KR101777821B1 - Solar power generation systim having ess and method for operating the same - Google Patents

Abstract

According to the present invention, a solar power generation system includes an energy storage device. The solar power generation system includes: a solar power generation apparatus (110) including a solar power generation module (111) generating DC power from sunlight and an inverter (115) converting the DC power generated by the solar power generation module (111) to AC power while being connected to a power grid source (11) of Korea electric power corporation (KEPCO); an energy storage device (130) including a battery unit (131) and a power conversion system (PCS) unit (135) which converts the AC power supplied from the solar power generation apparatus (110) in a charging mode to DC power, supplies the DC power to the battery unit (131), converts the DC power discharged from the battery unit (131) in a discharging mode to AC power, and outputs the converted AC power; and an energy management device (160) which controls the operation of the energy storage device (130) and the solar power generation apparatus (110). The energy management device (160) compares the real-time charging power amount measured in the PCS unit (135) and the real-time power generation amount measured in the inverter (115) to operate the PCS unit (135) only when the power generation amount is greater than the charging power amount.

Description

TECHNICAL FIELD [0001] The present invention relates to a solar power generation system having an energy storage device and a method of operating the solar power generation system.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar power generation system having an energy storage system (ESS), and more particularly, to a solar power generation system having an ESS Solar power generation system.

FIG. 1 shows a schematic diagram of a solar power generation system having a conventional ESS. 1, a PV module 16, an ESS 17 storing electric energy generated in the PV module 16, and a PV module 16 and an ESS 17 are connected to the PV module 16 and the ESS 17, respectively. (Metering Out of Fit) 12 and a transformer 15 which are connected to the electric power system 11 and a power transformer 15 connected to the MOF 12 for power generation A meter 13 and a water meter 14 are provided. In the ESS charging mode operating at the charging allowable time (10 to 16 hours), electric power generated in the PV module 16 is supplied to the ESS 17 for charging, and after the ESS 17 is charged, (11), and the load (19) is supplied with electric power from the electric power system (11). The ESS discharge mode is activated at other times than the charge allowable time. In the ESS charging mode, when the power generation amount of the PV module 16 is insufficient, the ESS 17 is charged through the KEPCO system 11, and the supply certificate can not be recognized for the ESS capacity charged from the KEPCO system power source. Because it is technically impossible to prevent ESS charging from the mains power supply, it is possible to install a circuit breaker in front of the PV module and ESS, but it also blocks the power generated by the PV module in order to prevent charging the ESS. It is a big loss to the photovoltaic power generation company.

It is an object of the present invention to provide a solar power generation system having an energy storage device operated in conjunction with an external power supply such as a power system power supply and having a function of preventing ESS charging from an external power supply and a method of operating the same.

According to an aspect of the present invention,

A solar power generation module 111 for generating direct current power from solar light and an inverter unit 115 for converting direct current power produced by the solar power generation module into AC power, A photovoltaic device 110; DC power supplied from the photovoltaic power generation device in the charging mode and DC power supplied from the photovoltaic power generation device in the charging mode to the battery section and converts the DC power discharged from the battery section in the discharging mode into AC power and outputs the AC power An energy storage device 130 having a PCS portion 135; And an energy management device (160) for controlling the operation of the solar power generation device and the energy storage device, wherein the energy management device calculates a real time power generation amount measured in the inverter part and a real time charge power amount measured in the PCS part And operates the PCS unit only when the generated power amount is larger than the charged power amount.

The energy storage device further includes an electromagnetic contactor connected between the battery unit and the PCS unit and a breaker installed in the battery unit. When the amount of electric power generated by the electromagnetic contactor and the breaker is smaller than the charge power, Its operation can be controlled by the energy management device to block the electrical connection.

The solar power generation system may further include a data collection unit 150 for collecting real-time generated power measured by the inverter unit and real-time charged power measured by the PCS unit and transmitting the collected collected data to the energy management unit.

The energy management device may transmit a control signal to the breaker and the electromagnetic contactor through the data collection device.

According to another aspect of the present invention, in order to achieve the above object of the present invention,

A method for preventing charging of an energy storage device from a power supply system in a charging mode in a solar power generation system having the energy storage device, the method comprising: Comparing the real-time charging power amount; Real time charging power amount adjustment so that the real time charging power amount is smaller than the real time generation power amount; And activating the PCS only when the real-time generated electric power amount is larger than the real-time charged electric power amount.

According to the present invention, all of the objects of the present invention described above can be achieved. Specifically, since the PCS is operated only when the generated power amount is greater than the charged power amount by comparing the generated power amount in the solar power generation apparatus collected through the data collecting apparatus in the charging mode with the charged power amount in the ESS, The charging of the ESS can be effectively prevented.

FIG. 1 is a schematic diagram showing a conventional photovoltaic power generation system having an ESS.
2 is a block diagram illustrating a solar power generation system including an ESS according to an embodiment of the present invention.

Hereinafter, the configuration and operation of an embodiment of the present invention will be described in detail with reference to the drawings.

2 is a block diagram of a photovoltaic generation system having an ESS according to an embodiment of the present invention. Referring to FIG. 2, a solar power generation system 100 including an ESS according to an embodiment of the present invention includes a solar power generation device 110, an energy storage device (ESS) 130, (140), a data collection device (150), and an energy management device (EMS) (160). The solar power generation system 100 including the ESS is connected to the electric power system 11 through the PV power generation cumulative power meter 13 and the water-specific cumulative power meter 14. [

The solar photovoltaic device 110 includes a solar photovoltaic module (PV module) 111 for producing direct current power from solar light, an inverter (115). The amount of electric power generated by the inverter unit 115 is measured in real time and the data is transmitted to the data collecting apparatus 150. The AC power generated by the solar power generation apparatus 110 may be supplied to the energy storage device 130 for charging the energy storage device 130 or may be supplied to the KEPCO system 11 when the charging of the energy storage device 130 is completed, . The photovoltaic device 110 including the PV module 111 and the inverter unit 115 includes a configuration conventionally used in the field of solar power generation technology.

The energy storage device (ESS) 130 includes a battery unit 131, a PCS (Power Conversion System) unit 135, an electromagnetic contactor (MC) 136 for connecting the battery unit 131 and the PCS unit 135 . The energy storage device (ESS) 130 converts the AC power supplied from the solar power generator 110 into the DC power using the PCS 135 and stores it in the battery part 131 in the charge mode, DC power stored in the battery section 131 is converted into an AC power using the PCS section 135 and is output.

DC power is stored in the battery unit 131 through charging. The battery unit 131 is electrically connected to the electromagnetic contactor 136 and includes a breaker 132 for blocking the charging of the battery unit 131 if necessary. The breaker 132 is in communication with the data acquisition device 150 and is controlled by the energy management device 160 along with the electromagnetic contactor 136.

The PCS unit 135 converts the AC power supplied from the solar cell generator 110 into the DC power in the charging mode and supplies the DC power to the battery unit 131 and the DC power discharged from the battery unit 131 in the discharge mode Converted to AC power and output. The amount of power being charged in the PCS unit 135 is measured in real time and the data is transferred to the data acquisition device 150.

The electromagnetic contactor 136 electrically connects the battery unit 131 and the PCS unit 135 and operates to shut off the charging of the battery unit 131 if necessary. The junction contactor 136 communicates with the data collection device 150 and its operation is controlled by the energy management device 160 along with the circuit breaker 132.

The data collecting apparatus 150 communicates with the inverter unit 115, the PCS unit 135, the breaker 132, the electromagnetic contactor 136 and the energy management apparatus 160 as a remote terminal unit (RTU) do. It is assumed that the data collecting apparatus 150 communicates with the inverter unit 115, the PCS unit 135, the breaker 132 and the electromagnetic contactor 136 using the RS485 communication method. In the present embodiment, it is assumed that the data collecting apparatus 150 communicates with the energy management apparatus 160 using TCP-IP or W-CDMA (wired or wireless). The real-time power generation amount measured by the inverter unit 115 is transmitted to the energy management unit 160 via the data collection unit 150. The real-time charge amount measured by the PCS unit 135 is transmitted to the data collection unit 150 And transmitted to the energy management device 160. The breaker 132 and the electromagnetic contactor 136 receive a control signal via the data acquisition device 150.

The energy management system (EMS) 160 efficiently controls the charging and discharging of the solar power generation system 100 through communication with the data collection device 150. The feature of the present invention is to prevent the charging of the ESS 130 from the uninterruptible power supply 11, and thus the function of the energy management device 160 related thereto will be mainly described. The energy management device 160 compares the amount of generated power in the photovoltaic device 110 and the amount of charged power in the ESS 130 collected through the data collecting device 150 in the charging mode so that the generated power amount is larger than the charged power amount Only the PCS unit 135 is operated. To this end, the energy management apparatus 160 includes a program for executing an algorithm for actively varying the amount of charge power in the ESS 130 below the value of the generated power amount measured by the photovoltaic power generation apparatus 110. The energy management apparatus 160 operates the breaker 132 and the electromagnetic contactor 136 so that the amount of electric power charged in the ESS 130 becomes larger than the amount of electric power generated by the solar power generation apparatus 110 due to an error in the program The battery unit 131 is shut off to prevent charging from the uninterruptible power supply 11.

The present invention provides a method of operating a solar power generation system having the ESS shown in FIG. A method of operating a photovoltaic power generation system having an ESS according to the present invention is a method for preventing ESS charging from a power system power supply in a charging mode, the method comprising the steps of: comparing a real- Adjusting the charging power amount in real time so that the real time charging power amount is smaller than the real time charging power amount; and operating the PCS only when the real time charging power amount is larger than the real time charging power amount.

Although the present invention has been described with reference to the above embodiments, the present invention is not limited thereto. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

100: solar power generation system 110: solar power generation apparatus
111: PV module 115: Inverter section
130: Energy storage device 131: Battery part
132: breaker 135: PCS section
136: magnetic contactor 150: data acquisition device
160: Energy management device

Claims (5)

A solar power generation module 111 for generating direct current power from solar light and an inverter unit 115 for converting direct current power produced by the solar power generation module into AC power, A photovoltaic device 110;
DC power supplied from the photovoltaic power generation device in the charging mode and DC power supplied from the photovoltaic power generation device in the charging mode to the battery section and converts the DC power discharged from the battery section in the discharging mode into AC power and outputs the AC power An energy storage device 130 having a PCS part 135, an electromagnetic contactor connected between the battery part and the PCS, and a circuit breaker installed in the battery part;
An energy management device (160) for controlling the operation of the photovoltaic device and the energy storage device; And
And a data collection unit (150) for collecting the real-time generated power measured by the inverter unit and the real-time charged power measured by the PCS unit and transmitting the collected collected amount to the energy management unit,
The energy management apparatus compares the real-time generation power measured by the inverter unit and the real-time charging power measured by the PCS unit to operate the PCS unit only when the real-time generation power is greater than the real-time charging power, And activates the breaker and the electromagnetic contactor to shut off the battery unit if the amount of the charged electricity is larger than the generated power due to the program error. delete delete delete delete

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