KR101354628B1 - Apparatus for estimating electricity customer's electric load profile curves and method thereof - Google Patents

Abstract

Disclosed are apparatus and a method for calculating an electricity load curve of an electricity user by the present invention. The apparatus for calculating an electricity load curve of an electricity user according to the present invention includes: a basic load curve calculation part for calculating a first basic load curve and a second basic load curve on the basis of a basic load pattern of the user and electricity usage information of the user; a maximum load day load curve calculation part for calculating a maximum load day load curve by performing correction in order for monthly maximum load of the user to coincide with electric charge information on the basis of the first basic load curve; an average day load curve calculation part for calculating an average day load curve by performing correction in order for the monthly maximum load of the user to coincide with electric charge information on the basis of the first basic load curve; and a daily load curve calculation part for calculating a daily load curve on the basis of the second load curve. [Reference numerals] (AA) START; (BB) END; (S410) Calculate basic load curve; (S420) Calculate maximum load day load curve and average day load curve; (S430) Calculate working days/Saturday/Sunday load curve

Description

Apparatus and method for calculating electric power load curve of electric user {APPARATUS FOR ESTIMATING ELECTRICITY CUSTOMER'S ELECTRIC LOAD PROFILE CURVES AND METHOD THEREOF}

The present invention relates to a method for calculating a power load curve of a user. In particular, a maximum load load curve and an average daily load curve and a working day are calculated by calculating a basic load curve based on the user's electricity usage information and using the calculated basic load curve. An apparatus and method for calculating a power load curve of an electric user for calculating a Saturday / holiday / holiday load curve.

The daily load curve is a graph of the user's power consumption for 24 hours a day, which shows the user's electricity usage pattern by time of day. The user's power demand management is largely divided into the maximum power management and the hourly power consumption management according to the electricity tariff or the demand management system of the electric power company, and various data on the user's power usage pattern are needed for the demand management plan. Among them, the load curve of monthly maximum load days, monthly average daily load curves, and monthly working / holiday average load curves are frequently used.

1 is a diagram showing basic power usage information notified to high voltage users of 300 kW or more.

As shown in Figure 1, the basic information provided by the power company without a separate measurement and data processing facilities to the high-voltage users over the contract power 300kW is a monthly electricity rate, that is, the basic rate and power rate, monthly maximum power, monthly power consumption, etc. It includes.

Electricity charges currently applied by electric power companies consist of basic charges and electricity charges. The base rate is charged every month to cover fixed costs such as depreciation expenses and interest payments due to investment in power supply facilities such as power plants and substations. Unit prices differ depending on the type of customer (residential, general use, industrial use, educational use, agricultural use, etc.). For the high-pressure customers who installed the maximum demand meter, the basic charge for all contract categories except residential power is 12, 12, 13, 12, The base charge is calculated based on the maximum demand power of the month, the month of September, and the month of the meter reading as the applied electricity.

2 is a view showing an example of an electric plan currently in effect.

As shown in FIG. 2, an electric charge for a general customer whose current contract power is 300 kW or more is charged, for example, for each load and season in the base rate.

These daily power load curves are essential information for users' power demand management, design of distributed power supplies and energy storage devices, and capacity selection. However, most users except for high-voltage users have no load measurement and data processing facilities. Load curve information cannot be obtained unless additional equipment is measured.

In addition, additional equipment must take time for at least one year of measurement.

Therefore, to solve the problems of the prior art, an object of the present invention is to calculate the basic load curve based on the user's electricity usage information, using the calculated basic load curve, the maximum load load curve and average daily load curve, The present invention provides an apparatus and method for calculating a power load curve of an electric user for calculating a work day / Saturday / holiday load curve.

However, the objects of the present invention are not limited to those mentioned above, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above objects, an apparatus for calculating a power load curve of an electric user according to an aspect of the present invention is based on the user's electricity usage information and the user's basic load pattern, the first basic load curve and the second basic load A basic load curve calculating unit for calculating a curve; A maximum load load curve calculation unit configured to calculate a maximum load load curve by correcting it to match the monthly maximum load and electricity rate information of the user based on the first basic load curve; An average daily load curve calculator configured to calculate an average daily load curve based on the first basic load curve to correct the monthly maximum load and the electric charge information of the user; And a load curve calculator for each day of the week calculating a load curve for each day based on the second load curve.

Preferably, the basic load curve calculation unit obtains the daily average load from the daily average consumption obtained from the user's monthly power consumption, and selects the standard load curve for the maximum load day load curve, average daily load curve from the load pattern database A relative coefficient curve having an average load of 1 is obtained from a standard load curve, and the first average load of the user and the relative coefficient curve of which the average load is 1 are multiplied and multiplied by the result of the multiplication operation. It is characterized by calculating the basic load curve.

Preferably, the basic load curve calculating unit obtains the daily average load from the daily average consumption obtained from the monthly power consumption of the user, and selects the standard load curve for the average load curve for working days, Saturdays, and holidays in the load pattern database. A relative coefficient curve having an average load of 1 is calculated from the curve, and the second basic load of the user is multiplied by a result of multiplying the calculated average coefficient load of the user and the relative coefficient curve having the average load of 1. It is characterized by calculating a curve.

Preferably, the maximum load day load curve calculation unit obtains a first correction coefficient such that the maximum value corrected while maintaining the calculated shape of the first basic load curve matches the actual monthly maximum load, and the first basic load curve The maximum load load curve is calculated as a result of multiplying the first correction coefficient and multiplying the first correction coefficient.

Preferably, the average daily load curve calculation unit obtains a second correction coefficient such that the maximum value corrected while maintaining the calculated shape of the first basic load curve matches the actual monthly maximum load, and the first basic load curve and the The average daily load curve may be calculated as a result of multiplying the second correction coefficient and multiplying the second correction coefficient.

Preferably, the load curve calculation unit for the day of week calculates the work load curve, the Saturday load curve, the holiday load curve, which is the load curve for each day, as a result of multiplying the calculated second basic load curve and the second correction coefficient. Characterized in that.

In addition, the apparatus for calculating the power load curve of the electric user according to the invention is characterized in that it further comprises a load pattern database for storing the user's electricity usage information and the user's basic load pattern.

According to another aspect of the present invention, a method for calculating a power load curve of an electric user includes: a basic load calculating a first basic load curve and a second basic load curve based on user electricity usage information and a user's basic load pattern; Curve calculation step; A maximum load load curve calculating step of calculating a maximum load load curve by correcting it to match the monthly maximum load and electricity rate information of the user based on the first basic load curve; Calculating an average daily load curve based on the first basic load curve to calculate the average daily load curve by matching the monthly maximum load and the electric charge information of the user; And calculating a load curve for each day of the week based on the second load curve.

Preferably, the step of calculating the basic load curve is selected by obtaining a daily average load from the daily average consumption obtained from the user's monthly power consumption and selecting a standard load curve for the maximum load day load curve and the average daily load curve from the load pattern database. A relative coefficient curve having an average load of 1 is obtained from the standard load curve, and the first average load of the user is multiplied with a relative coefficient curve of the obtained average load of 1. It is characterized by calculating the basic load curve.

Preferably, the step of calculating the basic load curve calculates the daily average load from the daily average consumption obtained from the monthly power consumption of the user, and selects the standard load curve for the average load curve for working days, Saturdays and holidays in the load pattern database. A relative coefficient curve having an average load of 1 is obtained from a load curve, and the resultant multiplication operation is performed by multiplying the calculated average coefficient of the user's daily average load and the obtained average load having a value of 1. It is characterized by calculating the load curve.

Preferably, the calculating the maximum load day load curve calculates a first correction factor such that the maximum value corrected while maintaining the calculated shape of the first basic load curve matches the actual monthly maximum load, and the first basic load curve And the maximum load load curve as a result of multiplying the first correction coefficient by the multiplication operation.

Preferably, the calculating the average daily load curve calculates a second correction coefficient such that the maximum value corrected while maintaining the calculated shape of the first basic load curve matches the actual monthly maximum load, and the first basic load curve The average daily load curve may be calculated as a result of multiplying the second correction coefficient and multiplying the second correction coefficient.

Preferably, the calculation of the load curve for each day of the week is a result of multiplying the calculated second basic load curve and the second correction coefficient and performing the multiplication operation to calculate the work load curve of the day of the week, Saturday load curve, holiday load curve It is characterized by calculating.

By doing so, the present invention calculates the basic load curve based on the user's electricity usage information, and calculates the maximum load load curve, average daily load curve, and workday / Saturday / holiday load curve using the calculated basic load curve. In addition, it is possible to calculate the power load curve of the user without installing a separate load measurement and data processing facility.

The present invention calculates the basic load curve based on the electricity usage information of the user and calculates the maximum load load curve, the average load curve, and the work day / Saturday / holiday load curve by using the calculated basic load curve. There is no need to install load measurement and data processing facilities, which can reduce the waste of time and personnel.

1 is a diagram showing basic power usage information notified to high voltage users of 300 kW or more.
2 is a view showing an example of an electric plan currently in effect.
3 is a diagram illustrating an apparatus for calculating a power load curve of an electric user according to an embodiment of the present invention.
4 is a diagram illustrating a method for calculating a power load curve of an electric user according to an embodiment of the present invention.
5 is a view showing a method for calculating a basic load curve according to an embodiment of the present invention.
6 is a diagram illustrating a method for calculating a maximum load load curve according to an embodiment of the present invention.
7 is a diagram illustrating a method for calculating an average daily load curve according to one embodiment of the present invention.
8 is a diagram illustrating a method for calculating a work day / Saturday / shared day load curve according to an embodiment of the present invention.
9 is a view showing a maximum load work load curve according to an embodiment of the present invention.
10 is a view showing an average daily load curve according to an embodiment of the present invention.

Hereinafter, an apparatus and method for calculating a power load curve of an electric user according to an embodiment of the present invention will be described with reference to FIGS. 3 to 10. The present invention will be described in detail with reference to the portions necessary for understanding the operation and operation according to the present invention.

In describing the constituent elements of the present invention, the same reference numerals may be given to constituent elements having the same name, and the same reference numerals may be given thereto even though they are different from each other. However, even in such a case, it does not mean that the corresponding component has different functions according to the embodiment, or does not mean that the different components have the same function. It should be judged based on the description of each component in the example.

In particular, the present invention calculates the basic load curve based on the electricity usage information of the user and using the calculated basic load curve to calculate the maximum load load curve, average daily load curve, working day / Saturday / holiday load curve new power A load curve calculation method is proposed.

3 is a diagram illustrating an apparatus for calculating a power load curve of an electric user according to an embodiment of the present invention.

As shown in FIG. 3, an apparatus for calculating a power load curve of an electric user according to the present invention includes a basic load curve calculating unit 310, a maximum load day load curve calculating unit 320, and an average daily load curve calculating unit. 330, the load curve calculator 340 for each day, and a load pattern database 350 may be configured.

The basic load curve calculating unit 310 may calculate the basic load curve based on the electricity usage information of the user and the basic load pattern suitable for the type or purpose of the contract of the user. That is, the basic load curve calculating unit 310 calculates a first basic load curve for the maximum load work load curve and the average daily load curve, and calculates a second basic load curve for the work day / Saturday / holiday load curve.

In this case, the electricity usage information of the user includes monthly maximum load, electricity usage, and electricity rate information.

The maximum load day load curve calculator 320 may calculate the maximum load day load curve by correcting it to match the monthly maximum load and electricity rate information of the user based on the calculated first basic load curve.

The average daily load curve calculator 330 may calculate an average daily load curve by correcting the average daily load curve and the electricity rate information based on the calculated first basic load curve.

The load curve calculator 340 for each day may calculate a work curve / workday / saturday / holiday load curve for each work day, Saturday, and public holiday, based on the calculated second basic load curve.

The load pattern database 350 summarizes the load patterns of general use, industrial use, education use, residential use, farming, etc. based on the actual measurement data by season / month, day of the week, as well as monthly maximum loads, electricity usage, and electricity bills. Usage information can be stored.

The device according to the present invention calculates five load curves per month (maximum load day, average day, working day, Saturday and public holiday) from monthly maximum load, electricity consumption, and electricity rate information of the user from January to December, and one year. In total, 60 load curves can be calculated.

4 is a diagram illustrating a method for calculating a power load curve of an electric user according to an embodiment of the present invention.

As shown in FIG. 4, an apparatus for calculating a power load curve of an electric user according to the present invention (hereinafter referred to as a calculating device) is based on user's electricity usage information and a basic load pattern suitable for a user's contract type or purpose. The basic load curve can be calculated as (S410). That is, the calculating device calculates the first basic load curve for the maximum load work load curve and the average daily load curve, and calculates the second basic load curve for the work day / Saturday / holiday load curve.

The basic load curve is a load curve based on calculating the maximum load load curve and average load curve of the user, as well as the average load curve of the workday / Saturday / holiday. The shape is maintained as a reference, but the size is calculated so that the power usage in the curve is the same as the actual power usage of the user.

5 is a view showing a method for calculating a basic load curve according to an embodiment of the present invention.

As shown in FIG. 5, the calculation device obtains the daily average consumption from the monthly power consumption of the user (S411) and obtains the daily average load from the obtained daily average consumption (S412).

In addition, the calculation device may select a standard load curve of a similar kind of user from the load pattern database (S413), and obtain a relative coefficient curve having an average load of 1 from the selected standard load curve (S414).

In this case, the standard load curve for the maximum load day load curve, the average daily load curve and the standard load curve for the average load curve on the work day / Saturday / holiday may be selected differently.

Next, the calculation device may calculate the basic load curve of the user as a result of multiplying the daily average load of the user and the relative coefficient curve obtained in advance (S415).

At this time, the calculating device calculates the first basic load curve for the maximum load day load curve, the average daily load curve, and calculates the second basic load curve for the average load curve on the work day / Saturday / holiday.

Next, the calculation device may calculate the maximum load day load curve and the average daily load curve by correcting to match the monthly maximum load and the electric charge information of the user based on the calculated first basic load curve (S420).

6 is a diagram illustrating a method for calculating a maximum load load curve according to an embodiment of the present invention.

As illustrated in FIG. 6, the calculation device may obtain a first correction coefficient such that the maximum value corrected while maintaining the shape of the calculated basic load curve matches the actual maximum monthly load (S421).

At this time, the calculation device obtains a first correction coefficient such that the maximum value of the product of the first correction coefficient to be calculated and the basic load curve to match the actual monthly maximum load while maintaining the shape of the basic load curve, the first correction coefficient C ₁ may be expressed as Equation 1 below.

[Equation 1]

Here, P _peak represents the monthly maximum power of the user, P _ave represents the average load of the user, P _{bas , peak} represents the maximum power of the basic load curve, respectively.

Next, the calculation device may calculate the preliminary maximum load load curve as a result of multiplying the calculated basic load curve and the first correction coefficient by the multiplication operation (S422).

In this case, it should be noted that when calculating the preliminary maximum load load curve, the power consumption in the preliminary maximum load load curve and the power consumption in the basic load curve are kept the same. It can be expressed as [Equation 2].

&Quot; (2) "

Here, i denotes a time, for example, from 1 o'clock to 24 o'clock, P _max (i) denotes power at i of the maximum load load curve, and P _bas (i) denotes power at i of the basic load curve, respectively. Indicates.

Next, the calculation device checks whether the calculated power consumption in the calculated preliminary maximum load day load curve and the power use in the basic load curve are the same (S423), and if it is determined that the result is the same, the preliminary maximum load day load curve It can be calculated as the maximum load day load curve (S424).

7 is a diagram illustrating a method for calculating an average daily load curve according to one embodiment of the present invention.

As illustrated in FIG. 7, the calculation device may obtain a second correction coefficient such that the maximum value corrected while maintaining the shape of the calculated basic load curve coincides with the actual monthly maximum load (S425).

At this time, the calculation device obtains a second correction coefficient such that the maximum value of the product of the second correction coefficient to be calculated and the basic load curve to match the actual monthly maximum load while maintaining the shape of the basic load curve, the second correction coefficient C ₂ may be expressed as Equation 3 below.

&Quot; (3) "

Next, the calculation device may multiply the calculated basic load curve and the second correction coefficient and calculate a preliminary average daily load curve as a result of the multiplication operation (S426).

In this case, it should be noted that when calculating the preliminary average daily load curve, the power consumption in the preliminary average daily load curve and the power consumption in the basic load curve are kept the same. 4].

&Quot; (4) "

Here, i represents time, for example, from 1 o'clock to 24 o'clock, P _day (i) represents power at i of the average daily load curve, and P _bas (i) represents power at i of the basic load curve, respectively. .

Next, the calculation apparatus checks whether the calculated power consumption in the calculated preliminary average daily load curve and the basic load curve are the same (S427), and if it is determined that the result is the same, averages the preliminary average daily load curve. It can be calculated by the one load curve (S428).

Next, the calculating device may calculate a work day / Saturday / holiday load curve for each work day, Saturday, and public holiday based on the calculated second basic load curve (S430).

8 is a diagram illustrating a method for calculating a work day / Saturday / shared day load curve according to an embodiment of the present invention.

As illustrated in FIG. 8, the calculation device may multiply the calculated second basic load curve by the second correction coefficient (S431) to calculate a load curve for each day of the week (S432).

Day-by-day load curves represent working day load curves, Saturday load curves, and holiday load curves.

9 is a view showing a maximum load load curve according to an embodiment of the present invention, Figure 10 is a view showing an average daily load curve according to an embodiment of the present invention.

9 to 10, the maximum load work load curve and the average work load curve calculated according to the present invention is shown. The period is from January to December on a yearly basis.

It is to be understood that the present invention is not limited to these embodiments, and all of the elements constituting the embodiments of the present invention described above may be combined or operated in one operation. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. In addition, although all of the components may be implemented as one independent hardware, some or all of the components may be selectively combined to perform a part or all of the functions in one or a plurality of hardware. As shown in FIG. In addition, such a computer program may be stored in a computer-readable medium such as a USB memory, a CD disk, a flash memory, etc., and read and executed by a computer, thereby implementing embodiments of the present invention. As the storage medium of the computer program, a magnetic recording medium, an optical recording medium, a carrier wave medium, or the like may be included.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or essential characteristics thereof. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

310: basic load curve calculation unit
320: maximum load load load calculation unit
330: average daily load curve calculation unit
340: load curve calculation unit by day
350: load pattern database

Claims (13)

A basic load curve calculating unit configured to calculate a first basic load curve and a second basic load curve based on the electricity usage information of the user and the basic load pattern of the user;
A maximum load load curve calculation unit configured to calculate a maximum load load curve by correcting it to match the monthly maximum load and electricity rate information of the user based on the first basic load curve;
An average daily load curve calculator configured to calculate an average daily load curve based on the first basic load curve to correct the monthly maximum load and the electric charge information of the user; And
A load curve calculator for each day of the week calculating a load curve for each day based on the second basic load curve;
Apparatus for calculating a power load curve of the electric user comprising a. The method according to claim 1,
The basic load curve calculation unit,
Get the average daily load from your daily average usage from your monthly power usage,
From the load pattern database, select a standard load curve for the maximum load day load curve and the average daily load curve to obtain a relative coefficient curve having an average load of 1 from the selected standard load curve.
An electric load curve of an electric user, wherein the first basic load curve of the user is calculated by multiplying the calculated relative coefficient curve of the average daily load of the user and the obtained average load of 1 Device for calculating the. The method according to claim 1,
The basic load curve calculation unit,
Get the average daily load from your daily average usage from your monthly power usage,
From the load pattern database, select a standard load curve for the average load curve on working days, Saturdays, and holidays, and obtain a relative coefficient curve with an average load of 1 from the selected standard load curve.
An electric load curve of an electric user, wherein the second basic load curve of the user is calculated as a result of multiplying the calculated relative coefficient curve of the average daily load of the user and the obtained average load of 1; Device for calculating the. The method according to claim 1,
The maximum load day load curve calculation unit,
Obtaining a first correction coefficient such that the maximum value corrected while maintaining the calculated first basic load curve matches the actual monthly maximum load, multiplying the first basic load curve by the first correction coefficient, and multiplying the first correction factor. Apparatus for calculating the power load curve of the electric user, characterized in that for calculating the maximum load day load curve as a result of the calculation. The method according to claim 1,
The average daily load curve calculation unit,
Obtaining a second correction coefficient such that the maximum value corrected while maintaining the calculated shape of the first basic load curve coincides with the actual monthly maximum load, multiplies the first basic load curve by the second correction coefficient, and multiplies the multiplication factor. Apparatus for calculating the power load curve of the electric user, characterized in that for calculating the average daily load curve as a result of the calculation. The method according to claim 1,
The load curve calculation unit for each day of the week,
Electrical power of the electric user, characterized in that to calculate the work load load curve, Saturday load curve, holiday load curve, which is the load curve for each day of the week as a result of multiplying the calculated second basic load curve and the second correction coefficient Device for calculating load curves. The method according to claim 1,
A load pattern database for storing the electricity usage information of the user and the basic load pattern of the user;
Apparatus for calculating a power load curve of the electric user further comprising a. A basic load curve calculating step of calculating a first basic load curve and a second basic load curve based on the electricity usage information of the user and the basic load pattern of the user;
A maximum load load curve calculating step of calculating a maximum load load curve by correcting it to match the monthly maximum load and electricity rate information of the user based on the first basic load curve;
Calculating an average daily load curve based on the first basic load curve to calculate the average daily load curve by matching the monthly maximum load and the electric charge information of the user; And
Calculating a load curve for each day of the week based on the second load curve;
Method for calculating a power load curve of the electric user, comprising a. The method of claim 8,
The basic load curve calculating step,
Get the average daily load from your daily average usage from your monthly power usage,
From the load pattern database, select a standard load curve for the maximum load day load curve and the average daily load curve to obtain a relative coefficient curve having an average load of 1 from the selected standard load curve.
An electric load curve of an electric user, wherein the first basic load curve of the user is calculated by multiplying the calculated relative coefficient curve of the average daily load of the user and the obtained average load of 1 Method for calculating The method of claim 8,
The basic load curve calculating step,
Get the average daily load from your daily average usage from your monthly power usage,
From the load pattern database, select a standard load curve for the average load curve on working days, Saturdays, and holidays, and obtain a relative coefficient curve with an average load of 1 from the selected standard load curve.
An electric load curve of an electric user, wherein the second basic load curve of the user is calculated as a result of multiplying the calculated relative coefficient curve of the average daily load of the user and the obtained average load of 1; Method for calculating the The method of claim 8,
The maximum load day load curve calculation step,
Obtaining a first correction coefficient such that the maximum value corrected while maintaining the calculated first basic load curve matches the actual monthly maximum load, multiplying the first basic load curve by the first correction coefficient, and multiplying the first correction factor. And calculating the maximum load load curve as a result of the calculation. The method of claim 8,
The average daily load curve calculating step,
Obtaining a second correction coefficient such that the maximum value corrected while maintaining the calculated shape of the first basic load curve coincides with the actual monthly maximum load, multiplies the first basic load curve by the second correction coefficient, and multiplies the multiplication factor. And calculating the average daily load curve as a result of the calculation. The method of claim 8,
The load curve calculation step for each day of the week,
Electrical power of the electric user, characterized in that to calculate the work load load curve, Saturday load curve, holiday load curve, which is the load curve for each day of the week as a result of multiplying the calculated second basic load curve and the second correction coefficient Method for calculating the load curve.

Images