KR102229412B1 - Peak power management system for overload protection. - Google Patents

Abstract

The present invention provides a power generation unit 100 for generating electric energy in a power management system capable of supplying electric energy to homes and businesses; and a power supply unit 200 for managing and distributing the electric energy to supply the electric power to the household; and the electric power A power monitoring module 240 that collects power usage information in real time from the supply unit 200; and a data analysis module that analyzes the power usage collected from the power monitoring module 240 by period and time to predict peak power generation. (250); And a control unit 260 for controlling the power energy managed by the power supply unit 200 according to the peak power generation predicted from the data analysis module; And the cost for the amount of power used for a certain period of time in the home A usage fee calculation module 270 that calculates; Including, but the control unit 260 is for preventing overloading that can prevent peak power generation by partially blocking the power energy supplied to the home when the power consumption for the total amount of power produced at the predicted time is greater than or equal to a predetermined range. It relates to a peak power management system.

Description

Peak power management system for overload protection when operating a load facility. {Peak power management system for overload protection.}

The present invention relates to a peak power management system for preventing overloading, and more particularly, by collecting and analyzing power usage information, the peak power generation is predicted, and the power usage for the total amount of power produced at the predicted time point is determined. The present invention relates to a peak power management system for preventing overload, which can effectively prevent overload due to peak power by cutting off some of the power supplied to the home when it is above the range.

As the power demand due to industrial development is increasing year by year, it is necessary to minimize the waste of resources and improve the accuracy of power demand, thereby requiring optimal investment and efficient operation of power facilities.

Due to this necessity, in order to manage the power of a power facility, efficient use of a load acts as an essential factor, and a plan to reduce peak power generated at a certain point in which the amount of power consumption increases is being devised.

According to Korean Patent Application No. 10-2008-0125866, if the power demand of the load facility is predicted to exceed the preset limit while monitoring the trend of power consumed by the operation of the load facility in real time, among the load facilities A peak power management method is provided to prevent the peak power from exceeding the target value by temporarily suspending some operations.

However, the conventional system for reducing peak power has a limitation on the reduction of peak power, and has a problem in that it is difficult to efficiently share the power energy supplied to the country.

The present invention is to solve the above-described problem, and when the predicted power usage approaches the peak value by predicting the occurrence of peak power, the overload due to the occurrence of peak power is prevented by partially limiting the power use of not only enterprises but also households at that time. To prevent it,

In addition, the purpose of this is to reduce the cost of using electricity charged to the household only to households that agreed to cut off some of the electric power at the time of peak power generation, so that the optimum air conditioning effect can be obtained from the household.

However, the object of the present invention is not limited to the above-mentioned object, and another object not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides a power generation unit 100 for generating power energy in a power management system capable of supplying power energy to homes and businesses; and a power supply unit that manages and distributes the power energy and supplies it to the home. (200); And a power monitoring module 240 for collecting power usage information in real time from the power supply unit 200; And peak power generation by analyzing the power usage collected from the power monitoring module 240 by period and time A data analysis module 250 for predicting a data analysis module; and a control unit 260 for controlling the power energy managed by the power supply unit 200 according to the peak power generation predicted from the data analysis module; and at the home for a certain period of time A usage fee calculation module 270 that calculates a cost for the amount of electricity used during the period; Including, but the control unit 260 prevents peak power generation by partially blocking the power energy supplied to the home when the power consumption for the total amount of power produced at the predicted time point exceeds a predetermined range.

In order to prevent the peak power generation, power usage information is obtained from the power monitoring module, and power usage is predicted for the total amount of power produced by using the power usage information, and the predicted result is produced from the power generation unit 100. When the power usage exceeds a predetermined range with respect to the total amount of power produced, control to prevent the occurrence of peak power is started.

In this case, the cut-off of power cuts off the power energy supplied to the home only to households that have agreed to cut off some of the power, thereby reducing the total amount of power used.

In addition, the power monitoring module 240 collects and stores the amount of power supplied and the amount of power used at regular time intervals, and converts it into a graph to predict the amount of power energy used by period and time.

In addition, the power supply unit 200; a database 210 for storing information on a household receiving power; and a transmission/reception unit 220 for transmitting and receiving a power cut guide message or a power cut consent message to the home; And A supply line 230 for supplying the electric power produced by the electric power generation unit 100 to the household; including, but the database 210 is a list of households that have agreed to partially cut off electric power at the time of peak electric power generation; and It stores the power usage information collected through the power monitoring module.

In addition, the household power supply line 230, which has agreed to cut off some power, includes a first supply line 231 connected to supply electricity to commercial devices in the home; and a first supply line for supplying electricity to necessary devices other than the commercial devices. 2 supply line 232; includes.

In addition, when it is predicted from the data analysis module 250 that the power usage is more than a predetermined range with respect to the total amount of power produced, the data analysis module 250 stores a list of assumptions that have agreed to partially cut off the power. Read from

In addition, the data analysis module transmits the read home list to the transmission/reception unit 220.

Also, above Transmitting and receiving unit 220 transmits a confirmation message, whether electric energy block agree to each home are included in the read home list.

In addition, when the transceiver 220 is an agreement result from the home receives the confirmation message if a power cutoff consent received and stores the result in the database 210. The

In addition, the control unit 260 transmits the consent result from the assumptions that the power cut consent confirmation message is received to the database 210 when the power consumption for the total amount of power produced at the predicted time point is greater than or equal to a predetermined range. Request and receive a list of households, cut off the power energy supplied through the second supply line 232 of the household included in the list, and when the predicted time ends, the second supply of the electric energy is cut off Resupply power energy to the line.

In addition, the power monitoring module 240 calculates the time between when the power energy supplied through the second supply line is cut off and the predicted time is terminated and the power energy is resupplied to the second supply line. Then, it is stored in the database 210.

In addition, the usage fee calculation module 270 calculates the amount of power saved as power is cut off from the database 210 in the assumption that the power cut is agreed, but the saved amount is the time when the power is cut off ( h)* It is characterized in that it is the average power consumption (kw/h) of the second supply line.

In addition, the usage fee calculation module 270 calculates the total amount of energy saved by adding (basic energy savings (kw) * number of power cuts) to the amount of energy saved, and subtracts the total amount of energy saved from the total amount of electricity used for a certain period of time, and bills it. Calculate the amount of electricity.

In addition, the data analysis module calculates the average power consumption of the second supply line 232 based on information collected by the power monitoring module 240 of the power consumption trend of the second supply line 232.

In addition, the amount of power produced by the power generation unit 100 is proportional to the amount of power used by the data analysis module 250.

In addition, the power generation unit 100 generates power by using thermal power, hydropower, nuclear power, and other power generation means, but the amount of power produced by each of the power generation means is produced to have a certain production ratio, and each of the power generation means The production rate of electricity produced by the plant is characterized by gradually decreasing in the order of nuclear energy, hydro energy, and thermal energy.

Features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary meaning, and the inventor may appropriately define the concept of terms in order to describe his own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

As described above, according to the present invention, peak power generation and overloading can be prevented by predicting the time when peak power occurs, and by blocking some of the power supplied to homes as well as power supplied to companies with large power consumption at that time. Not only is there an effect that can be achieved, but only the households who have agreed to cut off some of the power at the time of the peak power generation can reduce the electricity consumption bill charged to the household, thereby obtaining the optimal air conditioning effect from the household. have.

1 schematically shows the configuration of a peak power management system for preventing overloading of the present invention.
2 is a flow chart showing a method of preventing generation of peak power according to the present invention.
3 is a flowchart illustrating a power cut-off process of the peak power management system for preventing overloading according to the present invention.
4 is a flowchart illustrating a process of calculating a power usage cost for a household who has agreed to cut off power.
FIG. 5 schematically shows the change in monthly power consumption and the production cost of power produced by the power generation means.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are merely illustrative of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention, and Embodiments including elements that can be substituted as equivalents in elements may be included in the scope of the present invention.

1 schematically shows the configuration of a peak power management system for preventing overload of the present invention.

Referring to FIG. 1, the present invention relates to a power generation unit 100 that generates power energy in a power management system capable of supplying power energy to homes and businesses; and a power supply unit 200 that manages and distributes the power energy and supplies it to the home. ); and a power monitoring module 240 that collects power usage information in real time from the power supply unit 200; and the power usage collected from the power monitoring module 240 is analyzed by period and time to predict peak power generation A data analysis module 250 to perform; and a control unit 260 for controlling power energy managed by the power supply unit 200 according to the peak power generation predicted from the data analysis module; and A usage fee calculation module 270 that calculates a cost for the amount of electricity; Including, but the control unit 260 prevents peak power generation by partially blocking the power energy supplied to the home when the power consumption for the total amount of power produced at the predicted time point exceeds a predetermined range.

In addition, the power monitoring module 240 collects and stores the amount of power supplied from the power supply unit and the amount of power used in the home at regular time intervals.

And the power monitoring module is characterized in that it is possible to predict the power energy usage by period and time by graphing the power supply amount and power usage data collected above, as well as to predict the power energy usage that surges at a certain point in time.

In addition, the power supply unit 200; a database 210 for storing information on a household receiving power; and a transmission/reception unit 220 for transmitting and receiving a power cut guide message or a power cut consent message to the home; And It includes; a supply line 230 for supplying the power produced by the power generation unit 100 to the home.

In the above, the database 210 stores a list of households that have agreed to partially cut off power at the time of peak power generation, and power usage information collected through the power monitoring module.

In addition, the household power supply line 230, which has agreed to cut off some power, includes a first supply line 231 connected to supply electricity to commercial devices in the home; and a first supply line for supplying electricity to necessary devices other than the commercial devices. 2 supply line 232; includes.

2 is a flow chart showing a method of preventing peak power generation according to the present invention.

Referring to FIG. 2, the present invention obtains power usage information from the power monitoring module to prevent peak power generation, uses the power usage information to predict power usage for the total amount of power produced, and the predicted result is When the power consumption exceeds a predetermined range with respect to the total amount of power produced by the power generation unit 100, control for preventing the occurrence of peak power is started.

In this case, the cut-off of power cuts off the power energy supplied to the home only to households that have agreed to cut off some of the power, thereby reducing the total amount of power used.

3 is a flowchart illustrating a power cut-off process of the peak power management system for preventing overload of the present invention.

When it is predicted from the data analysis module 250 that the power usage is more than a predetermined range with respect to the total amount of power produced, the data analysis module 250 provides a list of assumptions that have agreed to partially cut off the power from the database 210. Read.

In addition, the data analysis module transmits the read home list to the transmission/reception unit 220.

Also, above Transmitting and receiving unit 220 transmits a confirmation message, whether electric energy block agree to each home are included in the read home list.

In addition, when the transceiver 220 is an agreement result from the home receives the confirmation message if a power cutoff consent received and stores the result in the database 210. The

In addition, the control unit 260 transmits the consent result from among the assumptions that the power cut consent confirmation message is received to the database 210 when the power usage for the total amount of power produced at the predicted time point is greater than a predetermined range. Request and receive a list of households, cut off the power energy supplied through the second supply line 232 of the household included in the list, and when the predicted time ends, the second supply of the electric energy is cut off Re-supply power energy to the line.

In addition, the power monitoring module 240 calculates the time between when the power energy supplied through the second supply line is cut off and the predicted time is terminated and the power energy is resupplied to the second supply line. Then, it is stored in the database 210.

FIG. 4 is a flowchart illustrating a process of calculating the power usage cost of a household agreeing to cut off power.

Referring to FIG. 4, the usage fee calculation module 270 calculates the amount of power saved as power is cut off from the database 210 in the assumption that the power cut is agreed, but the saved amount of power is cut off. Time (h) * It is characterized in that the average power consumption (kw / h) of the second supply line.

In addition, the usage fee calculation module 270 calculates the total amount of energy saved by adding (basic energy savings (kw) * number of power cuts) to the amount of energy saved, and subtracts the total amount of energy saved from the total amount of electricity used for a certain period of time, and bills it. Calculate the amount of electricity.

In addition, the data analysis module calculates the average power consumption of the second supply line 232 based on information collected by the power monitoring module 240 of the power consumption trend of the second supply line 232.

In addition, the assumption that agrees to receive the power cut consent confirmation message above can always apply a discount rate of a certain percentage to the total amount of electricity used for a certain period of time, and the optimal air conditioning effect from the above assumptions by reducing the cost of use. Can be obtained.

FIG. 5 schematically shows a change in monthly power consumption and a production cost of power produced by the power generation means.

Referring to (a) of FIG. 5, it can be seen that power consumption rises sharply between July and September, and December to January, when the temperature drops or rises sharply.

In addition, the amount of power produced by the power generation unit 100 is proportional to the amount of power used by the data analysis module 250.

Referring to Figure 5 (b), the power generation unit 100 generates power by using thermal power, hydropower, nuclear power and other power generation means, but the amount of power produced by each of the power generation means is produced so as to have a certain production ratio. And the production ratio of the electric power produced by each of the electric power generation means is characterized in that it gradually decreases in the order of nuclear energy, hydro energy, and thermal energy.

Although the present invention has been described in detail through specific examples, this is for describing the present invention in detail, and the present invention is not limited thereto, and within the technical idea of the present invention, by those of ordinary skill in the art. It is clear that modifications or improvements are possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

100 power generation department
200 power supply
210 databases
220 Transceiver unit
230 supply line
231 1st supply line
232 2nd supply line
240 power monitoring module
250 Data Analysis Module
260 control unit
270 Payout calculation module

Claims (11)

In the power management system that can supply power energy to homes and businesses
Power generation unit 100 for generating power energy; And
A power supply unit 200 for managing and distributing the power energy and supplying it to the home; And
A power monitoring module 240 for collecting power usage information in real time from the power supply unit 200; And
A data analysis module 250 for predicting peak power generation by analyzing power usage collected from the power monitoring module 240 by period and time; and
A control unit 260 for controlling power energy managed by the power supply unit 200 according to the generation of peak power predicted by the data analysis module; and
A usage price calculation module 270 that calculates a cost for the amount of electricity used in the home for a certain period of time; Including
The control unit 260 prevents peak power generation by partially blocking the power energy supplied to the home when the power consumption for the total amount of power produced at the predicted time point exceeds a predetermined range,
The power supply unit 200;
A database 210 that stores information on households receiving power; and
Transmitting and receiving unit 220 for transmitting and receiving a power cut guide message or a power cut consent message to the home; And
Includes; a supply line 230 for supplying the power produced by the power generation unit 100 to the home,
The database 210 stores a list of assumptions that have agreed to partially cut off power at the time of peak power generation; and power usage information collected through the power monitoring module; and assumes that the power is partially cut off. The power supply line 230 of the
A first supply line 231 connected to supply electricity to commercial devices in the home; and
And a second supply line (232) for supplying electricity to necessary devices in addition to the commercial devices.
The method of claim 1
To prevent peak power generation
Obtaining power usage information from the power monitoring module, and
Using the power usage information, predicting power usage for the total amount of power produced,
If the predicted result is that the power consumption exceeds a predetermined range with respect to the total amount of power produced by the power generation unit 100, control for preventing the occurrence of peak power is started.
The cut-off of the electric power is limited to the household agreeing to cut off some of the electric power, the peak power management system for preventing overload, characterized in that the total power consumption is reduced by cutting off the power energy supplied to the household. According to claim 2
The power monitoring module 240 is a peak power management system for preventing overload, characterized in that for collecting and storing the power supply amount and power consumption at regular time intervals, and graphing the power energy consumption by period and time. delete delete The method of claim 1
When it is predicted from the data analysis module 250 that the power usage will be more than a predetermined range with respect to the total amount of power produced,
The data analysis module 250 is a peak power management system for preventing overload, characterized in that to read from the database 210 a list of assumptions agreed to cut off some power. According to claim 6
The data analysis module is a peak power management system for preventing overload, characterized in that transmitting the read-out assumption list to the transmitting and receiving unit (220). According to claim 7
remind The transceiver 220 is
Peak power management system for preventing overload, characterized in that it transmits a message confirming whether to agree to cut off power energy to each home included in the read home list. According to claim 8
The transceiver 220 is
In case the consent result is received from the household that received the message confirming whether to consent to power off
Peak power management system for preventing overload, characterized in that storing the result in the database (210). The method of claim 9
The control unit 260
When the power usage for the total amount of power produced at the predicted time is greater than a predetermined range, the database 210 requests and receives a list of households that have transmitted the consent result from among the households that received the power cut consent confirmation message.
Cut off the power energy supplied through the second supply line 232 of the household included in the list,
Peak power management system for preventing overloading, characterized in that when the predicted corresponding time ends, power energy is resupplied to the second supply line where the power energy is cut off. The method of claim 10
The power monitoring module 240 is
It is to calculate the time between the time when the power energy supplied through the second supply line is cut off and the time when the predicted time is ended and the power energy is re-supplied to the second supply line and store it in the database 210. Peak power management system for preventing overloading.

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