KR20170135008A - Driving Control Method Of Tidal current Power System - Google Patents

Abstract

The present invention relates to a method of controlling an operation of a tidal power generation system, which monitors the output of the tidal power generator and the output values of the voltage, current and power of the charge and discharge of the battery system, And electricity costs can be saved by operating control such as using night-time electricity.
The operation control method of the tidal power generation system proposed by the present invention
A hybrid power control system having a bird generator, a bidirectional inverter, an MPPT AC / DC converter, a bidirectional DC / DC converter, and a control unit, and a bird that supplies a predetermined power required for a load connected to a constant- An operation control method for a power generation system,
A charging mode in which the AC power generated by the tidal power generator is converted into DC power by the MPPT converter and then supplied to the battery through the bidirectional DC / DC converter to charge the battery;
A tidal power generation mode in which the AC power generated in the tidal power generator is converted into DC power in the MPPT AC / DC converter and supplied to the load through the bidirectional inverter in a state where the normal power source is shut off, ,
DC power generated in the tidal power generator is converted into DC power in the MPPT AC / DC converter, and then supplied to the load through the bidirectional inverter, and DC power charged in the battery is supplied to the bidirectional DC / DC converter A discharge operation mode in which AC power supplied from the constant power source is supplied to the load through a bidirectional inverter,
Wherein the AC power generated by the tidal power generator is converted into DC power from the MPPT AC / DC converter and supplied to the load via the bidirectional inverter when the normal power source is interrupted, And a self-sustaining operation mode supplied to the load through the bidirectional inverter through the bidirectional DC / DC converter to supply predetermined power required for the load.
In the case of using the operation control method of the tidal power generation system proposed in the present invention, when an abnormality occurs in the system due to a power failure or the like, the energy storage device changes the operation control method from a current source to a voltage source, Thereby providing an emergency operation function for supplying electric power to the load.

Description

Technical Field [0001] The present invention relates to a tidal current power system,

The present invention detects the optimum state of each of these power sources by interlocking the system (constant power source supplied by KEPCO), the renewable power of the tidal generator, and the battery, and operates the power according to the conditions of the load requiring power Which is a " hybrid energy storage system "

The hybrid power storage system is a new generation power storage system that can operate under the optimum conditions by linking the tidal power generator, battery, and grid power source. It is a distributed power supply system that can operate in conjunction with the system as a current source when the system is normal. When the system is abnormal, it operates as an emergency power source that directly supplies power to the load as a voltage source.

In case of operation in connection with the system, the unstable power generated from the tidal power generator is stabilized by using a battery and is connected to the system, thereby relieving the instability of the system power which may be caused by the renewable power, It stabilizes the grid power and realizes the leveling of the grid power by performing the peak shift function that reduces the peak power occurring in the grid power by using the battery due to the unevenness of the load usage.

The complex algorithm of the hybrid concept can be controlled through a single control board by using a microprocessor single chip (dsPIC chip). By using bidirectional switching using an IGBT semiconductor device, Thereby enabling high efficiency, small size, and light weight of the product. As a result, we can say that it is a new technology / new concept product that applied all the cutting-edge technologies of Power Electronics.

The operation of the system can be checked by the control board equipped with the individual microprocessor and the state information of the individual power source (tidal generator, system power, accumulator) ) And a manual operation mode (Demand Mode) by user command.

1. Patent Application No. 10-2012-0112237, entitled " Grid-connected energy storage system " (Applicant: SENDI POWERNIX Co., Ltd.)

It is an object of the present invention to provide a method for operating control by setting the operation mode according to the time described above and the operation mode according to demand and setting the time of day to utilize the late night electricity, .

The operation control method of the tidal power generation system proposed by the present invention

With a bird generator,

A hybrid power control system having a bidirectional inverter, an MPPT AC / DC converter, a bidirectional DC / DC converter, and a controller,

A method of controlling an operation of a tidal power generation system having a battery and supplying predetermined power required for a load connected to a constant power source,

A charging mode in which the AC power generated by the tidal power generator is converted into DC power by the MPPT converter and then supplied to the battery through the bidirectional DC / DC converter to charge the battery;

A tidal power generation mode in which the AC power generated in the tidal power generator is converted into DC power in the MPPT AC / DC converter and supplied to the load through the bidirectional inverter in a state where the normal power source is shut off, ,

DC power generated in the tidal power generator is converted into DC power in the MPPT AC / DC converter, and then supplied to the load through the bidirectional inverter, and DC power charged in the battery is supplied to the bidirectional DC / DC converter A discharge operation mode in which AC power supplied from the constant power source is supplied to the load through a bidirectional inverter,

Wherein the AC power generated by the tidal power generator is converted into DC power from the MPPT AC / DC converter and supplied to the load via the bidirectional inverter when the normal power source is interrupted, And a self-sustaining operation mode supplied to the load through the bidirectional inverter through the bidirectional DC / DC converter to supply predetermined power required for the load.

In the present invention, the control unit controls the electrical connection between the bidirectional DC / DC converter and the battery after receiving the state information of the tide generator, the battery, and the constant power source.

In the case of using the operation control method of the tidal power generation system proposed in the present invention, when an abnormality occurs in the system due to a power failure or the like, the energy storage device changes the operation control method from a current source to a voltage source, Thereby providing an emergency operation function for supplying electric power to the load.

1 to 4 are views for explaining the operation control method of the tidal power generation system according to the operation mode.

Hereinafter, the operation control method of the tidal power generation system proposed by the present invention will be described with reference to the drawings.

The present invention relates to a distributed power supply system in which independent power sources such as a battery and a tidal power generator are generated in accordance with an optimum power source condition in connection with the system. The system includes a bi-directional DC / DC converter for charging / discharging the battery, Directional Inverter that converts AC to DC by DC to AC. The basic operation is to link the generated power of the inverter to the commercial power supply, and when the commercial power supply is out of order, the generated power of the inverter So that power is supplied to the load.

As an optional addition, the generator charges the electric power generated from the tidal generator to the battery and discharges the remaining electric power to the system.

Each power source is controlled by a DC link method that controls the voltage of the DC stage so that it can operate in parallel, and it is a new algorithm that enables the energy generated by each power source to be utilized in the optimum state. While ensuring reliability of the entire system.

Hereinafter, the present invention will be described with reference to the drawings.

1 to 4 are views for explaining the operation control method of the tidal power generation system according to the operation mode.

As shown in FIGS. 1 to 4, the tidal power generation system according to the present invention includes a hybrid power control system (Hybrid PCS), a tidal power generator, a battery, a load, and a constant power source supplied from an electric power source.

The hybrid power control system of the present invention includes a bidirectional inverter, an MPPT AC / DC converter, a bidirectional DC / DC converter, and a control unit.

The bidirectional inverter of the present invention supplies electric power to a system in a current mode when the battery is operated as a grid-connected type DC to AC inverter from a system (normal power source), and operates as a voltage mode when operating in a load- do. When charging, AC to DC converter operates. In case of operation, it operates with active correction method to improve power factor.

The MPPT AC / DC converter (MPPT) is a device that performs the function to increase the power charging efficiency by adjusting the voltage required for the battery by following the maximum power. It converts the AC generated from the tidal generator into DC .

The bidirectional DC / DC converter performs battery charge and discharge functions.

In other words, bidirectional DC / DC converter is a bi-directional converter that enables both charging and discharging of the battery. In order to charge the battery, a step down buck converter is used to regulate the voltage and current to charge the battery from the system power supply or tidal generator . The maximum charge voltage and current can be adjusted and selected according to battery specifications and size. On the other hand, for discharging, it operates as a step-up booster converter from a battery to a DC link. When the battery reaches the low voltage state set by the battery for protection of the battery, it can be informed by an alarm and it is configured to automatically stop the system if the discharge continues even after the alarm reaches the set low voltage state.

Next, the tidal current generator of the present invention includes all kinds of generators that produce energy using algae, and the battery means a battery device that stores energy supplied from the power source or the tidal generator. For reference, the battery charge is charged to the maximum charging current up to the maximum charging voltage with a constant-voltage constant-current charge. During discharging, the battery is discharged to the minimum battery voltage and stops the inverter. At this time, the battery low voltage signal is generated.

Finally, a load is any device that receives and consumes energy.

Hereinafter, an operation mode of the tidal power generation system according to the present invention will be described with reference to FIGS.

[Charging mode: see Fig. 1]

The charging mode is a mode in which the AC power generated from the tidal power generator is converted into DC power by the MPPT AC / DC converter and then supplied to the battery through the bidirectional DC / DC converter to charge the battery.

In addition, the energy supplied from the constant power source is also charged into the battery via a bidirectional inverter and a bidirectional DC / DC converter.

[Bird generation operation mode: see FIG. 2]

The tidal power generation operation mode is an operation mode in which the AC power generated by the tidal power generator is converted into DC power in the MPPT AC / DC converter and the power is supplied to the load via the bidirectional inverter in a state where the normal power source is shut off.

At this time, energy can also be supplied to the power source to enable energy sale.

[Discharge driving mode: see Fig. 3]

In the discharge operation mode, the AC power generated by the tidal power generator is converted into DC power from the MPPT AC / DC converter, and then supplied to the load through the bidirectional inverter. In addition, the DC power charged in the battery flows through the bidirectional DC / And is supplied to the load through the inverter, and the AC power supplied from the constant power source is also supplied to the load.

[Independent operation mode: see Fig. 4]

In the self-sustaining operation mode, AC power generated in the tidal generator is converted into DC power in the MPPT AC / DC converter and then supplied to the load through the bidirectional inverter when the constant power source is shut off. / DC converter to the load through the bidirectional inverter.

Claims (2)

With a bird generator,
A hybrid power control system having a bidirectional inverter, an MPPT AC / DC converter, a bidirectional DC / DC converter, and a control unit,
A method of controlling an operation of a tidal power generation system having a battery and supplying predetermined power required for a load connected to a constant power source,
A charging mode in which the AC power generated by the tidal power generator is converted into DC power by the MPPT converter and then supplied to the battery through the bidirectional DC / DC converter to charge the battery;
A tidal power generation mode in which the AC power generated in the tidal power generator is converted into DC power in the MPPT AC / DC converter and supplied to the load through the bidirectional inverter in a state where the normal power source is shut off, ,
DC power generated in the tidal power generator is converted into DC power in the MPPT AC / DC converter, and then supplied to the load through the bidirectional inverter, and DC power charged in the battery is supplied to the bidirectional DC / DC converter A discharge operation mode in which AC power supplied from the constant power source is supplied to the load through a bidirectional inverter,
Wherein the AC power generated by the tidal power generator is converted into DC power from the MPPT AC / DC converter and supplied to the load via the bidirectional inverter when the normal power source is interrupted, And a self-sustaining operation mode supplied to the load through the bidirectional inverter through the bidirectional DC / DC converter to supply predetermined power required for the load. The method according to claim 1,
Wherein the control unit controls the electrical connection between the bidirectional DC / DC converter and the battery after receiving the state information of the tidal power generator, the battery, and the constant power source.

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