KR100775820B1 - Electricity Generating System Enable of Power Control and Power Controlling Method for the Same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generation system capable of controlling power and a method for controlling the power thereof. In the cogeneration system that supplies power by using a self-generator, the power control is performed even when the load of a specific electric machine such as an air conditioner suddenly increases. There is an effect that can prevent the down or the generator is broken.

Cogeneration Systems, Generators, Engines

Description

Power Generation System and Power Control Method {Electricity Generating System Enable of Power Control and Power Controlling Method for the Same}             

1 is a block diagram showing the configuration of a conventional power generation system,

2 is a block diagram showing the configuration of a power generation system capable of power control according to the present invention;

3 is a flow chart showing the flow of the power control method of the power generation system according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: air conditioner 20: generator

21: power generation controller 30: engine

31: engine controller

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generation system capable of power control and a method for controlling the power thereof. In particular, a power generation system supplying power to an air conditioner or other electronic device is expected to load a load of electronic devices such as an air conditioner in advance Accordingly, the present invention relates to a power generation system capable of controlling power, and a method of controlling the power, which can prevent the generator from stopping or failing even by sudden load increase by adjusting the amount of power generated.

The use of electricity is essential in homes and offices. Typically, a maximum power consumption is set at one time in a home or office, and the power supply is cut off when more power is suddenly required or used. This is to prevent fire hazards and the like.

However, unlike general homes or offices that receive power through power plants such as KEPCO, factories generally produce their own electricity by building their own generators. Therefore, even when the load of the electrical equipment being used suddenly increases and the power supplied through KEPCO is insufficient, additional power supply is possible through the generator.

FIG. 1 is a diagram illustrating a system of an electric device constructed to simultaneously use electric power generated in such a self-generator 1 and electric power generated by KEPCO 2. That is, when the power supplied by the KEPCO 2 to any space is 200 kW and the power supplied by the self-generator 1 is 50 kW, the electricity consumed when driving 25 kW, 10 kW and 25 kW, respectively. The devices 3, 4 and 5 operate normally because their total power consumption is only 60 mW.

However, in case of sudden increase in air conditioner usage or electricity consumption in summer, KEPCO cannot supply power smoothly. In this case, total power consumption of electric equipment is 60㎾. On the other hand, the amount of power generated by the self-generator is only 50 kW, which causes a problem that the power supply is cut off or the entire system is down.

The present invention has been made to solve the above-mentioned problems of the prior art, the object of which is to supply air through a power plant such as KEPCO at the same time the air supply of the power plant is cut off in the system using a self-generator The present invention provides a power generation system and a power control method capable of controlling power to prevent a system down when a load such as a conditioner increases more than the amount of power that a self-generator can supply.

According to a feature of the power generation system capable of power control according to the present invention for solving the above problems, a generator for supplying electric power to the electrical equipment; And a power generation controller configured to increase the output of the generator only when the estimated power consumption is less than the maximum power by calculating an expected power consumption of the generator by receiving a load increase request from the electric device and comparing it with the maximum power of the generator. It is characterized by.

In addition, the power control method of the power generation system according to the present invention is a first step of checking whether the load increase request of the electrical equipment, and if the load increase request in the first step is confirmed that the expected power consumption and the generator The second step is to compare the magnitude of the maximum power that can be generated in the third step and the third step of increasing the load of the electrical device by increasing the output of the generator when the power consumption is less than the maximum power in the second step.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing a power generation system capable of power control according to the present invention. At this time, as the electric device supplied with power through the self-generator of the present invention, there may be various kinds of electric devices, but in the present embodiment, it is limited to an air conditioner. This is because the power consumption of air conditioners is suddenly increased in the summer, which is the main reason for controlling power supply in KEPCO, and it consumes a large amount of electric power compared to other electric equipment during operation.

Therefore, the generator 20 for supplying power to the air conditioner 10 which is an electric device of the power generation system capable of power control according to the present invention, and the load of the air conditioner 10 in anticipation of the generator 20 It is composed of a power generation controller 21 to control the amount of power generated in or to control whether the load increase of the air conditioner (10).

In this case, the electrical device that the generator 20 supplies power may include an electronic device such as an air conditioner and other lighting equipment, and the load of other electronic devices other than the air conditioner with the power generation controller 21. It can predict in advance and control the amount of generated power accordingly.

The power generation controller 21 checks whether the load of the air conditioner 10 is increased or decreased, and if there is a request for increase in load, the estimated power consumption of the air conditioner 10 is the maximum that can be generated in the generator 20. Make sure you are within power range. If the estimated power of the air conditioner 10 is within the maximum power range, or if the power consumption of a driving electric device different from the expected power is within the maximum power range, the power generation controller 21 may load the air conditioner. Accept the increase request. That is, the power generation controller 21 transmits a power generation increase command to the generator 20.

However, when the estimated power is greater than or equal to the maximum power range, or when the sum of power consumption of the other electric equipment and the estimated power is greater than or equal to the maximum power range, the power generation controller 21 ignores the load increase request signal of the air conditioner 10 or Send a disallowed signal. Therefore, the total power consumption combined with the power consumption of the air conditioner 10 and the power consumption of other electronic devices is always below the maximum power.

In addition, the power generation system according to the present invention is applicable to a cogeneration system.

That is, the generator 20 may be configured as a general three-phase voltage generator for supplying power to an air conditioner, in the present embodiment, the generator 20 is called a cogeneration generator. A cogeneration system is a system that generates power using the cogeneration generator as described above and uses waste heat. An engine, a cogeneration generator that generates electric power using the rotational force output from the engine, and the waste heat of the engine are supplied with hot water or air conditioning. It is configured to include as a heat supply means for supplying to the heat demand such as air. The power generated by the cogeneration generator is used to operate various electric devices such as a lamp or an air conditioner. The heat supply means recovers the waste heat of the cooling water cooling the engine and the waste heat of the exhaust gas exhausted from the engine, and supplies the waste heat to the hot water supply or air conditioner.

In the cogeneration system, the generator 20 is driven by the engine 30, and the RPM of the engine 30 is controlled by the engine controller 31.

Accordingly, the power generation controller 21 confirms the request for increasing the load of the air conditioner 10 and transmits a control signal to the engine controller 31 when the estimated power consumption is less than the maximum power to increase the RPM of the engine 30. Increase. As the RPM of the engine 30 increases, the power ultimately generated by the generator 20 increases within the maximum power range. And the air conditioner 10 can increase the power consumption by the increased power it is possible to increase the load.

However, if the estimated power consumption is greater than the maximum power, the power generation control passage 21 ignores the load increase request signal of the air conditioner or retransmits the signal to the air conditioner 10 to request again after a predetermined time. In addition, since the control signal is not transmitted to the engine controller 21, the amount of power generated by the generator 20 does not change, and the load of the air conditioner 10 does not change.

Meanwhile, the engine 30 operates using LNG gas, and the waste heat generated as a result of the operation of the engine 30 may be used as a heat source such as a preheater of the air conditioner 10. Is supplied. Thus, its energy efficiency increases throughout the power generation system.

3 is a flow diagram illustrating a power control method of a power generation system according to the present invention.

First, the engine 30 is driven to operate the self-generator in the first step, and accordingly, the generator 20 generates power to be supplied to another connected electric device such as an air conditioner (S1).

In the second step, if there is a request to increase the air conditioner load, the power generation controller 21 receives the signal (S2).

In the third step, the power generation controller then checks whether power supplied from other power plants such as KEPCO is cut off (S3). However, if necessary, the power generation controller may be set to proceed directly to the fourth step without checking whether power is supplied from another power plant. This is because the present embodiment has a primary purpose of preventing damage to the self-generator when power is generated only by the self-generator when the power supplied from other power plants is cut off. However, when the maximum power that can be consumed in a building or the like is limited, the power generation controller does not necessarily need to check whether the power supply is cut off from other power plants.

On the other hand, if the power supply of the other power plant is cut off in the third step, in the fourth step, the power generation controller determines whether the required power due to the increase in the load of the air conditioner is within the maximum power range that can be generated by the generator 30. Check (S4). If the generator is supplying power to an electric device other than the air conditioner 10, the power generation controller 30 may have a maximum sum of the estimated power consumption of the air conditioner 10 and the power consumption of the other electric device. We will check if it is within the power range.

If the required power exceeds the maximum generator power in the fourth step, in the fifth step, the power generation controller 21 may ignore the load increase request signal of the air conditioner or retransmit the signal to request again after a predetermined time. (S5).

However, when the power supply of the other power plant is not cut in the third stage or when the estimated power consumption is within the maximum output of the generator in the fourth stage, the air conditioner prepares to increase the load in the sixth stage (S6).

In the seventh step, the power generation controller 20 controls the engine controller to increase the RPM of the engine 30 so that the power generation amount of the generator 20 is increased (S7).

As the power generation amount of the generator 20 increases in the seventh step, the load of the air conditioner in the eighth step increases (S8).

The power control system and the power control method of the present invention configured as described above is a generator that supplies power to the electrical device, the expected power consumption by comparing the expected power consumption of the electrical device with the maximum power that can be generated in the generator In the cogeneration system, which is configured with a power generation controller that increases the output of the generator only when the power is less than or equal to the maximum power, and supplies power using a self-generator, the power control even when the load of a specific electric machine such as an air conditioner suddenly increases. There is an effect that can prevent the system is down or the generator is broken.

Claims (8)

A generator for supplying power to the electrical equipment; And a power generation controller configured to increase the output of the generator only when the estimated power consumption is less than the maximum power by calculating an expected power consumption of the generator by receiving a load increase request from the electric device and comparing it with the maximum power of the generator. Power generation system capable of power control, characterized in that the. The method of claim 1, The power generation controller is a power generation system capable of power control, characterized in that configured to determine whether to increase the output of the generator by comparing the maximum power consumption with the expected power consumption of the air conditioner of the plurality of electrical devices to which power is supplied. The method of claim 1, The power generation system capable of power control includes an engine for driving the generator; And an engine controller configured to adjust the RPM of the engine according to the control of the power generation controller. The method of claim 3, wherein The power controllable power generation system is a power controllable air conditioner power generation system, characterized in that configured to use the waste heat of the engine as a heat source of the air conditioner of the electrical equipment. The method of claim 1, The power generation controller checks whether the other power source that supplies power to the electric device in addition to the generator and compares the expected power consumption of the electric device with the maximum power of the generator when the power supply of the other power source is cut off. Power generation system capable of power control, characterized in that configured to. A first step of checking whether a load increase request of the electric device is performed; A second step of comparing the estimated power consumption of the electric device with the maximum power that can be generated by the generator when it is determined that there is a load increase request in the first step; And a third step of increasing the output of the generator to increase the load of the electric device when the power consumption in the second step is less than the maximum power. The method of claim 6, The power control method of the power generation system before the second step, It further comprises a step of checking whether the power supply of the other power source for supplying power to the electrical equipment is cut off, The power control method of the power generation system, characterized in that configured to proceed to the second and third steps when it is confirmed that the power supply is cut off in the confirmation step. The method of claim 6, The power control method of the power generation system before the first step, Generating electric power by rotating an engine driving the generator; And supplying the waste heat of the engine to a heat source required for driving an air conditioner among the electric devices.

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