KR20210133911A - Primary energy production system using solar energy, ESS and generator - Google Patents

Abstract

According to an embodiment of the present invention, in order to operate a primary energy production increase system using solar energy, an energy storage system (ESS), and a power generator, a voltage is stored in a first battery pack (110) through a solar cell (115), and a first converter (113) and the like installed between the solar cell (115) and the first battery pack (110) to convert a power of the solar cell (115) are configured as input units (101a, 101b); and the power applied through an ESS (120) and a first inverter (123) is supplied to an electric motor (131), a second converter (114) is installed between a power generator (122) and the ESS (120) to convert the voltage into an input voltage, and a connection is established from the ESS (120) to a grid through the second inverter (124) to operate the primary energy production increase system using the solar energy, the ESS, and the power generator. Accordingly, efficiency of eco-friendly energy reuse and energy production increase is provided.

Description

Primary energy production system using solar energy, ESS and generator}

The present invention relates to a system for increasing the production of primary energy using solar energy, an energy storage device, and a power generation body. To overcome the limitation of solar power generation by generating electricity, it relates to a hybrid energy generation system that aims to increase energy by reusing the primary energy stored using a power generation body with insignificant rotational resistance.

In general, power generation systems using conventional solar energy and energy storage devices have limitations in the amount of power generation due to sunlight hours and climate environment when used at home or automobile charging stations.

Therefore, there is a need for a system that reuses the primary energy source and increases production, so eco-friendly power generation and This is to provide an increase in production system.

An object of the present invention is a solar cell (Solar-Power), a first battery pack (1st Battery Pack), an energy storage device (ESS), a first converter, a second converter, an electric motor, a first inverter, a second inverter, The goal is to provide a hybrid power generation and production increase system that can maximize energy production efficiency by convergence of the generator and the controller.

According to an embodiment of the present invention,

The system includes: a first converter for coupling a solar cell and a first battery pack;

a first battery pack coupled to the first converter;

a booster for jumping and boosting energy from the first battery pack;

an ESS (energy storage system) connected to the booster;

a first inverter connecting the ESS and the electric motor;

an electric motor receiving power from the first inverter;

a power generator driven by an electric motor;

a second converter connected to the ESS from the power generation body;

a second inverter for connecting power from the second converter to the grid; and

It has an external power supply, a power supply 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 low level of 1/2 to 1/10 compared to the output value of the electric energy of the power generation body, and the mechanical torque uses a power generation body with insignificant rotational resistance (Patent 101955030) Therefore, the mechanical output torque value of the electric motor can be configured to be the same as the mechanical input torque value of the power generation body, or it can be configured to be slightly larger.

Therefore, the output value of the electric energy of the generator is 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 solar cell and a first converter, and the primary energy is jumped and boosted from the first battery pack to an ESS having a larger capacity, and from the ESS. A temporary hybrid power generation and production system is configured in which the electric motor supplied with power through the first inverter drives the generator and feeds back the secondary energy generated to the ESS to the ESS.

This can be seen as violating the law of conservation of electrical energy, but the small primary electrical energy initially input to the electric motor is converted into primary mechanical energy and at the same time used as primary mechanical energy with the same torque for power generation units without rotational resistance. , it is a very useful system that receives a very small load when using an energy storage device as an innovative method in which secondary electrical energy with high output is produced from the power generator.

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

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

1 is a block diagram showing the structure of a system for increasing primary energy using solar energy, an energy storage device, and a power generation body according to an embodiment of the present invention.

The power supply unit 100 includes a solar cell 115 and a first converter 113;

a first battery pack 110 and an ESS 120;

a booster 118;

an electric motor 131;

a power generating body 122 and first and second inverters 123 and 124;

It is provided with an external power source 119 including a charger.

In addition, as a configuration method, the solar cell 115 is coupled to the first battery pack 110 through the first converter 113 to store primary energy.

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 first inverter 123 and the electric motor 131 to drive the power generation body 122 .

The power generated by the power generator 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 consumers.

And the external power source 119 including the charger is coupled to the first battery pack 110 for emergency charging.

The power generating body 122 may be configured by selecting for alternating current or direct current power generation.

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

a first input unit (101a) for storing power in the first battery pack (110) through the solar cell (115) and the external power source (119);

an output unit 102 connected to a grid (On & Off) from the ESS 120 through the electric motor 131 and the second inverter 124;

and a second input unit 101b that is stored from the power generation unit 122 to the ESS 120 .

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 and 2 of the present invention,

The energy of the solar cell 115 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 the 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 power generation body 122 goes through the second converter 114 . Thus, the ESS 120 is again produced and stored as secondary energy.

Therefore, the secondary energy is temporarily supplied to the electric motor 131 from the ESS 120 , and the electric motor 131 operates the power generation body 122 through the first inverter 123 . By allowing the secondary energy to be stored in the ESS 120 several times, it provides temporary energy reproduction and recycling.

The storage amount of secondary energy can have different output values according to the configuration of the power plant and other conditions, and the surplus-produced power of the ESS 120 is on-grid or off-grid by the second inverter 124 . to supply a certain portion to consumers.

In order to make this operation principle, the input value of the primary electric energy of the electric motor 131 is set at a very low level (for example, 1/2 to 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 power generation body 122 .

Although it can be seen that this violates the law of conservation of electrical energy, the small electrical primary energy initially input is used as the primary mechanical energy of the electric motor 131 and at the same time the same torque is applied to the power generation body 122 without rotational resistance. It is a very useful system that receives a small load when using an energy storage device as an innovative method in which electrical secondary energy having a high output is produced from the power generation body 122 by being used as mechanical secondary energy.

Therefore, since the primary energy is recharged and then restarted several times, the amount of secondary energy stored increases.

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

In the above, the solar energy, energy storage device and power generation system of the present invention have been described with reference to a preferred embodiment of the present invention, but modifications, changes and Various modifications will be possible. Therefore, the protection scope of the present invention should be construed to include all examples of changes, modifications, or adjustments.

1: Solar energy, energy storage device, and primary energy increase system using power generation
100: power supply
101a: first input unit 101b: second input unit
110: first battery pack (1st battery pack)
113: first converter 114: second converter
115: solar cell 118: booster 119: external power source
120: ESS
122: power generation body 123: first inverter 124: second inverter
131: electric motor
150: power control unit

Claims (6)

A system for increasing primary energy using solar energy and energy storage and power generation system (1);
a first battery pack 110 receiving power from the solar cell 115 through the first converter 113;
the first converter 113 connecting the solar cell 115 and the first battery pack 110;
a booster 118 connecting the first battery pack 110 and the ESS 120;
the ESS (120) that receives energy stored from the first battery pack (110) to jump and boost through the booster (118);
an electric motor 131 driven from the ESS 120 via a first inverter 123;
a power generator 122 driven by the electric motor 131 to store secondary energy in the ESS 120;
a second converter 114 for connecting the ESS 120 from the power generation body 122; and
Solar energy and an energy storage device and a power generator, characterized in that it is connected from the ESS (120) to the grid through the second inverter (124). According to claim 1,
The electric energy input value of the electric motor 131 is configured to be lower than the electric energy output value of the power generation body 122 , and the mechanical output torque value of the electric motor 131 is set to the electric energy output value of the electric power generating body 122 . ) compared to the mechanical input torque value of the same or slightly higher than the solar energy and energy storage device and power generation system, characterized in that it includes a configuration to increase the primary energy. According to claim 1,
Looking at the driving principle, the energy produced from the solar cell 115 is stored as primary energy in the first battery pack 110 by the first converter 113, and It jumps and boosts primary energy to the ESS 120 , and when the electric motor 131 is driven through the first inverter 123 using the boosted primary energy of the ESS 120 , the power generation body The power generated through 122 is produced and stored as secondary energy again in the ESS 120 via the second converter 114;
Therefore, the secondary energy is temporarily supplied to the electric motor 131 from the ESS 120 , and the electric motor 131 operates the power generation body 122 through the first inverter 123 . secondary energy is stored in the ESS 120 several times to provide temporary energy reproduction and recycling;
The surplus-produced power of the ESS 120 is a solar energy and energy storage device and a power generation body, characterized in that a certain portion is supplied to consumers using on-grid or off-grid by the second inverter 124 . A system for increasing primary energy using According to claim 1,
The power generation body 122 is a solar energy and energy storage device, characterized in that selected and configured for AC power generation or DC power generation, and a system for increasing primary energy using a power generation body. According to claim 1,
the first input unit 101a in which a voltage is stored in the first battery pack 110 through the solar cell 115 and the external power source 119;
the second input unit 101b stored from the power generation unit 122 to the ESS 120;
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 unit 101a, 101b and the output unit 102;
The power control unit 150 is a solar energy and energy storage device, characterized in that configured to receive the control of the intelligent integrated control unit 300, the primary energy increase system using the power generation body. 6. The method of claim 5,
Solar energy and energy storage device and power generation system, characterized in that the input/output is adjusted through the intelligent integrated control unit 300 that manages the power control unit 150 in an integrated manner.

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