KR20210049640A - Primary energy production system using wind-power energy, ESS and generator - Google Patents

Abstract

An embodiment of the present invention provides a system for increasing production of primary energy by using a wind turbine, an energy storage system (ESS) and generators, which comprises: a first battery pack (110) where power is stored for operation of the system through a wind turbine (112) and a first generator (111); a first converter (113) interposed between a second generator (122) and the first battery pack (110) to convert power, wherein they constitute input units (101a, 101b); and a second converter (114) interposed between the second generator (122) and an ESS (120) to convert a voltage into an input voltage and supply power applied by the ESS (120) and a first inverter (123) to an electric motor (131). Moreover, the system for increasing production of primary energy by using a wind turbine, an ESS and generators can be operated by transferring power from the ESS (120) through a second inverter (124) to a grid, thereby allowing eco-friendly energy recycling and enhancing efficiency of increasing energy production.

Description

Primary energy production system using wind-power energy, ESS and generator}

The present invention relates to a system for increasing primary energy using a wind turbine, an energy storage device, and a power generating device, and rotates without load to overcome the limitation of the amount of power generation using the existing wind-power and energy storage device (ESS). The present invention relates to a hybrid energy increasing system in which the primary energy stored by using a power generating body having a characteristic of resistance is reused to increase it to secondary energy.

In general, a power generation system using a conventional wind energy and energy storage device has a limit on the amount of power generated by wind conditions and climate environment.

Therefore, a system that reuses and increases the primary energy source is needed, and eco-friendly power generation and production by using the fusion of the previously invented'generator using two rotors (patent 101955030)' and the existing wind energy and energy storage devices. It is to provide a system.

An object of the present invention is a wind turbine, a first generator, a second generator, a first battery pack, an energy storage device (ESS), a controller, It is to provide a hybrid power generation and increase system that can maximize energy production efficiency by converging electric motors, inverters, and converters.

According to an embodiment of the present invention, the system includes a wind turbine in the power supply unit;

A first power generating body coupled to a wind turbine;

A first converter coupled to the first power generating body;

A first battery pack coupled to the first converter;

A booster connected to the first battery pack to jump and boost energy;

An ESS (energy storage device) connected to the booster;

A first inverter connected to the ESS;

An electric motor receiving power from the first inverter;

A second power generating body driven by an electric motor;

A second converter connected to the second power generation body;

An ESS connected to a second converter;

A second inverter for connecting electric power from the ESS to the grid;

It has an external power supply, a power control unit, and an intelligent integrated control unit.

At this time, the input value of the electric energy of the electric motor is configured to a level lower than the output value of the electric energy of the second power generating body, and the mechanical torque is a generator (patent 101955030) with insignificant rotational resistance. Using this, the mechanical output torque value of the electric motor may be configured to be the same as the mechanical input torque value of the second power generating body or may be configured to be slightly larger.

Therefore, the output value of the electric energy of the second power generating body appears larger than the input value of the electric energy of the electric motor.

According to an embodiment of the present invention, primary energy is stored in the first battery pack using a wind turbine, a first power generating body, and a first converter, and a booster is used to store primary energy from the first battery pack to an ESS having a larger capacity. A temporary hybrid power generation and increase system that jumps and boosts energy, drives the second power generation body with an electric motor supplied with power from the ESS, and feeds back the generated secondary energy to the ESS and stores it. It is composed.

This can be seen as a violation of the law of energy conservation, but the small electrical primary energy input initially is used as the mechanical primary energy of the electric motor, and at the same time, it is used as the mechanical secondary energy with the same torque to the second power generating body without rotational resistance. In the end, it is a very useful system that receives very little load when an energy storage device is used as an innovative method in which electrical secondary energy having a large output is produced from the second power generation body.

1 is a block diagram showing a structure according to a first embodiment of the present invention
2 is a block diagram of a power control unit shown in FIG. 1
3 is a plan view of a generator using two rotors

Hereinafter, with reference to FIGS. 1 to 2 attached to a preferred embodiment of the present invention will be described in more detail.

1 is a block diagram showing the structure of a primary energy increase system using a wind turbine, an energy storage device, and a power generating body according to a first embodiment of the present invention.

The power supply unit 100 includes a wind turbine 112, a first power generating body 111, and a first converter 113;

A first battery pack 110, a booster 118, and an ESS 120;

A first inverter 123 and a second inverter 124;

The electric motor 131 and the second power generating body 122 and

An external power source 119 including a charger; And

It includes a power control unit 150 and an intelligent integrated control unit 300.

In addition, as a configuration method, the wind turbine 112 stores primary energy in the first battery pack 110 through the first power generating body 111 and the first converter 113.

The primary energy stored in the first battery pack 110 is configured to be supplied to the ESS 120 through the booster 118.

The ESS 120 is coupled to the electric motor 131 through the first inverter 113 to drive the second power generating body 122.

Electric power produced by the second power generating body 122 is stored as secondary energy in the ESS 120 through the second converter 114.

In addition, the secondary energy stored in the ESS 120 is connected to the Grid (On & Off) through the second inverter 124 to supply a certain portion to the consumer.

In addition, the external power source 119 including a charger is coupled to the first battery pack 110 for emergency charging.

The first power generation body 111 and the second power generation body 122 may be configured by selecting for AC power generation or DC power generation.

FIG. 2 is a block diagram illustrating the power control unit 150 shown in FIG. 1.

A first input unit 101a in which voltage is stored in the first battery pack 110 through the first power generating body 111 and the external power source 119;

A second input unit 101b stored from the second power generation body 122 to the ESS 120;

It is composed of an output unit 102 supplied from the ESS 120 to an on-grid or off-grid by the second inverter 124.

In addition, a power control unit 150 for controlling the input units 101a and 101b and the output unit 102 is configured, and the power control unit 150 is configured to be controlled by the intelligent integrated control unit 300.

Looking at the functions of FIGS. 1 to 2 of the present invention,

The first power generating body 111 driven by the wind turbine 112 is stored as primary energy in the first battery pack 110 by the first converter 113,

Jumping and boosting the primary energy of the first battery pack 110 to the ESS 120 with a booster 118,

When the electric motor 131 is driven through the first inverter 123 using the boosted primary energy of the ESS 120, the power generated through the second power generating body 122 is converted into the second converter 114 Through the ESS 120 is produced and stored as secondary energy again.

Therefore, secondary energy is temporarily supplied to the electric motor 131 from the ESS 120, and the electric motor 131 passes through the second power generation body 122 through the first inverter 123. It is operated to store the secondary energy several times in the ESS 120 to provide temporary energy regeneration recycling.

The storage amount of secondary energy can have different output values depending on the configuration of the power plant and other conditions.

A portion of the surplus produced power of the ESS 120 is supplied to consumers by using on-grid or off-grid by the second inverter 124.

In order to achieve such an operation principle, the input value of the primary electric energy of the electric motor 131 is at a very low level (for example, 1/2 to the output value of the secondary electric energy of the second power generating body 122). 1/10), the mechanical output torque value of the electric motor 131 may be the same or slightly higher than the mechanical input torque value of the second power generating body 122.

This can be seen as a violation of the law of energy conservation, but the small electrical primary energy initially input is used as the mechanical primary energy of the electric motor 131 and at the same time, the same torque is applied to the second power generating body 122 without rotational resistance. It is a very useful system that receives very little load when an energy storage device is used as an innovative method in which an electric secondary energy having a large output is produced from the second power generating body 122 because it is used as an excitation mechanical secondary energy.

The external power source 119 may store power in the first battery pack 110 by a charger.

As described above, with reference to a preferred embodiment of the present invention, the wind turbine and the energy storage device of the present invention, and the primary energy increase system using the power generation unit have been described, but modifications, changes and modifications within the scope not departing from the spirit of the present invention Various modifications are possible. Therefore, the scope of protection of the present invention should be construed as including all examples of changes or modifications or adjustments.

1: A system for increasing primary energy using wind turbines, energy storage devices, and power plants
100: power supply
101a: first input unit 101b: second input unit
110: 1st battery pack
111: first power generation body
113: first converter 114: second converter
118: booster 119: external power
120: ESS
122: second power generation body 123: first inverter 124: second inverter
131: electric motor
150: power control unit
300: intelligent integrated control unit

Claims (6)

Primary energy increase system using wind turbine energy storage device and power generation system (1);
A first power generating body 111 driven from the wind turbine 111;
The first converter 113 connecting the first power generating body 111 and the first battery pack 110;
A first battery pack 110 receiving power from the first power generating body 111 through the first converter 113;
A booster 118 connecting the first battery pack 110 and the ESS 120;
The ESS (120) for jumping and boosting the energy stored in the first battery pack (110) by the booster (118);
An electric motor 131 driven from the ESS 120 via a first inverter 123;
A second power generating body 122 driven by the electric motor 131;
A second converter 114 connected to store secondary energy from the second power generating body 122 to the ESS 120; And
A wind turbine, an energy storage device, and a primary energy increase system using a power generating body, characterized in that the energy stored in the ESS 120 is connected to a grid through the second inverter 124. The method of claim 1,
The input value of the electric energy of the electric motor 131 is configured to a level lower than the output value of the electric energy of the second power generating body 122, and the mechanical output torque value of the electric motor 131 is determined by the control. 2 A wind turbine, an energy storage device, and a primary energy increase system using a power generating unit, characterized in that it comprises a configuration equal to or slightly higher than the mechanical input torque value of the power generating unit 122. The method of claim 1,
Looking at the driving principle, the energy produced from the wind turbine 112 and the first power generating body 111 is stored as primary energy in the first battery pack 110 by the first converter 113, and the first 1 Jumping and boosting the primary energy of the battery pack 110 to the ESS 120, and the electric motor 131 through the first inverter 123 using the boosted primary energy of the ESS 120 ) Is driven, the power generated through the second power generating body 122 is increased and stored as secondary energy in the ESS 120 via the second converter 114;
Therefore, secondary energy is temporarily supplied to the electric motor 131 from the ESS 120, and the electric motor 131 passes through the second power generation body 122 through the first inverter 123. It is operated so that the secondary energy is stored in the ESS 120 several times to provide temporary energy regeneration recycling;
A wind turbine and energy storage device and power generation system, characterized in that the surplus produced power of the ESS 120 supplies a certain portion to the consumer using on-grid or off-grid by the second inverter 124 Primary energy increase system using. The method of claim 1,
1 using a wind turbine and an energy storage device and a power generating body, characterized in that the first power generation body 111 and the second power generation body 122 are configured to be configured by selecting for AC power generation or DC power generation. Secondary energy production system. The method of claim 1,
The first input unit 101a in which voltage is stored in the first battery pack 110 through the wind turbine 112 and the external power supply 119;
The second input unit 101b stored in the ESS 120 from the second power generation body 122;
The output unit 102 supplied from the ESS 120 to the electric motor 131 and the second inverter 124;
The power control unit 150 for controlling the input units 101a and 101b and the output unit 102; And
The power control unit 150 is configured to be controlled by the intelligent integrated control unit 300, characterized in that the wind turbine, energy storage device, and primary energy increase system using a power generating body. The method of claim 5,
A wind turbine and an energy storage device, characterized in that the input/output is adjusted through the intelligent integrated control unit 300 for integrated management of the power control unit 150 when an input/output value equal to or greater than the preset value is applied to the condition of each device Primary energy increase system using power generation.

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