KR101375746B1 - Dual electric power system of customer for preventing black out and controlling peak power and supply of electric power method therefor - Google Patents

Abstract

The present invention relates to a customer power dual system for preventing black-out and controlling peak power and a power supply method thereof. The customer power dual system comprises; a first power receiving device (10) which supplies power received from a power company system to a first system (20) by passing through a transformer and a circuit breaker; the first system (20) which receives the power from the first power receiving device (10); a second power receiving device (30) which supplies power received from the power company system to a second system (40) by passing through the transformer and the circuit breaker; the second system (40) which receives the power from the second power receiving device (30); and a controller (50) which blocks a power supply between the power company system and the second system (40) in times of crisis and controls that power generated by an emergency generator (EG) is supplied to the second system (40). According to the present invention as mentioned above, the power received from a power system of a power company is supplied to a power failure unavailable facility (first system) through the first power receiving device and is supplied to a power failure available facility (second system) through the second power receiving device. The power supply to the second system is prevented in times of crisis of electric power. The power is supplied to the second system through the EG. Therefore, stable power is supplied to a main power facility without a power failure. [Reference numerals] (10) First power receiving device; (20) First system; (30) Second power receiving device; (40) Second system; (50) Control unit; (AA) Electronic power company; (BB) Over 7KV; (C8) Connection circuit breaker; (CC) Under 7KV; (DD,FF) First transformer; (EE,GG) Second transformer; (EG) Emergency generator; (HH,II) Circuit breaker

Description

DUAL ELECTRIC POWER SYSTEM OF CUSTOMER FOR PREVENTING BLACK OUT AND CONTROLLING PEAK POWER AND SUPPLY OF ELECTRIC POWER METHOD THEREFOR}

The present invention relates to a customer power system redundancy system for blackout prevention and peak power control, and a method for supplying power thereof. The present invention provides power supplied from a power company of a power company to a power failure impossible facility through a first power receiver. The present invention relates to a technology for supplying power to a power failure facility through a second power reception facility, cutting off power to the second power reception facility during peak control, and supplying power to the power failure facility connected to the second power reception facility through an emergency generator. .

The electric power system can be divided into electric power provider's power equipment and customer's power equipment. Currently, most of the consumer power equipments receive power from the electric power company into the customer's building as shown in FIG. Receiving System), substation equipment for converting the receiving voltage into the required voltage in the building of the customer, and load equipment operated by the substation voltage.

Among the above-mentioned consumer power facilities, the power receiving equipment is generally installed in one customer, and is not operated separately according to the customer's load facility.

For example, since the low-risk load facility and the high-risk load facility are connected to the load of one faucet facility, there is a problem that the entire power failure may occur when a problem occurs in the faucet facility.

As a technique for improving the above problems, Korean Patent No. 1067594 (Large Building Electrical Equipment Uninterruptible Systems) separates low- and high-risk load equipment from customer power equipment receiving power from substations of different systems. And operating technology is disclosed.

In summary, in the prior art, since a plurality of consumer power facilities are operated in a single power supply line, when a problem occurs in the electric field system, an emergency generator is operated to supply power to a power receiving facility that should be operated at all times.

However, the actual demand management adjustment is insufficient in the power crisis, and the emergency generator is operated only when the power company stops supplying power to supply only a part of the minimum emergency load.

In addition, there is a problem in that inspection, maintenance and inspection of the faucet facility, which is the core facility of the building, is impossible without power failure, and a long power failure occurs during the inspection and maintenance.

The present invention has been made to solve the above problems, the power supplied from the power system of the power company through the first faucet facility to supply the non-capacity facility (first system), the power outage through the second faucet facility It supplies to the facility (2nd system), but cuts off the power supply to the 2nd system in case of power crisis, and supplies power to the 2nd system through the emergency generator, thereby providing stable power to the main power equipment without power failure. There is this.

In addition, the present invention supplies the power supplied from the power system of the power company to the first system through the first faucet facility, and to the second system through the second faucet facility, the power outage or abnormal power system of the KEPCO In this case, by supplying power to the first system or the second system through the emergency generator, the purpose is to supply a stable power to the main power equipment without power failure.

In addition, the present invention supplies the power supplied from the power system of the power company to the first system through the first faucet facility, and to the second system through the second faucet facility, the first faucet facility and the second faucet facility In case of breakdown or maintenance of power supply, the power supply from uninterrupted power supply facilities or unrepaired power supply facilities is shared between the 1st system and the 2nd system through the connection breaker, providing stable power to the main power equipment without power failure. Its purpose is to.

In order to achieve the above technical problem, the blackout prevention and peak power control system redundancy system of the present invention provides a system for supplying power supplied from a utility company system to a first system 20 via a transformer and a breaker. 1 power receiving facility 10; A first system 20 that receives power from the first power receiving facility 10; A second power receiving facility 30 for supplying power supplied from a power company system to a second system 40 via a transformer and a breaker; A second system 40 which receives electric power from the second power receiving facility 30; And a controller 50 that cuts off power supply between the utility company system and the second power receiving facility 30 during a power crisis, and supplies power generated by the emergency generator EG to the second system 40. do.

In addition, the power supply method to the customer power system redundancy system for the blackout prevention and peak power control of the present invention, the first power receiving facility 10 and the second power receiving facility 30 receives the power supplied from the utility company system (A) supplying the first system 20 and the second system 40; (B) determining, by the controller 50, whether the peak control is necessary because the reception of the blocking signal from the power company or the power of the consumer exceeds the preset reference power; And (b), when the peak control is necessary, the controller 50 cuts off the power supply between the utility company system and the second power receiving facility 30, and outputs the power produced by the emergency generator EG. And (c) controlling the supply to the system 40.

According to the present invention as described above, the electric power supplied from the power system of the power company through the first power supply facility to the power failure non-capacity facility (first system), and through the second power supply facility (capacity system) (second system) By supplying the power supply to the second system in the event of a power crisis, by supplying power to the second system through the emergency generator, there is an effect of supplying stable power to the main power equipment without a power outage.

In addition, according to the present invention, the power supplied from the power system of the power company to the first system through the first power receiving facility, and to the second system through the second power receiving facility, power outage or power of the power company If an abnormality occurs in the system, by supplying power to the first system or the second system through the emergency generator, there is an effect of supplying a stable power to the main power equipment without power failure.

In addition, according to the present invention, the power supplied from the power system of the power company to the first system through the first power receiving facility, and to the second system through the second power receiving facility, the first power receiving equipment and the second In case of breakdown or maintenance of power receiving equipment, the power supplied from uninterrupted power receiving equipment or non-repairing power receiving equipment is shared between the first system and the second system through the connection breaker, thereby providing stable power to the main power equipment without power failure. It is effective to supply.

1 is a block diagram showing a conventional power supply system.
Figure 2 is a block diagram showing a customer power system redundancy system for blackout prevention and peak power control in accordance with the present invention.
3 is a flow chart illustrating a power supply method to a customer power system redundancy system for blackout prevention and peak power control according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

2 is a diagram illustrating a customer power system redundancy system S for blackout prevention and peak power control according to the present invention. As shown in FIG. 2, the customer power system redundancy system S for blackout prevention and peak power control according to the present invention includes a first power receiving facility 10, a first system 20, and a second power receiving facility. 30, the second system 40, the control unit 50, an emergency generator (EG), and a circuit breaker (CB).

Hereinafter, the detailed description will be omitted, but the customer power system redundancy system (S) for blackout prevention and peak power control according to the present invention is configured by additionally installing one set of power receiving equipment to receive power from the utility company system. do.

First, the first power receiving facility 10 supplies power supplied from a utility company system to the first system 20 via a transformer and a breaker.

The first system 20 receives power from the first power receiving facility 10, but supplies power to an uninterruptible facility such as a lighting facility, an emergency power facility, a computing facility, a communication facility, an elevator facility, and a city / water purification facility.

On the other hand, the second power receiving facility 30 supplies the power supplied from the utility company system to the second system 40 via the transformer and the breaker.

The second system 40 receives power from the second power receiving facility 30, and supplies power to an electrostatic capable facility such as a heating and cooling facility, a high voltage facility, a wastewater facility, and a constant power facility.

Here, the capacity of the first system 20 and the second system 40 is preferably configured in a ratio of about 7: 3, but the present invention is not limited thereto.

In addition, the controller 50 opens the circuit breaker in the second power receiving facility 30 in the event of a power crisis to cut off power supply from the utility company system to the second power receiving facility 30, and generates power generated by the emergency generator EG. To control the second system 40.

To this end, the controller 50 is connected to the power company in a wired or wireless manner, and when blackout is expected due to insufficient power, the power company transmits a cutoff signal to the controller 50 to power the second power receiving facility 30. Shut off the supply.

That is, the controller 50 supplies only the power supplied from the utility company system to the first system 20 which is a non-capable facility, a low-risk facility, and a year-round facility during the power crisis, and is capable of power failure through the emergency generator EG. Control to supply power to the second system 40, which is a facility, a high risk facility, and a specific seasonal load facility.

In addition, the controller 50 may open the circuit breaker in the second power receiving facility 30 to open the circuit breaker in the second power receiving facility 30 when the power used by the customer exceeds the predetermined reference power close to the contract power even if the power is not a crisis. The power supply to the power receiving facility 30 may be cut off, and the power generated by the emergency generator EG may be controlled to be supplied to the second system 40.

In addition, the controller 50 controls to supply the power generated by the emergency generator EG to the first system 20 or the second system 40 when a power failure or an abnormality occurs in the power system of the power company. In this case, the power produced by the emergency generator (EG) is mainly supplied to the first system 20, but controlled to share the power supply between the first system 20 and the second system 40 through the connection breaker (CB). can do.

On the other hand, when the breakdown or repair of the first faucet facility and the second faucet facility is necessary, the controller controls the first system and the first system through the connection breaker (CB). By controlling sharing between the two systems, it is possible to provide stable power to major power installations without power outages.

According to the present invention as described above, in the government sector, it is possible to secure 4.13 million kw of reserve power by reducing peak demand during the power crisis (4,138 large-capacity customers * 1,000 kw). It is effective in reducing trillions to 20 trillion won.

Also, in the private sector, the base rate is reduced due to the reduction in demand for large buildings and large-capacity consumers (approximately KRW 100 million per year by 1,000 KRW reduction per kw), and the efficient safety inspection and It is also contributing to the creation of jobs, such as an increase in demand for power facilities and increased workforce of construction companies.

Hereinafter, referring to FIG. 3, a method of supplying power to a consumer power system redundancy system for blackout prevention and peak power control according to the present invention will be described.

First, the first power receiving facility 10 and the second power receiving facility 30 supply the electric power supplied from the power company system to the first system 20 and the second system 40 (S10).

Subsequently, the controller 50 determines whether the peak control is necessary because the reception of the blocking signal from the power company or the power used by the customer exceeds the preset reference power (S20).

As a result of the determination in step S20, when peak control is required, the controller 50 cuts off the second power receiving facility 30 from the power company system, and transfers the power generated by the emergency generator EG to the second system 40. Control to supply (S30).

On the other hand, if it is determined in step S20 that the peak control is not necessary, the controller 50 determines whether an outage or abnormality in the power system of the power company (S40).

As a result of the determination in step S40, when a power failure occurs or an abnormality occurs in the power system of the power company, the controller 50 transfers the power generated by the emergency generator EG to the first system 20 or the second system 40. Control to supply (S50).

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

S: consumer power system redundancy system for blackout prevention and peak power control
10: first power receiving equipment 20: first system
30: second power receiving facility 40: second system
EG: Emergency generator CB: Connection breaker

Claims (9)

In the consumer power system redundancy system for blackout prevention and peak power control,
A first power receiving facility 10 for supplying power supplied from a power company system to a first system 20 via a transformer and a breaker;
A first system 20 receiving electric power from the first power receiving facility 10;
A second power receiving facility 30 for supplying power supplied from a power company system to a second system 40 via a transformer and a breaker;
A second system 40 receiving power from the second power receiving facility 30; And
It includes a control unit 50 for controlling the consumer power system redundancy system,
The control unit (50)
Wired or wireless to the utility company,
In the event of a power crisis, the breaker in the second power receiving facility 30 is opened in accordance with the cutoff signal received from the power company to cut off the second power receiving facility 30 from the power company system, and the power generated by the emergency generator EG. Customer power system redundancy system for blackout prevention and peak power control, characterized in that the control to supply to the second system (40). delete delete delete The method of claim 1,
The control unit (50)
The power supplied from the utility company system is supplied to the first system 20, which is a non-capacity facility, a low risk facility, and a year-round facility, and is capable of constant power interruption, a high risk facility, and a specific seasonal load facility through an emergency generator (EG). A customer power system redundancy system for blackout prevention and peak power control, characterized in that the control to supply power to the second system (40). The method of claim 1,
The control unit (50)
In the event of a power failure or an abnormality in the power system of the electric power company, the blackout is controlled to supply the power generated by the emergency generator (EG) to the first system 20 or the second system 40. Consumer power system redundancy system for protection and peak power control. The method of claim 1,
The control unit (50)
When failure or repair of the first faucet facility and the second faucet facility is necessary, the power supplied from the unfailed faucet facility or the unreceived faucet facility is connected to the first system and the second system through a connection breaker (CB). A customer power system redundancy system for blackout prevention and peak power control, characterized in that the control is shared to each other. (a) supplying the power received from the KEPCO system to the first system 20 and the second system 40 by the first power receiving facility 10 and the second power receiving facility 30;
(b) determining whether peak control is necessary according to whether the control unit 50 connected to the power company by wire or wirelessly receives a blocking signal from the power company; And
(c) As a result of the determination in step (b), if the peak control is necessary, the controller 50 opens the breaker in the second power receiving facility 30 in accordance with the cutoff signal received from the power company, thereby removing the power from the utility company system. Shutting off the power receiving facility 30, and controlling to supply the power generated by the emergency generator (EG) to the second system (40); customer for blackout prevention and peak power control, comprising the Power supply to power system redundancy system. 9. The method of claim 8,
As a result of the determination in step (b)
(d) if peak control is not required, determining whether a power failure occurs or an abnormality has occurred in a power system of a power company; And
(e) As a result of the determination of step (d), when the power failure occurs or an abnormality occurs in the power system of the power company, the controller 50 controls the power generated by the emergency generator EG in the first system 20 or the second. Controlling to supply to the system (40); Power supply to the consumer power system redundancy system for blackout prevention and peak power control comprising a.

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