KR100788450B1 - Energy management system of environment foundation management equipment using network - Google Patents

Abstract

A system for managing energy of basic environment processing equipment in the network is provided to present an efficient management plan of a water processing plant by calculating/comparing required power with a processing efficiency of a plurality of water processing plants based on an operation state collected in real-time. An efficiency comparer(80) determines the efficiency of a water processing unit(20) and an operation equipment unit(11) by receiving/comparing data such as operation power, operation time, and operation history managed in an operation manager(70). A population calculator checks population of a predetermined area by calculating estimating influent discharged from one equivalent population based on the data of the efficiency comparer. The operation manager includes a rainfall input part for checking a seasonal water processing efficiency by considering weather of a region including the water processing plant. The efficiency comparer includes a cost evaluator, a performance evaluator, and a period evaluator.

Description

Energy management system of environmental foundation processing equipment using network {ENERGY MANAGEMENT SYSTEM OF ENVIRONMENT FOUNDATION MANAGEMENT EQUIPMENT USING NETWORK}

1 is a conceptual diagram for explaining the whole of the present invention.

Figure 2 is a block diagram showing an energy management system of the water treatment facility using a network according to an embodiment of the present invention.

3 is a block diagram of a water treatment unit applied to the present invention.

Figure 4 is a block diagram of a driving management unit applied to the present invention.

5 is a block diagram of a water quality measurement unit applied to the present invention.

Figure 6 is a block diagram showing a population calculation unit, precipitation input unit and efficiency comparison unit applied to the present invention.

7 is a monitor screen showing the energy management system of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: influent water storage unit 11: operation equipment

20: water treatment unit 30: power meter

40: driving recorder 50: driving history

60: water quality measurement unit 70: operation management unit

80: efficiency comparison 90: data storage

The present invention relates to an energy management system of a water treatment facility using a network.

In the present invention, the network includes the Internet, mobile, wireless communication and wired communication.

In general, the field facilities of water treatment plants such as water treatment plants, sewage treatment plants, wastewater treatment plants, manure treatment plants, and livestock treatment plants are installed at locations far from the central monitoring room. And the system was built in hardware so that it can be monitored and controlled through the switch board.

However, long-distance facilities such as reservoirs, pressurized pumps, and relay pumps are used to display data signals transmitted from the above facilities on the display panel installed in the central control room through the site monitoring and control device using a telephone line. Since the output point is fixed, there is a problem in that an economic burden that requires a separate unit is required to expand the internal equipment and system expansion of the water treatment plant.

In addition, there is a limit to the expansion of the display part of the display panel installed in the designated space, and it is a degree that simply displays the operation status of the water treatment facility and the on-site measurement status with the lamp or indicator of the display panel. There is a problem that it is not known whether the failure or the proper operation of the equipment.

The conventional system simply displays the operation status of the water treatment equipment through the lamp of the display panel, so it is impossible to recognize the exact situation of all the measurement control equipment and the treatment equipment operation of the water treatment plant. There is a difficult problem.

In addition, there is a structural problem that does not accurately grasp the current status of the water treatment plant does not increase or decrease the equipment of the water treatment plant.

The present invention has been made to solve the problems of the prior art, the object of the present invention is to collect the operating status of the water treatment facility in real time to calculate the power consumption and treatment efficiency of a plurality of treatment plants, the required power calculated for each treatment plant In addition, the present invention provides an energy management system for water treatment facilities using a network capable of comparing treatment efficiency and suggesting an efficient operation plan of a treatment plant.

The present invention for implementing the object of the present invention and the influent water inlet; The inflow water is stored in the inflow water storage unit and the inflow water is introduced into the inflow water storage unit to discharge the treated water discharged, the pump unit for discharging the discharge water, the valve unit for opening and closing the pump unit, the water treatment in the inflow water storage unit At least one water treatment unit comprising a blower for supplying air from the inflow water, and a dewatering unit for dewatering sludge generated during the water treatment; An operation facility unit which indirectly supports the inflow water storage unit; Based on the data management unit and the data management unit for managing the power, the operation record, the operation history checked in the power meter, the driving recorder, the operation history unit to measure the power used by the water treatment unit and the operation equipment unit and data; A power meter comprising a cost calculator for calculating a required cost and a data processor for statistically comparing / evaluating data managed by the data manager for each predetermined time; A driving recorder for managing an operating time of the water processor; An operation history unit for inputting and comparing a product name, a manufacturing date, an installation date, a usage period, and a failure history for each device used in the inflow water storage unit and the water treatment unit, and displaying and managing them in the order of good devices; An inflow measuring unit for measuring the water quality in the inflow water and processing the measured value so as to measure the water quality of the inflow water introduced from the water treatment unit and the discharged water discharged from the water treatment unit, and the measurement measured in the inflow measurement unit Inflow water quality statistics unit for statistically processing the value by a predetermined time, an emission measuring unit for measuring the water quality from the discharged water and processing the measured value, and discharge for statistical processing for a predetermined time the measured value measured in the discharge measuring unit Water quality consisting of a water quality calculation unit that calculates the cost of water quality by comparing and calculating the amount of power used for inflow and discharge calculated by the management unit, the inflow and discharge, and the measured values processed by the inflow water quality statistics unit and the discharge water quality statistics unit A measuring unit; An operation manager for managing the electric power used, the operation time, and the operation history of the water treatment unit; In the energy management system of the environment-based processing equipment using a conventional network comprising a data storage unit for storing each data measured and managed by the water treatment unit, power meter, driving recorder, water quality measurement unit, operation management unit and efficiency comparison unit ,
An efficiency comparison unit configured to determine the efficiency of the water treatment unit and the operation facility unit by receiving and comparing data such as power used, operation time, and operation history managed by the operation manager; Computing the data of the management unit calculates the estimated influent discharged by one equivalent population, characterized in that it further comprises a population calculation unit for grasping the number of inhabitants of a specific area.
In the present invention, the network refers to Internet equipment to exchange and provide mutual information (operation history, amount of electricity, required cost, etc.) of environmental basic facilities having water treatment for each region.

In the present invention, the environmental foundation means a water treatment facility for treating purified water, waste water, rainwater, sewage, livestock manure, waste leachate.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a conceptual diagram for explaining the whole of the present invention.

As shown in FIG. 1, the present invention manages the amount of power consumed according to the water quality improvement and the flow rate of the water treatment facility and is converted into the required cost. These data are transmitted over the network to higher level organisations, whereby data from each water treatment plant are compared, diagnosed, managed and presented to the manager.

2 is a block diagram showing an energy management system of a water treatment facility using a network according to an embodiment of the present invention.

As shown in FIG. 2, the present invention provides an influent water storage unit 10 into which influent water is introduced; At least one water treatment unit 20 for treating the inflow water stored in the inflow water storage unit 10 and discharging the treated water; A movable facility unit 11 indirectly supporting the inflow water storage unit 10; A power meter 30 for measuring the power used by the water treatment unit 20 and the operation facility unit 11; A driving recorder 40 for managing an operating time of the water processor 20; A driving history unit 50 for managing a driving history of the water treatment unit 20; A water quality measuring unit 60 measuring water quality of the inflow water introduced from the water treatment unit 20 and the discharged water discharged from the water treatment unit 20; An operation manager 70 for managing the power used, the operation time, and the operation history of the water treatment unit 20; An efficiency comparison unit 80 for determining the efficiency of the water treatment unit 20 and the operation facility unit 11 by receiving and comparing data such as power used, operation time, and operation history managed by the operation management unit 70; Data storage for storing the respective data measured and managed by the water treatment unit 20, power meter 30, driving recorder 40, water quality measurement unit 60, operation management unit 70 and efficiency comparison unit 80 A portion 90 is included.

Here, the influent is a constant or sewage, rainwater, waste water to be treated.

In addition, the movable equipment unit 11 corresponds to a building equipment, and means equipment using electricity such as lighting equipment, communication equipment, ventilation equipment, water supply and hot water supply equipment, air-conditioning equipment for heating and cooling, boiler, electrical equipment, and the like. .

At this time, the lighting equipment illuminates the water treatment unit 20, the communication equipment transmits the state of the water treatment unit 20, etc. to a higher-level institution, the ventilation equipment supplies air for ventilation in the water treatment unit 20, water supply And hot water supply facilities, and air conditioning equipment boilers for heating and cooling are used in winter.

In addition, the water treatment unit 20 may apply to any one of a water purification plant, a sewage treatment plant, a wastewater treatment plant, a manure treatment plant, a livestock treatment plant to treat the influent water introduced from each treatment plant.

In addition, the electricity meter 30, the driving recorder 40, and the driving history unit 50 check the respective devices (not shown) used in the water treatment units 20 or the water treatment unit 20.

In addition, the method of measuring the water quality in the water quality measurement unit 60 is turbidity measurement, DO (dissolved oxygen amount) measurement, BOD (biological oxygen demand) measurement, COD (chemical oxygen demand) measurement, the concentration of nitric acid or phosphoric acid dissolved in water Measurement and the like can be optionally used. The measurement result measured by the water quality measurement unit 60 is converted into data and stored in the data storage unit 90.

In addition, the efficiency comparison unit 80 compares the data generated by the plurality of water treatment unit 20 to determine the order of high or low water treatment efficiency. In other words, the water treatment unit 20 having good efficiency is determined by comparing low power consumption, low operating time, and high water quality.

In addition, power consumption and uptime can be calculated as costs, and costs can be calculated in units of months and years.

In addition, the order of the water treatment units 20 may be arranged by comparing the efficiency of water quality improvement based on the driving history, that is, the period of use.

3 is a block diagram of a water treatment unit applied to the present invention.

As shown in FIG. 3, the water treatment unit 20 includes a pump unit 21 for introducing inflow water into the inflow water storage unit 10 and discharging the discharge water; A valve part 23 for opening and closing the pump part 21; A blower 25 for supplying air from the influent water treated by the influent water storage unit 10; It comprises a dewatering portion 27 for dewatering the sludge generated during the water treatment.

Here, the electricity meter 30 measures the power used in the pump unit 21, the valve unit 23, the blower unit 25, and the dewatering unit 27, respectively, and provides the power management unit 70.

 In addition, the driving recorder 40 records the operating time of the pump unit 21, the blower 25, and the dewatering unit 27, respectively, and provides them to the operation manager 70.

4 is a block diagram of a driving management unit applied to the present invention.

As shown in FIG. 4, the operation manager 70 is a data manager configured to manage the power, driving record, and driving history checked by the electricity meter 30, the driving recorder 40, and the driving history unit 50. 71; A cost calculation unit (73) for calculating a required cost based on the data managed by the data management unit (71); The data management unit 71 is configured to include a data processing unit 75 for statistical processing by comparing / evaluating the data managed by a predetermined time.

Here, the data manager 71 divides each data into a predetermined time, that is, day, month, and year, and stores the data in the data storage unit 90.

The cost calculator 73 calculates the used power as a cost. At this time, it is calculated for each water treatment unit 20 and the device. At this time, the devices are the pump unit 21, the valve unit 23, the blowing unit 25, the dehydration unit (27).

As described above, the calculated costs are compared and evaluated in the data processing unit 75, respectively, and displayed in the order of efficiency.

The operation history unit 50 inputs a product name, a manufacturing date, an installation date, a usage period, and a failure history for each device used in the inflow water storage unit 10 and the water treatment unit 20, and compares the order of good devices. It is characterized in that the management.

The driving history managed by the driving history unit 50 is a product name, a manufacturing date, an installation date, a period of use, a failure history, and the like corresponding to the devices.

As such, by comparing and evaluating the input history to identify and manage the durability status.

5 is a block diagram of a water quality measurement unit applied to the present invention.

As shown in FIG. 5, the water quality measuring unit 80 includes an inflow measuring unit 81 for measuring water quality in the influent and processing measured values; An inflow measurement and statistics unit 83 for statistically processing the measured value measured by the inflow measurement unit 81 at predetermined times; A discharge water quality unit 85 for measuring the water quality in the discharge water and processing the measured measurement value; An emission water quality statistics unit 87 for statistically processing the measured value measured by the emission measurement unit 85 for each predetermined time; Calculate the cost of water to calculate the water quality cost by comparing and calculating the amount of power used for the inflow and discharge calculated by the management unit 70 and the measured values processed by the inflow water statistics unit 83 and the discharge water quality statistics unit 87. It is comprised including the part 89.

Here, the water quality measurement unit 80 calculates power consumption per water quality (removal water quality / total power consumption), power source unit calculation per water quality (distribution power amount / power consumption per water quality).

In addition, since the water quality calculation unit 89 needs to operate the water treatment unit 20 for a long time in order to increase the water quality, it is possible to calculate the required cost according to the operation amount of the water treatment unit 20. Therefore, it is possible to determine the concentration of the water quality, that is, the efficiency of the water treatment, by calculating the amount of influent and the water treatment time.

As such, by comparing and calculating the water quality of the inflow water and the water quality of the discharge water, the appropriate operation rate of the water treatment unit 20 according to the amount of the inflow water may be determined to properly drive the water treatment unit 20 according to the amount of the inflow water.

6 is a block diagram showing a population calculation unit, a precipitation input unit and an efficiency comparison unit applied to the present invention.

As shown in FIG. 6, the number of inhabitants of a specific region is determined by calculating the amount of power consumed and the amount of inflow provided by the water treatment unit 20 and the estimated amount of inflow discharged by one population through the operation management unit 70. It is preferable to further include a population calculation unit 100 to.

Here, the population calculation unit 100 calculates the equivalent population calculation (water quality removal / discharge unit), the power consumption per equivalent population (total power consumption / equivalent population), and the calculation of the power source unit per equivalent population (distribution power / equivalent power consumption). Can be calculated

As such, the influent storage unit 10, the water treatment unit 20, the pump unit 30, and the blower unit may be calculated by pre-calculating the expected influent that may be generated according to the population number of the specific region by using the population calculation unit 100. The increase setting diagram of 40) can be calculated.

It is preferable to further include a precipitation input unit 200 in the management unit 70 to determine the water treatment efficiency for each season in consideration of the weather in the area where the water treatment unit 20 is installed.

Here, the precipitation is the total amount of rain, snow, hail, etc., which has been reduced to a certain place for a predetermined period of time, and affects the efficiency of the water treatment unit 20.

Therefore, it is possible to grasp the treatment efficiency of the water treatment unit 20 for each region by using the precipitation input unit 200, and the expansion of the water treatment unit 20 can be planned as necessary for the region using such data. .

As shown in FIG. 6, the efficiency comparison unit 80 receives data managed by the operation management unit 70 to evaluate the required cost used by the water treatment unit 20 and the operation facility unit 11. A cost evaluation unit 81; A performance evaluation unit (83) which receives data managed by the operation management unit (70) and compares and evaluates the performances of respective devices used in the water treatment unit (20) and the operation facility unit (11); The cost evaluation unit 81 and the performance evaluation unit 83 is configured to include a period evaluation unit 85 for comparing and evaluating for each period of day, month, year unit.

At this time, the equipment is used in the pump unit 21, the valve unit 23, the blowing unit 25, the dehydration unit 27 and the movable installation unit 11 using the lighting equipment, communication equipment, ventilation equipment, water supply and Hot water supply facilities, air conditioning facilities for heating and cooling.

In this way, the performance and efficiency of each water treatment unit 20 may be comprehensively evaluated through the evaluation evaluated by the cost evaluation unit 81, the performance evaluation unit 83, and the period evaluation unit 85. Therefore, the evaluated data is transmitted to the senior organization and managed. At this time, each data transmitted for each region is compared and evaluated again and managed in order of the region having high water treatment efficiency.

As such, by searching for the water treatment unit 20 which is less efficient than the power consumption and the operating time by the data to be compared and evaluated, and deriving a problem with the searched water treatment unit 20 to be referred to the user and reflected in the facility operation can do.

7 is a monitor screen showing the energy management system of the present invention.

As shown in FIG. 7, the power consumption of the pumping and building equipment used for moving the water quality improvement (SS, BOD, TP, TN) and flow rate transmitted from the water treatment facilities (AN) on the monitor screen of the superior institution. Is displayed and the power consumed by each treatment plant and the cost converted into power are displayed.

Such an embodiment of the present invention can monitor and calculate a water treatment facility, which is an environmental foundation, in real time to collect and manage water treatment information to efficiently operate the water treatment facility, and to increase or decrease the water treatment facility using the calculated water treatment information. In addition, it is possible to plan the size of water treatment facilities to be applied to new cities by grasping the water treatment information.

Although the preferred embodiments of the present invention have been described in detail above, those of ordinary skill in the art to which the present invention pertains may implement the present invention by various modifications or design changes without departing from the scope of the claims. In case it is regarded as the scope of the present invention.

According to the present invention, the operational status of the water treatment facility can be collected in real time to calculate the power consumption and treatment efficiency of a plurality of treatment plants, and the efficient operation plan of the treatment plant can be presented by comparing the power consumption and treatment efficiency calculated for each treatment plant. There is an advantage.

In addition, the present invention can plan the increase and decrease of the water treatment facility by using the water treatment information, it is possible to plan in advance the scale of the water treatment facility to be applied to the new city by calculating the population of the new city and the climate of the new city in advance.

As described above, the present invention is a very useful invention that can measure and determine the size of the newly installed water treatment facility through a computer and a network by utilizing the water treatment history provided by the water treatment facilities of each region.

In addition, it is an invention that can increase the efficiency of the water treatment facility by deriving and presenting the operation plan of the water treatment facility having a low efficiency by comparing the water treatment facilities in use.

Claims (8)

delete delete delete delete delete An influent water storage unit 10 into which influent water is introduced; The pump unit 21 and the pump unit 21 for introducing the inflow water into the inflow water storage unit 10 to discharge the treated water and to treat the inflow water stored in the inflow water storage unit 10 and to discharge the treated water; At least one consisting of a valve unit 23 for opening and closing, a blower unit 25 for supplying air from the influent water treated by the influent water storage unit 10, and a dewatering unit 27 for dewatering sludge generated during the water treatment. The above water treatment unit 20; A movable facility unit 11 indirectly supporting the inflow water storage unit 10; Data and management of the power, driving record, and driving history checked by the power meter 30, the driving recorder 40, and the driving history unit 50 to measure the power used by the water treatment unit 20 and the operation facility unit 11 Comparing the data management unit 71, the cost calculation unit 73 that calculates the required cost based on the data managed by the data management unit 71, and the data managed by the data management unit 71 for a predetermined time. A power meter 30 composed of a data processor 75 for evaluating and processing statistics; A driving recorder 40 for managing an operating time of the water processor 20; Operation history section to display and manage the product name, manufacturing date, installation date, usage period, failure history for each device used in the inflow water storage unit 10 and the water treatment unit 20 and compare them in order of good devices 50; An inflow measuring unit 61 measuring water quality in the inflow water and processing measured values so as to measure the water quality of the inflow water introduced from the water treatment unit 20 and the discharged water discharged from the water treatment unit 20; , An inflow water statistics unit 63 for statistically processing the measured value measured by the inflow measurement unit 61 for a predetermined time, an emission measurement unit 65 for measuring the water quality in the discharged water and processing the measured measurement value; In addition, the discharge water quality statistics unit 67 for statistically processing the measured value measured by the discharge measurement unit 65 for a predetermined time, the amount of power used for the inflow and discharge calculated by the management unit 70, and the inflow water quality statistics unit A water quality measurement unit 60 comprising a water quality cost calculation unit 69 which calculates a water quality treatment cost by comparing and calculating the measured values processed by the 63 and the discharge water quality statistics unit 67; An operation manager 70 for managing the power used, the operation time, and the operation history of the water treatment unit 20; Data storage for storing the respective data measured and managed by the water processor 20, power meter 30, driving recorder 40, water quality measurement unit 60, operation management unit 70 and efficiency comparison unit 80 In the energy management system of the environment-based processing equipment using a conventional network comprising a unit 90, An efficiency comparison unit 80 for determining the efficiency of the water treatment unit 20 and the operation facility unit 11 by receiving and comparing data such as power used, operation time, and operation history managed by the operation management unit 70; Calculating the data of the management unit 70 calculates the estimated influent discharged by one equivalent population, the population calculation unit 100 for grasping the number of inhabitants in a specific region, the environment-based processing equipment using a network Energy management system. According to claim 6, Environmental basic processing equipment using a network further comprising a precipitation input unit 200 in the operation management unit 70 to determine the water treatment efficiency by season in consideration of the weather in the area where the water treatment unit 20 is installed Energy management system. The method of claim 6, wherein the efficiency comparison unit 80 A cost evaluation unit 81 which receives data managed by the operation management unit 70 and compares and evaluates the required costs used by the water treatment unit 20 and the operation facility unit 11; A performance evaluation unit (83) which receives data managed by the operation management unit (70) and compares and evaluates the performances of respective devices used in the water treatment unit (20) and the operation facility unit (11); Energy of the environmental foundation processing facility using a network including a period evaluator 85 for evaluating and comparing the data evaluated by the cost evaluator 81 and the performance evaluator 83 for each period of days, months, and years. Management system.

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