KR20090079081A - Cogeneration system and the controll methode - Google Patents

Abstract

A cogeneration system and a control method thereof are provided to supply stable power to the special load to protect the special load in the event of power failure in the facility. A cogeneration system comprises a cogeneration unit(10) and a power supply unit(20). The cogeneration unit is connected to a general load(1) and provides the generated power to the general load. The power supply unit operates to supply the generated power to a special lead(30) except for the general load, based on the power level of commercial electricity supplied to the special load.

Description

Cogeneration system and its control method {Cogeneration system and the controll methode}

The present invention relates to a cogeneration system and a control method thereof, and more particularly, to a cogeneration system and a control method for stably supplying power to a special load other than a general load when an abnormality of commercial power occurs.

Cogeneration systems, commonly referred to as cogeneration systems, are systems that produce power and heat simultaneously from a single energy source.

As such, the cogeneration system recovers waste heat of exhaust gas heat or cooling water generated by power generation by driving an engine or a turbine, and is capable of increasing the overall thermal efficiency by 70 to 80%. In particular, it is a high-efficiency energy utilization method that utilizes the recovered waste heat a lot in cooling, heating, and hot water supply.

Recently, a cogeneration system generates power by driving a generator and uses heat generated when the generator is driven. The power generation unit is installed in a building, and the power generated by the power generation unit is used for lighting or It is supplied to various electric appliances, and the heat generated from the power generation equipment is used for hot water supply.

It is an object of the present invention to provide a cogeneration system and a control method for stably supplying power to a special load other than a general load when an abnormality of commercial power occurs.

The cogeneration system of the present invention is connected to a general load, and the generation power to the special load according to the power value of the cogeneration unit for supplying the generation power to the general load and the commercial power supplied to a special load other than the general load And a power supply unit operative to be supplied.

In addition, the control method of the cogeneration system of the present invention Supplying generated power to a general load connected to a cogeneration unit, detecting a power value of commercial power supplied to a special load other than the general load, and based on the detection result, converting the generated power to the special load Supplying.

In the cogeneration system and the control method thereof, a general load consuming the generated power of the cogeneration unit and a special load other than the normal load consuming the commercial power are installed in one building, and the commercial power at a real time or at predetermined time intervals. By detecting the power value of the power supply through the power supply unit through the power supply unit according to the power value, the power is stably supplied to the special load in the event of a power outage in the building to protect the special load.

Hereinafter, a cogeneration system and an agent according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a system diagram showing a cogeneration system according to a first embodiment of the present invention.

Referring to FIG. 1, the cogeneration system of the present invention is connected to a general load 1, and a special load other than the cogeneration unit 10 and the general load 1 that supplies power to the general load 1. And a power supply unit 20 that operates to supply the generated power to the special load 2 according to the power value of the commercial power supplied to 2).

Here, the cogeneration unit 10 is connected to the general load 1 and the third power line P3 and generates and supplies the generated power corresponding to the capacity of the general load 1 to the general load 1. do.

In addition, the cogeneration unit 10 cuts off the generated power supplied to the general load 1 according to the operation of the power supply unit 20, and supplies the generated power of maximum capacity to the special load 2.

The power supply unit 20 includes the special load 2 and the first and second power lines P1 connected to the cogeneration unit 10, the first power line P1, and the commercial power to the second power line P2. P2) is selectively connected to allow grid linkage.

In other words, the power supply unit 20 detects a power value of the commercial power supplied to the special load 2 through the second power line P2, and according to the power value, the first and second power lines ( Connect P1, P2).

That is, when the power supply unit 20 connects the first and second power lines P1 and P2, the power generation unit 20 supplies the generated power to the special load 2 from the cogeneration unit 10.

Although the power supply unit 20 is shown outside the cogeneration unit 10 in the first embodiment of the present invention, the cogeneration unit 10 may also be shown inside, but is not limited thereto.

Here, the general load 1 is an air conditioning apparatus operating with the generated power of the cogeneration unit 10, and the special load 2 is an emergency light and an emergency load consuming the commercial power.

That is, in the first embodiment of the present invention, it is assumed that the general load 1 and the special load 2 are installed in the same building, and the cogeneration unit 10 is also installed in the building, without being limited thereto.

2 is a control block diagram illustrating a cogeneration system according to a first embodiment of the present invention.

Referring to FIG. 2, the cogeneration system of the present invention includes a cogeneration unit 10 and a power supply unit 20.

The cogeneration unit 10 transmits a control signal for operating the generator 12a and the engine 12b to the driver 12 and the driver 12 for operating the generator 12a and the engine 12b. It includes.

Here, the generator 12a is driven by the engine 12b to generate the generated power, and supplies the generated power to the general load 1 connected to the third power line P3.

The drive unit 12 operates the generator 12a and the engine 12b according to the control signal.

That is, the controller 14 controls the generated power of the generator 12a based on the capacity of the general load 1, and the controller 14 controls the generated power to the special load 2 according to the switching operation information transmitted from the power supply means 20. Control so that generated power is supplied.

Here, the generator 12a is connected to the power supply unit 20 through the first power line P1, and when the generator power is supplied to the special load 2, the generator 12a blocks the generated power supplied to the general load 1. do.

The power supply unit 20 detects a power value of the commercial power supplied from the second power line P2 to the special load 2, the first power line P1, and the second power line. (P2) is connected to the switch 26 and the power value and the set value of the switching operation so that the generator 12a is supplied so that the generated power is supplied to the special load 2, and according to the comparison result of the switch 26 And a control unit 24 for transmitting the switch 26 operation information to the switching operation control and the control unit 14.

Here, the detection unit 22 detects the power value of the commercial power in real time or at predetermined time intervals and transmits the power value to the control unit 24.

The control unit 24 controls the switch 26 to be switched off when the power value is greater than the set value, and transmits the switch 26 operation information on the switching off of the switch 26 to the controller 14.

At this time, the controller 14 determines that the first and second power lines P1 and P2 are not connected, and supplies the generated power to the general load 1 connected to the third power line P3.

In addition, the controller 24 controls the switch 26 to be switched on when the power value is smaller than the set value, and transmits the switch 26 operation information for switching on the switch 26 to the controller 14. To pass.

At this time, the controller 14 checks the connection of the first and second power lines P1 and P2, and controls the generated power supplied to the general load 1 through the third power line P3 to the first power line ( It is supplied to the special load 2 through the second power line P2 connected to P1.

Here, the controller 14 cuts off the third power line P1 and supplies the generated power to the special load 2 connected to the first and second power lines P1 and P2.

The generated power supplied to the special load 2 is the maximum generated power of the generator 12a, and the generated power supplied to the general load 1 is generated power corresponding to the capacity of the one-load 1.

That is, the switch 26 selectively grid-connects the cogeneration unit 10 and the special load 2 under the control of the control unit 24.

The switch 26 is a magnetic switch, and the generator 12a is preferably a synchronous generator.

Here, the synchronous generator does not generate the generated power with the commercial power.

The cogeneration system according to the first embodiment of the present invention detects a power value of commercial power supplied to the special load 2 by the power supply unit 20, and generates power of the cogeneration unit 10 through the power value. By selectively supplying power to the special load (2) in the grid, the special load (2) can be operated stably.

3 is a flowchart illustrating a control method of a cogeneration system according to a first embodiment of the present invention.

Referring to FIG. 3, the cogeneration system of the present invention supplies generated power through a third power line to a general load 1 connected to the cogeneration unit 10 (S100).

Then, the power supply unit 20 detects the power value of the commercial power supplied to the second power line by the special load 2 other than the general load 1 in the detection unit 22 (S102), the control unit ( In operation 24, it is determined whether the switch 26 is operated by comparing the power value with the set value.

The power supply unit 20 switches off the switch 26 between the first power line P1 and the second power line P2 when the result of the comparison is greater than the set value, thereby generating the generated power. To prevent supply to the special load 2 or, if the comparison result is smaller than the set value, switch on the switch 26 between the first power line P1 and the second power line P2. The generated power is supplied to the special load 2 (S106).

That is, the cogeneration unit 20 selectively links the first and second power lines P1 and P2 between the cogeneration unit 10 and the special load 2 according to the comparison result, thereby providing a special load 2. Supply the generated power to operate even in the event of a power failure of commercial power.

The cogeneration system according to the first embodiment of the present invention can smoothly operate a special load by supplying the generated power generated by the cogeneration unit to a general load or a special load according to the presence or absence of commercial power failure. There is an advantage to stabilize.

Although the preferred embodiments of the present invention have been described in detail above, those skilled in the art to which the present invention pertains may make various modifications without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made. Accordingly, modifications to the embodiments of the present invention will not depart from the techniques of the present invention.

1 is a system diagram showing a cogeneration system according to a first embodiment of the present invention.

2 is a control block diagram illustrating a cogeneration system according to a first embodiment of the present invention.

3 is a flowchart illustrating a control method of a cogeneration system according to a first embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10: cogeneration unit 20: power supply unit

30: special load

Claims (12)

A cogeneration unit connected to a general load and supplying generated power to the general load; And And a power supply unit operable to supply the generated power to the special load according to a power value of commercial power supplied to a special load other than the general load. The method of claim 1, wherein the general load and the special load, A cogeneration system installed in a building in which the cogeneration unit is installed. The method of claim 1, wherein the power supply unit, A detector configured to detect a power value of the commercial power supplied to the special load; A switch for switching so that the generated power is supplied to the special load; And And a control unit which compares the power value with a set value and transmits the switch operation information to the cogeneration unit and the switching operation control of the switch according to a comparison result. The method of claim 3, wherein the switch, And a cogeneration system connected between a first power line of the cogeneration unit and a second power line supplied with the commercial power to the special load. The method of claim 3, wherein the switch, Cogeneration system as a magnetic switch. The method of claim 3, wherein the control unit, And the switch is operated by switching off when the power value is greater than the set value, and by operating the switch by switching on when the power value is less than the set value. According to claim 3, The cogeneration unit, A generator for generating the generated electric power; And And a control unit controlling to supply the generated power to the general load or the special load according to the operation control of the generator and the switch operation information. The method of claim 8, wherein the control unit, Supplying the generated power to the special load through the first and second power lines of the generator according to the switch operation information; Or, cogeneration system for controlling to supply the generated power to the general load through the third power line of the generator. The generator according to any one of claims 1 to 8, wherein Cogeneration system, a synchronous generator. Supplying generating power to a general load connected to the cogeneration unit; Detecting a power value of commercial power supplied to a special load other than the general load; And And supplying the generated power to the special load based on the detection result. The method of claim 10, wherein the supplying step, And comparing the power value with a set value, and if a comparison result is greater than the set value, the switch included in the power supply unit is switched off. The method of claim 10, wherein the supplying step, And comparing the power value with a set value, and if a comparison result is smaller than the set value, a switch included in the power supply unit is switched on.

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