KR20210105465A - ESS power distribution system for reducing uncertainty of demand based on power requirement - Google Patents

Abstract

The present invention relates to an energy storage system (ESS) power distribution system comprising: a power supplier supplying power; an energy storage system (ESS) to store power supplied from the power supplier, and supply power to a non-shiftable appliance, a power shiftable appliance, and a time shiftable appliance; and an ESS control system collecting power information of the ESS, the non-shiftable appliance, the power shiftable appliance, and the time shiftable appliance, and using the collected power information to control power supplied to the non-shiftable appliance, the power shiftable appliance, and the time shiftable appliance by the ESS. According to the present invention, consumer uncertainty can be reduced by supplying power in accordance with a requirement ratio of shiftable appliances such as a power shiftable appliance and a time shiftable appliance.

Description

ESS power distribution system for reducing uncertainty of demand based on power requirement

The present invention relates to a system for distributing power of an Energy Storage System (ESS), and more particularly, to a power demand-based ESS power distribution system for reducing demand uncertainty.

ESS (Energy Storage System) is a system that increases energy efficiency by storing surplus power in a storage device and supplying it when power is needed.

ESS is a system that can store electric power and is attracting attention as a replacement for emergency power.

A load shift is classified into a shiftable appliance that can be shifted by power or time in power supply and a non-shiftable appliance that cannot be shifted.

Load shifting is a method to reduce the power supplied to shiftable devices in an emergency by classifying devices into shiftable and non-shiftable devices. It minimizes the power supply to the shiftable device, and powers the shiftable device along with the shifted power when the load is stable. In this regard, a device that can be shifted by power or time in power supply to the device is classified as a shiftable appliance, and a non-shiftable appliance is classified as a non-shiftable appliance, and the shift Capable of controlling the load on the device to avoid worst-case events such as power outages.

A non-shiftable device is a device that may cause a major problem if the supply power is reduced, such as a refrigerator.

Shiftable devices are devices that are less likely to cause problems than non-shiftable devices even when supply power is reduced, for example, devices such as boilers.

That is, a shiftable device refers to a device that can supply power by dividing the power supplied to electronic products, etc. As a driving method of a shiftable device, a time shift method and a power shift method are representative. It is supplied later, and the power shift method is to lower the supplied power to supply it.

As such, the load shift can be classified into a power shift and a time shift. Power-shiftable devices must receive minimal power, and can shift excess power. A time shift capable device can shift any power it receives in an emergency.

Shift-capable devices can define their respective criticalities and order the devices to perform load shifts according to their criticality in case of an emergency. In general, the shift-shifted supply power supplies the shift-shifted power again during off-peak hours, avoiding peak loads.

The storage capacity of ESS is limited. However, if the demand power requires more power than the storage capacity of the ESS, there is a problem that power cannot be supplied to all devices. Therefore, there is a need to properly distribute power in the ESS. In addition, there is a risk that the existing ESS power distribution system may not be able to supply power to time-shiftable devices forever in the worst case.

Republic of Korea Patent Publication No. 10-2016-0026622

The present invention has been devised to solve the above problems, and an object of the present invention is to provide an ESS power distribution system that supplies power according to a power demand ratio of a shiftable device.

In addition, the present invention provides an ESS power distribution system that can prevent the case where the shiftable device is not supplied with power forever by supplying power according to the power demand ratio of the shiftable device by defining a criterion for determining the power demand ratio. It has a different purpose to provide.

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

The ESS power distribution system of the present invention for achieving the above object is a power provider that supplies power, stores power supplied from the power provider, and supplies power to non-shiftable devices, power shiftable devices, and time shiftable devices. Collecting power information of an Energy Storage System (ESS) and the ESS, the non-shiftable device, the power shiftable device, and the time shiftable device for and an ESS control system for controlling power supplied to the power shiftable device and the time shiftable device.

In the present invention, the ESS control system controls the ESS so that power is supplied according to the power demand ratio of the power shiftable device and the time shiftable device.

The ESS control system provides power information including power demand information of the non-shiftable device, power demand information of the power shiftable device, power demand information of the time-shiftable device, and SoC (State of Charge) information of the ESS. Receive, calculate the control information of the ESS through the received power information, purchase power from the power provider through the calculated control information, or control the power of the power shift capable device and the time shift capable device have.

The ESS control system is configured to receive power information including power demand information of each non-shiftable device, power demand information of each power shiftable device, power demand information of each time shiftable device, and SoC information of the ESS. The information receiving unit, the control information calculating unit and the control information calculating unit calculating the amount of power to be supplied to each device by the ESS based on the power information received from the power information receiving unit, and calculating control information for controlling the ESS through this determining the amount of power purchased from the power provider using the control information calculated in It may include a power control unit.

는 단위시간 t에서 시프트 불가능 기기에 제공되는 전력량이고,

는 단위시간 t에서 전력 시프트 가능 기기에 제공되는 전력량이고,

는 단위시간 t에서 시간 시프트 가능 기기에 제공되는 전력량이라고 할 때, 모든 기기의 소모하는 전력량은 시프트 불가능 기기에 제공되는 전력량, 전력 시프트 가능 기기에 제공되는 전력량, 시간 시프트 가능 기기에 제공되는 전력량에 의해 결정되며, 이를

(수학식 1)로 나타낼 수 있다.

is the amount of power provided to the non-shiftable device in unit time t,

is the amount of power provided to the power shiftable device in unit time t,

Assuming that is the amount of power provided to the time-shiftable device in unit time t, the amount of power consumed by all devices depends on the amount of power provided to the non-shiftable device, the amount of power provided to the power-shiftable device, and the amount of power provided to the time-shiftable device. is determined by

It can be expressed by (Equation 1).

는 단위시간 t에서 시프트 불가능 기기가 요구하는 전력량이고,

는 단위시간 t에서 전력공급자로부터 추가적으로 구매해야하는 전력량이고,

는 단위시간 t에서 시프트 불가능 기기의 전력을 공급하고 남은 ESS의 SoC이라고 할 때, 시프트 불가능 기기에 제공되는 전력량은,

(수학식 2)의 조건식에 따라 결정될 수 있다.

is the amount of power required by the non-shiftable device in unit time t,

is the amount of power that must be additionally purchased from the power supplier at unit time t,

Assuming that is the SoC of the ESS remaining after supplying power to the non-shiftable device at unit time t, the amount of power provided to the non-shiftable device is,

It may be determined according to the conditional expression of (Equation 2).

(수학식 3)로 나타낼 수 있다. The remaining SoC of the ESS after supplying power to the non-shiftable device is determined by the amount of power coming from the power supplier, the SoC of the ESS at unit time t-1, and the amount of power required by the non-shiftable device.

It can be expressed by (Equation 3).

(수학식 4)로 나타낼 수 있다. If the SoC of the ESS remaining after supplying power to the non-shiftable device is negative, the amount of power to be additionally purchased from the power provider is determined by the SoC of the ESS remaining after supplying the power to the non-shiftable device.

It can be expressed by (Equation 4).

는 단위시간 t에서 전력 시프트 가능 기기가 요구하는 전력량이고,

는 단위시간 t에서 시간 시프트 가능 기기가 요구하는 전력량이라고 할 때, 전력 시프트 가능 기기가 요구하는 전력량은,

(수학식 5)의 조건식에 따라 결정될 수 있다.

is the amount of power required by the power shiftable device in unit time t,

Assuming that is the amount of power required by the time-shiftable device in unit time t, the amount of power required by the power-shiftable device is,

It may be determined according to the conditional expression of (Equation 5).

(수학식 6)의 조건식에 따라 결정될 수 있다. The amount of power provided to a time-shiftable device is:

It may be determined according to the conditional expression of (Equation 6).

는 단위시간 t에서 ESS의 SoC이고,

는 단위시간 t에서 모든 기기의 소모하는 전력량이라고 할 때,

(수학식 7)로 나타낼 수 있다.

is the SoC of the ESS at unit time t,

is the amount of power consumed by all devices in unit time t,

It can be expressed as (Equation 7).

According to the present invention, there is an effect that the uncertainty of the consumer can be reduced by supplying power according to the required ratio of the shiftable devices such as power shiftable devices and time shiftable devices.

In addition, according to the present invention, there is an effect that can prevent the worst case in which the time shift capable device is not supplied with power forever.

1 is an overall configuration diagram of a power demand-based ESS power distribution system for reducing demand uncertainty according to an embodiment of the present invention.
2 is a block diagram showing an internal configuration of an ESS control system according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

In addition, in the description with reference to the accompanying drawings, the same components are assigned the same reference numerals regardless of the reference numerals, and the overlapping description thereof will be omitted. In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is an overall configuration diagram of a power demand-based ESS power distribution system for reducing demand uncertainty according to an embodiment of the present invention.

Referring to FIG. 1 , the ESS power distribution system 10 of the present invention includes a power provider 100 , an Energy Storage System (ESS) 110 , and an ESS control system 120 .

The non-shiftable device 130 is a device that cannot be shifted by power.

The power shift capable device 150 is a device capable of power shifting by supplying low power.

The time shift capable device 160 is a device capable of power shifting in such a way that power is supplied later.

The power provider 100 serves to supply power. For example, the power provider 100 may supply power through a power grid or the like.

The ESS 110 stores power supplied from the power provider 100 , and supplies power to the non-shiftable device 130 , the power shiftable device 150 , and the time-shiftable device 160 .

The ESS control system 120 collects power information of the ESS 110 , the non-shiftable device 130 , the power shiftable device 150 , and the time shiftable device 160 , and uses the collected power information to the ESS ( In 110 , the power supplied to the non-shiftable device 130 , the power shiftable device 150 , and the time-shiftable device 160 is controlled.

In the present invention, the ESS control system 120 controls the ESS 110 to supply power according to the power demand ratio of the power shiftable device 150 and the time shiftable device 160 .

The ESS control system 120 includes the power demand information of the non-shiftable device 130 , the power demand information of the power shiftable device 150 , the power demand information of the time-shiftable device 160 , and the SoC (State of the ESS 110 ). of Charge) information, calculates control information of the ESS 110 through the received power information, and purchases power from the power provider 100 through the calculated control information, or enables power shift It is possible to control the power of the device 150 and the time shift capable device 160 .

In FIG. 1 , the ESS 110 receives power from the power provider 100 and supplies power to the non-shiftable device 130 , the power shiftable device 150 of the shiftable device 140 , and the time-shiftable device 160 . supply

The power supplied by the ESS 110 to the power shiftable device 150 and the time shiftable device 160 of the shiftable device 140 may be adjusted through the power information collected by the ESS control system 120 . It is also possible to purchase power from the power provider 100 to power the non-shiftable device 130 .

In FIG. 1 , the ESS control system 120 shows the SoC (State of Charge) of the ESS 110 , the power demand of the non-shiftable device 130 , the power demand of the power shiftable device 150 , and the time shift capable device 160 . Receives power demand information of Then, control information of the ESS 110 is calculated based on the received information. Then, power is purchased from the power provider 100 through the calculated control information, or power supplied to the power shiftable device 150 and the time shiftable device 160 from the ESS 110 is controlled.

2 is a block diagram showing an internal configuration of an ESS control system according to an embodiment of the present invention.

That is, FIG. 2 is a block diagram showing the internal configuration of the ESS control system 120 that collects power information and calculates control information of the ESS 110 .

Referring to FIG. 2 , the ESS control system 120 includes a power information receiver 121 , a control information calculator 122 , and a power controller 123 .

The power information receiving unit 121 receives power demand information of each non-shiftable device 130 , power demand information of each power shiftable device 150 , power demand information of each time-shiftable device 160 , and the ESS 110 . It serves to receive power information including SoC information.

The control information calculating unit 122 calculates the amount of power to be supplied by the ESS 110 to each device based on the power information received from the power information receiving unit 121 , and through this, calculates control information for controlling the ESS 110 . do.

The power control unit 123 determines the amount of power purchased from the power provider 100 by using the control information calculated by the control information calculation unit 122 , the non-shiftable device 130 , the power shiftable device 150 , and the time. The power supplied from the ESS 110 is controlled according to the power demand of the shiftable device 160 .

In FIG. 2 , the ESS control system 120 collects power information and calculates control information of the ESS 110 . In addition, power is purchased from the power provider 100 through the calculated information, or the power of the non-shiftable device 130 and the shiftable device 140 is controlled by the power of the power shiftable device 150 and the time shiftable device 160 . do.

Now, the equation for implementing the ESS power distribution system in the present invention is as follows.

[Equation 1]

는 단위시간 t에서 모든 기기의 소모하는 전력량이고,

는 단위시간 t에서 시프트 불가능 기기에 제공되는 전력량이고,

는 단위시간 t에서 전력 시프트 가능 기기에 제공되는 전력량이고,

는 단위시간 t에서 시간 시프트 가능 기기에 제공되는 전력량이다.here,

is the amount of power consumed by all devices in unit time t,

is the amount of power provided to the non-shiftable device in unit time t,

is the amount of power provided to the power shiftable device in unit time t,

is the amount of power provided to the time-shiftable device in unit time t.

In Equation 1, the amount of power consumed by all devices at unit time t is the amount of power provided to the non-shiftable device at the unit time t, the amount of power provided to the power shiftable device at the unit time t, and the time-shiftable device at the unit time t. It is determined by the amount of power available.

[Equation 2]

는 단위시간 t에서 시프트 불가능 기기가 요구하는 전력량이고,

는 단위시간 t에서 전력공급자로부터 들어오는 전력량이고,

는 단위시간 t-1에서 ESS의 SoC이고,

는 단위시간 t에서 전력 공급자로부터 추가적으로 구매해야하는 전력량이고,

는 단위시간 t에서 시프트 불가능 기기의 전력을 공급하고 남은 ESS의 SoC이다.here,

is the amount of power required by the non-shiftable device in unit time t,

is the amount of power coming from the power supplier at unit time t,

is the SoC of the ESS at unit time t-1,

is the amount of power that must be additionally purchased from the power supplier at unit time t,

is the SoC of the ESS remaining after supplying power to the non-shiftable device at unit time t.

In Equation 2, the amount of power provided to the non-shiftable device at a unit time t must be provided as much as the amount of power required by the non-shiftable device.

And, the conditional expression is determined by the SoC of the ESS remaining after the power of the non-shiftable device is supplied at the unit time t. That is, if the SoC of the remaining ESS after supplying power to the non-shiftable device at the unit time t is 0 or more, the amount of power required by the non-shiftable device at the unit time t is provided. In addition, if the remaining SoC of the ESS after supplying power to the non-shiftable device at unit time t is less than 0, the amount of power coming from the power supplier at unit time t, the SoC of the ESS at unit time t-1, and additionally from the power provider at unit time t The non-shiftable device provides the desired amount of power by the amount of power that must be purchased.

[Equation 3]

In Equation 3, the SoC of the ESS that remains after supplying the power of the non-shiftable device at the unit time t is the amount of power coming from the power supplier at the unit time t, the SoC of the ESS at the unit time t-1, and the non-shiftable device at the unit time t It is determined by the amount of power being used.

[Equation 4]

In Equation 4, when the SoC of the remaining ESS after processing the power of the non-shiftable device at the unit time t is negative, the amount of power that needs to be additionally purchased from the power provider at the unit time t is determined according to the SoC of the ESS remaining after processing the non-shiftable device do.

[Equation 5]

는 단위시간 t에서 전력 시프트 가능 기기가 요구하는 전력량이고,

는 단위시간 t에서 시간 시프트 가능 기기가 요구하는 전력량이다. here,

is the amount of power required by the power shiftable device in unit time t,

is the amount of power required by a time-shiftable device in unit time t.

In Equation 5, the amount of power provided to the power shiftable device at the unit time t is determined by the SoC of the ESS remaining after the power of the non-shiftable device is supplied at the unit time t.

And, the conditional expression is greater than the sum of the amount of power required by the power shiftable device at the unit time t and the amount of power required by the time shiftable device at the unit time t for the remaining SoC of the ESS after supplying power to the non-shiftable device at unit time t. If it is large, the amount of power required by the power shiftable device is provided in unit time t.

If the SoC of the remaining ESS after supplying power to the non-shiftable device at unit time t exceeds 0, and is less than the sum of the amount of power required by the power-shiftable device at unit time t and the amount of power required by the time-shiftable device at unit time t, Shifts the power shift capable device and is provided with the amount of power according to the required ratio.

If the SoC of the remaining ESS after supplying power to the non-shiftable device at unit time t is 0 or less, all the power supplied to the power shiftable device is shifted.

[Equation 6]

In Equation 6, the amount of power provided to the time-shiftable device at the unit time t is determined by the SoC of the ESS remaining after processing the power of the non-shiftable device at the unit time t.

And, the conditional expression is greater than the sum of the amount of power required by the power shiftable device at the unit time t and the amount of power required by the time shiftable device at the unit time t for the remaining SoC of the ESS after supplying power to the non-shiftable device at unit time t. If it is large, the amount of power required by the time-shiftable device is provided at a unit time t.

If the SoC of the remaining ESS after supplying power to the non-shiftable device at unit time t exceeds 0, and is less than the sum of the amount of power required by the power-shiftable device at unit time t and the amount of power required by the time-shiftable device at unit time t, Shift time-shiftable devices and receive the amount of power per demand ratio.

If the power of the non-shiftable device is supplied at the unit time t and the remaining SoC of the ESS is 0 or less, all power supplied to the time-shiftable device is shifted.

[Equation 7]

는 단위시간 t에서 ESS의 SoC이고,

는 단위시간 t에서 모든 기기의 소모하는 전력량이다.here,

is the SoC of the ESS at unit time t,

is the amount of power consumed by all devices in unit time t.

In Equation 7, the SoC of the ESS at the unit time t is determined by the power coming from the power supplier at the unit time t, the SoC of the ESS at the unit time t-1, and the amount of power consumed by all devices at the unit time t.

Although the present invention has been described above using several preferred embodiments, these examples are illustrative and not restrictive. Those of ordinary skill in the art to which the present invention pertains will understand that various changes and modifications can be made without departing from the spirit of the present invention and the scope of the appended claims.

100 Power Provider 110 ESS
120 ESS control system 130 Non-shiftable units
140 Shiftable Units 150 Power Shiftable Units
160 time shiftable device 121 power information receiver
122 Control information calculation unit 123 Power control unit

Claims (10)

a power provider that supplies power;
an Energy Storage System (ESS) for storing power supplied from the power provider and supplying power to non-shiftable devices, power shiftable devices, and time shiftable devices; and
Collect power information of the ESS, the non-shiftable device, the power shiftable device, and the time shiftable device, and use the collected power information to perform the non-shiftable device, the power shiftable device and the time shift in the ESS Including an ESS control system that controls the power supplied to the capable device,
The ESS control system ESS power distribution system, characterized in that for controlling the ESS to supply power according to the power demand ratio of the power shiftable device and the time shiftable device.
The method according to claim 1,
The ESS control system provides power information including power demand information of the non-shiftable device, power demand information of the power shiftable device, power demand information of the time shiftable device, and SoC (State of Charge) information of the ESS. receiving, calculating the control information of the ESS through the received power information, purchasing power from the power provider through the calculated control information, or controlling the power of the power shiftable device and the time shiftable device ESS power distribution system characterized.
3. The method according to claim 2,
The ESS control system,
a power information receiving unit for receiving power information including power demand information of each non-shiftable device, power demand information of each power shiftable device, power demand information of each time shiftable device, and SoC information of the ESS;
a control information calculation unit calculating the amount of power to be supplied by the ESS to each device based on the power information received from the power information receiving unit, and calculating control information for controlling the ESS through this; and
The amount of power purchased from the power provider is determined using the control information calculated by the control information calculation unit, and the amount of power supplied from the ESS is determined according to the power requirements of the non-shiftable device, the power shiftable device, and the time shiftable device. Power control unit to control power
ESS power distribution system, characterized in that it comprises a.
4. The method according to claim 3,

is the amount of power provided to the non-shiftable device in unit time t,

is the amount of power provided to the power shiftable device in unit time t,

Assuming that is the amount of power provided to a time-shiftable device in unit time t,
The amount of power consumed by all devices is determined by the amount of power provided to the non-shiftable device, the amount of power provided to the power-shiftable device, and the amount of power provided to the time-shiftable device.

(Equation 1)
ESS power distribution system, characterized in that it can be expressed as
5. The method according to claim 4,

is the amount of power required by the non-shiftable device in unit time t,

is the amount of power that must be additionally purchased from the power supplier at unit time t,

is the SoC of the ESS remaining after supplying power to the non-shiftable device at unit time t,
The amount of power provided to non-shiftable devices is:

(Equation 2)
ESS power distribution system, characterized in that it is determined according to the conditional expression of
6. The method of claim 5,
The SoC of the ESS that remains after supplying power to the non-shiftable device is determined by the amount of power coming from the power provider, the SoC of the ESS at unit time t-1, and the amount of power required by the non-shiftable device.

(Equation 3)
ESS power distribution system, characterized in that it can be expressed as
7. The method of claim 6,
If the SoC of the ESS remaining after supplying power to the non-shiftable device is negative, the amount of additional power to be purchased from the power provider is determined by the SoC of the ESS remaining after supplying power to the non-shiftable device,

(Equation 4)
ESS power distribution system, characterized in that it can be expressed as
8. The method of claim 7,

is the amount of power required by the power shiftable device in unit time t,

When is the amount of power required by a time-shiftable device in unit time t,
The amount of power required by a power shift capable device is,

(Equation 5)
ESS power distribution system, characterized in that it is determined according to the conditional expression of
9. The method of claim 8,
The amount of power provided to a time-shiftable device is:

(Equation 6)
ESS power distribution system, characterized in that it is determined according to the conditional expression of
10. The method of claim 9,

is the SoC of the ESS at unit time t,

is the amount of power consumed by all devices in unit time t,

(Equation 7)
ESS power distribution system, characterized in that it can be expressed as

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