bodies to be restored is carried out using a model of HEC-2 and HEC-RAS, or QUAL2K and WASP. The input data is determined by the pre-established input data and the monitoring result by the monitoring device.
Ecological water integrated management system using multiple water sources.
The method of claim 1,
The ecological water integrated management calculation control device
If the monitoring result of the restoration target body transmitted to the database does not satisfy the quantitative condition and the water quality condition suitable for the preset restoration target species, an alarm is generated, the history of the occurrence of the alarm is stored, and the combination of the water source is generated. Changing, presenting the operating conditions of the water treatment device, or automatically changing the operating conditions of the water treatment device
Ecological water integrated management system using multiple water sources.
The method of claim 1,
The monitoring device
Dissolved oxygen concentration (DO), hydrogen ion concentration (pH), water temperature, turbidity, water level, flow rate, flow rate, biological oxygen demand (BOD), chemical oxygen demand (COD), total organic carbon (TOC), total nitrogen (TN) At least one of ammonia (NH ₃ -N), total phosphorus (TP), electrical conductivity (EC), suspended solids (SS), coliform count, trace harmful substances, heavy metals, coloring, oil, journey and pesticides depending on the purpose of monitoring To measure
Ecological water integrated management system using multiple water sources.
In the management method using the management system according to any one of claims 1 to 8 for securing ecological water for ecologically or ecologically restoring the target body of restoration from multiple water sources,
Selecting available water sources and monitoring the quantity and quality of each water source by the monitoring device;
Generating a water source combination scenario by the ecological water integrated management calculation control device by combining one or more of the multiple water sources according to the monitoring result by the monitoring apparatus;
Conducting a simulation analysis on the amount and quality of water source by the ecological water integrated management calculation control device based on the water source combination scenario;
Whether the simulation result is included in an approximate range of the result monitored by the monitoring device by the ecological water integrated management calculation control device, and whether the simulation result satisfies the reference value according to the restoration purpose of the restoration target body. Determine whether or not;
If the simulation results meet the reference value for controlling the water treatment device according to the water source combination scenario
Management method using integrated ecological water management system using multiple water sources.
10. The method of claim 9,
Determining whether the reference value is satisfied
The standard value consists of the assessment quantity, assessment quality or assessment cost determined by the type of organism to be restored, the quantity and quality requirements of the organism to be restored, the watershed and regional characteristics of the water body to be restored, or the operating cost of the ecological water treatment facility. Judged by
Management method using integrated ecological water management system using multiple water sources.
The method of claim 10,
Determining whether the reference value is satisfied
If the simulation analysis result by the integrated ecological water management control device does not meet a predetermined standard value, it is determined whether the standard value is repeatedly met by changing the combination of the water sources and the operating conditions of the water treatment device.
Management method using integrated ecological water management system using multiple water sources.
The method of claim 11,
Determining whether the reference value is satisfied
If the simulation results are not included in the approximate range of the results monitored by the monitoring device, the simulation analysis is repeated by changing the simulation requirements.
Management method using integrated ecological water management system using multiple water sources.
The method of claim 11,
Determining whether the reference value is satisfied
If the quantity based on the simulation result is less than the evaluation quantity, the simulation is repeated by reconstructing the combination of the water sources based on the indicators related to the quantity of the multiple water sources.
Management method using integrated ecological water management system using multiple water sources.
The method of claim 13,
Determining whether the reference value is satisfied
Recombine bulk water sources in sequence,
Add additional sources of supplementary water,
Repeated simulations to replace trace water sources
Management method using integrated ecological water management system using multiple water sources.
The method of claim 11,
Determining whether the reference value is satisfied
When the water quality of the simulation results is less than the evaluation water quality, the simulation is repeated by reconstructing the combination of the water sources based on the indicators related to the water quality of the multiple water sources.
Management method using integrated ecological water management system using multiple water sources.
16. The method of claim 15,
Determining whether the reference value is satisfied
Exclude low water sources,
To replace low-quality water sources,
Addition of high quality water source to repeat simulation
Management method using integrated ecological water management system using multiple water sources.
The method of claim 11,
Determining whether the reference value is satisfied
When the cost of the simulation results exceeds the evaluation cost, the simulation is repeated by reconstructing the combination of the sources based on the indicators related to the costs of the multiple sources.
Management method using integrated ecological water management system using multiple water sources.
The method of claim 17,
Determining whether the reference value is satisfied
Exclude expensive water sources,
Add additional low cost water sources and repeat the simulation
Management method using integrated ecological water management system using multiple water sources.
10. The method of claim 9,
The step of performing a simulation analysis on the quantity and quality of the water source
The simulation is conducted using a water quality simulation program or rainfall runoff simulation program composed of QUAL2K, WASP, or SWMM, and the input data of the model is determined by pre-established input data and monitoring results by the monitoring device.
Management method using integrated ecological water management system using multiple water sources.
20. The method of claim 19,
The step of performing a simulation analysis on the quantity and quality of the water source
Simulation of changes in the quantitative and water quality conditions that occur over time while dwelling or restoring the water bodies to be restored is carried out using a model of HEC-2 and HEC-RAS, or QUAL2K and WASP. The input data is determined by the pre-established input data and the monitoring result by the monitoring device.
Management method using integrated ecological water management system using multiple water sources.
10. The method of claim 9,
Controlling the water treatment device
When the monitoring result of the restoration target body does not satisfy the quantitative condition and the water quality condition suitable for the preset restoration target species, an alarm is generated, the alarm generation history is stored, and the combination of the water source is changed, or Presenting an operating condition of the water treatment device or automatically changing the operating condition of the water treatment device;
Management method using integrated ecological water management system using multiple water sources.

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