JP2501887B2 - Output limiting device for private power generation equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to an output limiting device for private power generation equipment.

In particular, the CPU determines in advance for each feeder the output narrowing amount that suppresses the surplus generated power that flows back into the power system based on the generated power, the received power, and the power consumption, and when a feeder cutoff occurs. The present invention relates to an output limiting device for a private power generation facility, which controls a backflowing electric power in a transient short period because a governor device is controlled on the basis of << output narrowing down amount >> of a corresponding feeder.

[Prior Art] The configuration of a conventional private power generation facility will be described with reference to FIG. FIG. 5 is a power distribution connection diagram showing a conventional private power generation facility.

In FIG. 5, a conventional private power generation facility has a power receiving circuit breaker (2) connected to a power receiving line (1) and a power generator circuit breaker connected to the power receiving circuit breaker (2) via a bus bar. Device (3), private generator (4) connected to this generator breaker (3), prime mover (5) coupled to this private generator (4), and power receiving breaker (2) ) connected via a bus to have been breaker for feeder (6 ₁₎ ... (and 6 _n), the circuit breaker for these feeders (6 ₁₎ ... (connected to the feeder to 6 _n) (7 ₁₎ ... ( 7 _n ) and.

Next, the operation of the above-described conventional private power generation equipment will be described.

Under normal conditions, the power received from the power receiving line (1), generated power from private power generator (4) is a feeder ₍₇₁₎
(7 _n ) and then supplied to each load (not shown) in the private premises.

Since the cost of power generated by private power generation equipment is cheaper than the cost of power received, the power received is usually very low.

[Problems to be Solved by the Invention] In the conventional private power generation facility as described above, if the feeder circuit breaker suddenly shuts off for some reason, the generated power becomes excessive and surplus power is generated in the power system via the receiving line. There was a problem that electric power flows backward.

The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain an output limiting device for a private power generation facility that can quickly and automatically suppress generated power against an unexpected feeder cutoff accident. To aim.

[Means for Solving the Problems] An output limiting device for a private power generation facility according to the present invention is provided with the following means.

(I). Generated power measuring means for measuring the generated power of a private generator.

(Ii). Received power measuring means for measuring the received power received from the power system.

(Iii). Power consumption measuring means for measuring the power consumption of the load connected to the feeder.

(Iv), feeder cutoff signal generation means for detecting the cutoff of the feeder and generating a feeder cutoff signal.

(V). Based on the measured generated power, the measured received power, and the measured power consumption, surplus generated power that flows back to the power system when the feeder shuts off is obtained in advance for each feeder, and the feeder shutoff signal And a control unit for controlling the private generator so as to narrow down the generated power according to the previously generated surplus generated power of the corresponding feeder.

[Operation] In the present invention, the generated power of the private generator, the received power received from the power grid and the power consumption of the load connected to the feeder are measured by the generated power measuring means, the received power measuring means and the consumed power measuring means. To be measured.

Further, the feeder cutoff signal generation means detects the cutoff of the feeder and generates a feeder cutoff signal.

Then, based on the measured generated power, the measured received power, and the measured power consumption, the arithmetic and control unit previously obtains, for each feeder, surplus generated power that flows back to the power system when the feeder is shut off. When the feeder cutoff signal is generated, the private generator is controlled so as to narrow down the generated power according to the previously generated surplus generated power of the corresponding feeder.

Embodiment The configuration of the embodiment will be described with reference to FIG. First
FIG. 1 is a block diagram showing an embodiment of the present invention.

In FIG. 1, one embodiment of the present invention shows a generated power converter (8), a received power converter (9), a feeder power consumption converter (10 ₁ ) ... (10 _n ), and a feeder cutoff signal. Generator (11 ₁ ) ... (11 _n ), generated power converter (8), received power converter (9), feeder power consumption converter (1
0 ₁ ) ... (10 _n ) and feeder cutoff signal generator (11 ₁ ) ...
Input device (12) connected to (11 _n ), CPU (13) connected to this input device (12), memory (14) connected to this CPU (13), and CPU (13) The output device (15) is connected to the output device (15) and the governor device (16) is connected to the output device (15). Input device (12)
Is also connected to the governor device (16).

Although not shown, the generated power converter (8), the received power converter (9), and the feeder power consumption converter (1
0 ₁ ) ... (10 _n ), feeder cutoff signal generator (11 ₁ ) ...
(11 _n ) and the governor device (16) are connected to a private generator, a receiving wire, a feeder, a feeder breaker, and a prime mover, respectively.

Here, the generated power measuring means, the received power measuring means, the consumed power measuring means and the feeder cutoff signal generating means of the present invention are respectively a generated power converter (8), a received power converter (9) and a feeder power consumption converter. (10 ₁ ) ... (10 _n ) and feeder cutoff signal generators (11 ₁ ) ... (11 _n )
(13), a memory (14) and an output device (15).

Next, the operation of the above-described embodiment will be described with reference to FIGS. 2 and 3. FIG. 2 is a flow chart showing the data processing operation of the CPU (13), and FIG. 3 is the CPU (13).
It is a flowchart figure which shows operation | movement of the interruption processing of.

The CPU (13) normally executes data processing at regular intervals, and interrupts the data processing and executes interrupt processing when a feeder cutoff signal interrupt occurs.

First, the operation of data processing will be described with reference to FIG.

In step (21), generated power, received power, and all feeder power consumption are read. That is, the generated power converter (8), the received power converter (9), and the feeder power consumption converter (10 ₁ ) ... (10 _n ) measure the generated power, the received power, and all the feeder power consumption, and analog It is converted into signals and input to the input device (12) to read them into the memory (14).

In step (22), the initial value of the counter [i] is set. That is, i = 1.

In step (23), the output narrowing amount when the [i] th feeder is shut off is calculated, and it is determined whether or not there is a backflow to the receiving wire. That is, when the [i] th feeder is cut off, it is arithmetically determined whether or not the generated electric power flows back to the receiving wire, and when it is flowing backward, the surplus generated electric power is calculated to obtain the output narrowing amount. When there is no backflow, the output throttling amount is set to zero.

In step (24), the data such as the [i] th output narrowing down amount is updated. That is, the presence or absence of backflow and the output narrowing down amount are stored in the [i] th data area of the memory (14).

In step (25), it is determined whether the processing has been executed for all feeders. When executed (YE
S), return to step (21) and not execute (N
O), proceed to the next step (26). That is, i
It is determined whether ≧ n.

In step (26), the counter [i] is updated,
Return to step (23). That is, i = i + 1 is executed.

Next, the operation of the interrupt process will be described with reference to FIG.

In step (31), the number [j] of the blocked feeder is determined.

In step (32), data such as the [j] th output narrowing down amount is read. That is, the presence or absence of backflow and the output narrowing down amount are read from the [j] th data area of the memory (14).

In step (33), it is determined whether there is a backflow to the receiving wire. If there is a backflow (YES), the process proceeds to the next step (34), and if there is no backflow (NO), the operation of this interrupt process is ended.

In step (34), the digital emergency output limiting signal and the analog output narrowing amount are output to the governor device.

In step (35), it is determined whether the output of the private power generator has been narrowed down. When completed (YE
In S), the operation of the interrupt process is ended, and when it is not completed (NO), the process returns to step (34). That is, the operations of steps (34) and (35) described above are repeated until the output of the private power generator decreases to a predetermined value.

As a result, the governor device (16) switches the output change rate to the rapid rate when the emergency output limit signal is input, and also changes the output setting device (not shown) inside the device to a value obtained by subtracting the output narrowing amount from the current value. , Reduce the generated power. When the generated power decreases to a predetermined value, a signal to that effect is output to the CPU (13) via the input device (12).
When the emergency output limiting signal is no longer input, the output change rate is returned from the rapid rate to the normal rate.

FIG. 4 is a waveform diagram showing the time on the horizontal axis and the power on the vertical axis. At time tx, the generated power A, the received power B, and the total power consumption C of all the feeders when a feeder cutoff accident occurs. Represents the change of.

Although the output narrowing amount is output to the governor device in the above embodiment, the same operation can be expected by outputting the generated power target value obtained by subtracting the output narrowing amount from the current generated power.

In the above embodiment, it goes without saying that the intended purpose can be achieved even if the output narrowing down amount and the generated power target value are digital signals.

[Effects of the Invention] As described above, the present invention is connected to a feeder, a generated power measuring means for measuring generated power of a private generator, a received power measuring means for measuring received power received from a power system, and a feeder. Power consumption measuring means for measuring the power consumption of the load being operated, feeder cutoff signal generating means for detecting the cutoff of the feeder and generating a feeder cutoff signal, the measured generated power, the measured received power and the measurement Based on the consumed power, the surplus generated power that flows back to the power system when the feeder is cut off is obtained in advance for each feeder, and when the feeder cutoff signal is generated, it is obtained in advance for the corresponding feeder. And an arithmetic control unit for controlling the private generator so as to narrow down the generated power according to the surplus generated power. Thus, it is possible to quickly and automatically suppress the generated power against an unexpected feeder cutoff accident.

[Brief description of drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention, FIG. 2 is a flowchart showing the operation of one embodiment of the present invention,
FIG. 3 is a flow chart showing another operation of the embodiment of the present invention, FIG. 4 is a waveform diagram showing the effect of the embodiment of the present invention, and FIG. 5 is a wiring connection diagram showing a conventional private power generation facility. Is. In the figure, (8) ... Generated power converter, (9) ... Received power converter, (10 ₁ ) to (10 _n ) ... Feeder power consumption converter,
(11 ₁ ) ~ (11 _n ) ... feeder cutoff signal generator, (1
2) …… Input device, (13) …… CPU, (14) …… Memory,
(15) ... Output device. In the drawings, the same reference numerals indicate the same or corresponding parts.

Claims (1)

(57) [Claims] 1. A generated power measuring means for measuring a generated power of a private generator, a received power measuring means for measuring a received power received from a power system, and a power consumption measuring for measuring a power consumption of a load connected to a feeder. Means, a feeder cutoff signal generating means for detecting the cutoff of the feeder and generating a feeder cutoff signal, and a case where the feeder cuts off based on the measured generated power, the measured received power and the measured power consumption The surplus generated power flowing back to the power system is obtained in advance for each feeder, and when the feeder cutoff signal is generated, the private power generation is performed so as to narrow down the generated power according to the surplus generated power obtained by the feeder in advance. Output control device for private power generation equipment, characterized in that it is provided with arithmetic control means for controlling the generator.