KR101643824B1 - Power control appratus and method for supplying power using thereof - Google Patents

Abstract

A power control apparatus and a method of supplying power using the power control apparatus are provided. A method of controlling power supply by a power control apparatus according to an embodiment of the present invention includes the steps of (a) predicting a power consumption pattern of power consumption devices divided into a plurality of layers and a power generation pattern of power generation facilities, (b) Adjusting a target balance ratio of the power storage device based on the prediction of the power consumption pattern and the power generation pattern; and (c) adjusting the target balance ratio of the power storage device to the power consuming device through the power supply according to the adjusted target balance ratio Wherein the power source includes at least one of a constant power source, the power generation facility, and a power storage device, and at least one of the power sources supplies power for each layer.

Description

[0001] POWER CONTROL APPARATUS AND METHOD FOR SUPPLYING POWER USING THEREOF [0002]

The present invention relates to a power control apparatus and a method of supplying power using the power control apparatus.

As interest in the environment has increased recently, there has been a growing interest in new alternative energy as a pollution-free energy source that replaces fossil fuels such as coal and raw materials, which are cited as the main cause of environmental pollution. have.

Among them, there is a method of generating electricity using solar power and wind power. The solar power generation and wind power generation have an unlimited resources, have no fuel cost, and have a high environmental-friendly cleanliness.

In addition, due to the ease of installation, it has been introduced and put into practical use as a distributed power source for supplying electric power to remote books, wall outcrops, and military facilities that are expensive to install the lines or technically difficult to supply commercial power.

However, in the case of photovoltaic power generation, the power generation amount depends on the solar radiation amount, and power generation is not possible in the absence of sunlight, so that it is impossible to supply power as a stable power supply source for the constant load.

And there is a problem that wind power generation is difficult to be supplied due to the geographical condition of Korea where wind direction and speed are not constant and wind speed is not sufficient.

To solve such a problem, a hybrid power generation system has been proposed in which the solar power generation device and the wind power generation device are used together to provide electric power.

However, even with such a hybrid power generation system, there is a problem that power supply is impossible due to a time lag between power generation and power consumption.

In order to solve this power generation and power consumption lag, there is a limit to the storage density of the battery even if the power stored in a power storage device such as a battery is stored. In order to cope with this situation, If the ratio is always kept at 100%, there is a power consumption to maintain it.

Accordingly, there is a demand for providing efficient charging / discharging scheduling for a power storage device in consideration of a power consumption pattern and a power generation pattern.

Korean Patent Laid-Open Publication No. 10-2014-0067654

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide an efficient charging / discharging scheduling for a power storage device and a power supply scheme according to the corresponding scheduling considering power consumption patterns and power generation patterns.

According to an aspect of the present invention, there is provided a method of controlling power supply by a power control apparatus according to an embodiment of the present invention includes the steps of: (a) (B) adjusting a target balance ratio of the power storage device based on the prediction of the power consumption pattern and the power generation pattern; and (c) adjusting the target balance ratio of the power storage device through the power source according to the adjusted target balance ratio. Wherein the power supply comprises at least one of a constant power source, a power generation facility and a power storage device, wherein at least one of the power sources supplies power to each of the layers .

In order to achieve the above object, a power control apparatus for controlling power supply according to an embodiment of the present invention includes a power consumption pattern predicting unit for predicting a power consumption pattern of power consumption devices divided into a plurality of layers, A target balance ratio adjuster for adjusting a target balance ratio of the power storage device based on the predicted power consumption pattern and the power generation pattern, and a target balance ratio adjuster for adjusting the target balance ratio And a power supply controller for supplying power to the power consuming device through a power supply, the power supply including at least one of a constant power source, a power generation facility and a power storage device, and at least one power source And power is supplied to each layer.

According to an embodiment of the present invention, power consumption and production pattern prediction are possible, and stable power supply is possible.

It is also possible to reduce power charges by storing the power produced by the power generation facility in the power storage device at a high priority.

In addition, by appropriately adjusting the power storage balance ratio of the power storage device, overcharge or overdischarge can be prevented to maximize the life of the power storage device.

It should be understood that the effects of the present invention are not limited to the above effects and include all effects that can be deduced from the detailed description of the present invention or the configuration of the invention described in the claims.

1 is a diagram illustrating a power supply system according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a power control apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating a power control process according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "indirectly connected" .

Also, when an element is referred to as "comprising ", it means that it can include other elements, not excluding other elements unless specifically stated otherwise.

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

1 is a diagram illustrating a power supply system according to an embodiment of the present invention.

The power supply system 100 according to an embodiment of the present invention may include a power control device 110, a power consumption device 120 and a power supply 130, 131, a power generation facility 132, and a constant power source 133.

1, the power control apparatus 110 can predict a power consumption pattern of the power consumption devices 120 classified into a plurality of tiers, and the power consumption of the power generation apparatuses 132 The pattern can be predicted.

The power control device 110 may also adjust the target balance ratio of the power storage device 131 based on the power consumption pattern of the power consumption devices 120 and the power generation pattern of the power generation facilities 132.

Here, the 'target balance ratio' may mean the 'target charging rate' of the power storage device 131 and is usually maintained at less than 100% (for example, 60 to 70%) to maintain the charging rate And to increase the efficiency of the power storage device 131 by preparing a peak value of the power consumption in advance.

The power control apparatus 110 may supply power to the power consuming apparatuses 120 through the power storage device 131, the power generation facility 132, and the constant power source 133 according to the adjusted target balance ratio have.

At this time, the power control device 110 can supply power to each power consumption device 120 according to the power supply priority order of the power generation facility 132, the power storage device 131, and the constant power 133.

For reference, the power consuming devices 120 may belong to a plurality of layers, and the plurality of layers may include a first device layer, a second device layer, and a third device layer.

Here, the power consumption device belonging to the first device layer may include devices that are always powered, such as medical equipment, security equipment, and a refrigerator.

The power consumption device belonging to the second device layer may include a power consumption device whose frequency of use is lower than that of the power consumption device belonging to the first device layer and whose use time can not be changed.

The power consumption device belonging to the third device layer may include a power consumption device whose frequency of use is lower than that of the power consumption device belonging to the second device layer and which can change the use time.

2 is a block diagram showing the configuration of a power control apparatus according to an embodiment of the present invention.

The power control apparatus 110 according to an embodiment of the present invention includes a power consumption pattern predicting unit 111, a power generation pattern predicting unit 112, a target balance ratio adjusting unit 113, and a power supply controlling unit 114 can do.

The power consumption pattern predicting unit 111 can predict a power consumption pattern of the power consumption devices 120 classified into a plurality of layers.

In one embodiment, the power consumption pattern predicting unit 111 divides the 24-hour day into 24 sections for 1 hour, and calculates the power consumption pattern predicted by the power consumption pattern predictor 111 based on one or more of the use start time and end time, Lt; / RTI >

At this time, the power consumption pattern predicting unit 111 may also store the supply ratios of the respective power supply sources 130 supplied to the respective power consumption devices 120.

The power consumption pattern predicting unit 111 may calculate an average based on the content of the power consumption pattern learned for one week and periodically update the existing power consumption pattern.

Meanwhile, the power generation pattern predicting unit 112 can predict the power generation patterns of the power generation facilities 132.

Here, the power generation facilities 132 may include facilities for generating power by using sunlight / solar heat, wind power, geothermal power, etc. as facilities for generating renewable energy.

In one embodiment, the power generation pattern predicting unit 112 may generate power generation information according to solar radiation and time in the case of a power generation facility using sunlight / solar heat, power generation information according to the wind amount and time in the case of a power generation facility using wind power And geothermal power generation facilities, it is possible to store power generation information according to time, and to predict a power generation pattern for a specific period (for example, during a day).

Meanwhile, the target balance ratio adjuster 113 may adjust the target balance ratio of the power storage device 131 based on the power consumption pattern predicted through the power generation pattern predicting unit 112 and the power generation pattern.

In one embodiment, if the amount of power consumption is estimated to be greater than the amount of power production, the target balance ratio adjustment section 113 may maintain a higher power storage amount than the target balance ratio of the power storage device 131, If predicted to be small, the power reserve can be maintained within a certain range based on the target balance ratio.

More specifically, the target balance ratio adjuster 113 can appropriately maintain the target balance ratio (for example, 70%) of the power storage device 131 normally.

When the power consumption device 120 is powered on, the target balance ratio adjuster 113 recognizes the target balance ratio and can confirm the predicted power consumption amount through the power consumption pattern of the corresponding power consumption device 120 in the past.

The power consumption information of each section can be updated by comparing the estimated power consumption amount of each power consumption device 120 with the actual power consumption amount according to the 24 sections.

When this process is applied to each power consumption device 120 and the predicted power consumption amount for the entire power consumption device 120 is less than the target amount of power ratio of the power storage device 131, May reduce the target balance ratio of the power storage device 131 within a certain range.

When the predicted power consumption for the entire power consuming device 120 exceeds the target amount of power of the power storage device 131, the target balance ratio adjuster 113 adjusts the target balance ratio of the power storage device 131, The balance ratio can be increased within a certain range.

In one embodiment, when the power generated through the power generation facilities 132 can cover the predicted power consumption for the entire power consuming device 120, the target balance ratio adjuster 113 may control the power storage device 131, (For example, 10%) of the target balance ratio of the target value.

The target balance ratio adjuster 113 may adjust the target balance ratio of the power consumption of the power storage device 131 when the power generated by the power generation facilities 132 can not cover the predicted power consumption of the entire power consuming device 120. [ The target balance ratio of the power supply can be adjusted to the maximum value (100%) to prevent the power supply from being impossible due to the time difference between the power generation and the power consumption.

The power supply control unit 114 controls the power supply unit 130, that is, the power storage unit 131, and the power generation facility (not shown) according to the target balance ratio of the power storage unit 131 adjusted by the target balance ratio adjustment unit 113 132 and the constant power source 133. The power supply device 120 may be connected to the power supply device 120 via the power supply 132,

At this time, power may be supplied through at least one power supply 130 for each layer.

The power supply control unit 114 supplies power to the power consumption device 120 belonging to the first equipment layer through the constant power supply 133 and supplies power to the power supply device 120, Power to the power consuming device 120 belonging to the second device layer through one or more of the storage devices 131 and to the third device layer via at least one of the power generation facility 132 and the power storage device 131 It is possible to supply power to the power consumption device 120 to which the power consumption device 120 belongs.

The power supply control unit 114 supplies power to each power consumption device 120 through the power supply 130 according to the target balance ratio of the power storage device 131 adjusted by the target balance ratio adjustment unit 113 Power can be supplied in accordance with the power supply priority order of the power supply 130 at the time of supply.

Here, the 'power supply priority' may be a power generation facility, a power storage device, and a constant power supply sequence.

In one embodiment, the power supply control unit 114 first determines whether the power generated through the power generation facilities 132 can cover the predicted power consumption for the entire power consumption device 120, And power can be supplied to the entire power consumption device 120 through the facilities 132. [

At this time, the target balance ratio of the power storage device 131 may be adjusted to a predetermined minimum ratio (for example, 10%) by the target balance ratio adjuster 113.

The power supply control unit 114 may control the power generation facilities 132 and the power consumption control unit 130 so that the electric power generated by the power generation facilities 132 Power can be supplied to the entire power consumption device 120 through the storage device 131. [

At this time, the target balance ratio of the power storage device 131 may be adjusted to the maximum value (100%) by the target balance ratio adjuster 113.

As another embodiment, when the power generated by the power generation facilities 132 and the power storage device 131 can not cover the predicted power consumption for the entire power consuming device 120, the power supply control part 114 Power can be supplied to the entire power consuming device 120 through the power generation facilities 132, the power storage device 131, and the constant power source 133.

When the target balance ratio of the power storage device 131 decreases to less than 50% or decreases to less than a predetermined ratio set by the operator, the power supply controller 114 controls the power consumption of the power consumption device 120 belonging to the third device layer, (For example, sending a notification message to an operator of a previously registered power consumption device or a user's mobile phone or the like) to automatically or manually shut off the power supply to the power consumption device or to change the use time zone to another time zone.

In addition, when the power storage ratio of the power storage device 131 decreases below a preset minimum ratio or decreases below a predetermined ratio set by the operator, the power supply controller 114 controls the power consumption of the power consumption device 120 may be automatically or manually disconnected.

This is because it is impossible to change the use time of the power consumption device 120 belonging to the second device layer.

That is, it is possible to guarantee the operation of the power consuming device 120, which is required to be supplied with power at all times, by inducing the power consumption device 120 belonging to the device layer of low importance to move the use time zone, So that the power supply can be controlled.

3 is a flowchart illustrating a power control process according to an embodiment of the present invention.

3 is a method by which the power control apparatus 110 adjusts the target balance ratio of the power storage device 131. [

First, the power control apparatus 110 predicts a power consumption pattern of the power consumption devices 120 divided into a plurality of layers and a power generation pattern of the power generation facilities 132 (S301).

For example, when power is supplied to the power consumption device 120, the power control device 110 can recognize the power consumption amount and calculate an expected power consumption amount based on the past power consumption pattern of the power consumption device 120 .

Then, by comparing the estimated power consumption amount of each power consumption device 120 with the actual power consumption amount in accordance with the 24 sections divided into 24 hours and 1 hour, and updating the power consumption amount of each section (total 24 sections) The power consumption pattern of the power consuming devices 120 can be predicted for a predetermined period (e.g., one day).

In addition, in the case of power generation facilities using solar / solar heat, power generation information based on solar radiation amount and time, power generation information based on wind amount and time in the case of power generation facilities using wind power, Store the power generation information, and predict a power generation pattern for a specific period (for example, one day) based on the stored power generation information.

After S301, the power control apparatus 110 determines a target balance ratio of the power storage device 131 based on the power consumption pattern predicted in S301 and the power generation pattern (S302).

For example, at 0:00, the estimated power consumption of each power consumption device 120 during the day, the consumption amount of the entire power consumption device 120 by adding the consumed amounts, and the estimated power generation amount, Can be determined.

In the case of sunlight, if the weather is clear, the expected power generation amount will be large, so that it can be prepared for a considerable amount of power consumption. Therefore, even if the target balance ratio of the power storage device 131 is maintained at 30%, the power can be supplied smoothly.

On the contrary, if the predicted power generation amount drops significantly because the weather is not clear, the target balance ratio of the power storage device 131 must be maintained at 100% to supply electric power, In advance.

After step S302, the power control apparatus 110 first confirms whether the power generated through the power generation facilities 132 can cover the predicted power consumption for the entire power consuming device 120, 132 to the entire power consumption device 120 (S303).

If the power generated by the power generation facilities 132 after S302 can not cover the predicted power consumption for the entire power consuming device 120, the power control device 110 may control power generation facilities 132 and power storage And supplies power to the entire power consuming device 120 through the device 131 (S304).

If the power generated by the power generation facilities 132 after S302 and the power storage device 131 can not cover the predicted power consumption for the entire power consuming device 120, Power is supplied to all the power consuming devices 120 through the power storage devices 132, the power storage device 131, and the constant power source 133 (S305).

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be.

It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100: Power supply system
110: Power control device
111: Power consumption pattern predicting unit
112: Power generation pattern predicting unit
113: target balance ratio adjusting unit
114: Power supply control unit
120: Power consumption appliances
130: power source
131: Power storage device
132: Power generation facilities
133: Always Power

Claims (5)

A method of controlling power supply by a power control device,
(a) predicting a power consumption pattern of power consumption devices divided into a plurality of layers and a power generation pattern of power generation facilities;
(b) adjusting a target balance ratio of the power storage device based on the prediction of the power consumption pattern and the power generation pattern; And
(c) powering the power consuming appliance through a power source according to the adjusted target balance ratio,
Wherein the power source comprises at least one of a constant power source, the power generation facility, and a power storage device, wherein at least one of the power sources supplies power for each layer,
The step (a)
Storing power consumption information of each power consumption device for each layer and a supply ratio of each power supply source for a predetermined period; And
Estimating the power consumption pattern based on the stored power consumption information and the average value of the sum of the supply ratio and the power consumption information newly stored for the predetermined period and the supply ratio,
Wherein the power consumption information includes at least one of an operation start time and an end time, a power consumption, and a power consumption.
The method according to claim 1,
The step (b)
Maintaining a power storage amount higher than the target balance ratio if the amount of power consumption is estimated to be greater than the amount of power generation;
Maintaining the power storage amount within a specific range based on the target balance ratio if the power consumption is predicted to be less than the power generation amount; And
Adjusting power supply for each layer of the power consuming device in accordance with the remaining ratio of the power storage amount
The power supply control method comprising:
delete The method according to claim 1,
The step (a)
In the case of power generation facilities using solar energy and heat, power generation information based on solar radiation amount and time, power generation information based on wind amount and time in the case of power generation facilities using wind power, ; And
Estimating a power generation pattern of the power generation facility based on the stored information
The power supply control method comprising:
1. A power control apparatus for controlling power supply,
A power consumption pattern predicting unit for predicting a power consumption pattern of power consumption devices divided into a plurality of layers;
A power generation pattern predicting unit for predicting a power generation pattern of power generation facilities;
A target balance ratio adjuster for adjusting a target balance ratio of the power storage device based on the predicted power consumption pattern and the power generation pattern; And
And a power supply controller for supplying power to the power consuming device via a power supply source in accordance with the adjusted target balance ratio,
Wherein the power source comprises at least one of a constant power source, the power generation facility, and a power storage device, wherein at least one of the power sources supplies power for each layer,
Wherein the power consumption pattern predicting unit stores the power consumption information of each power consumption device for each layer for a predetermined period and the supply ratio of each power supply source, and stores the stored power consumption information and the supply ratio in a newly stored Wherein the power consumption information predicts the power consumption pattern based on an average value of the sum of the power consumption information and the supply ratio, and the power consumption information includes at least one of a use start time and an end time, The power control device comprising:

Images