JP2019162004A - Power monitoring system - Google Patents

Abstract

To provide a power monitoring system capable of circumventing power tightness in a specific area, by outputting an alarm signal on the basis of power tightness in the specific area and power consumption of a user, and prompting voluntary power suppression of the user.SOLUTION: A power monitoring system 1 includes a dynamo-electric generator 2 for supplying power to a user, a dynamo-electric generator common control panel 4 for outputting an alarm signal of power tightness when operational status of the dynamo-electric generator 2 becomes a preset power tightness state, a PLC panel 5 for BCP outputting an alarm signal of BCP power excess when power consumption of the user at the time of BCP exceeds a preset upper limit, and a display device 14 displaying an alarm on the basis of the alarm signal of power tightness and the alarm signal of BCP power excess.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a power monitoring system that monitors a power tightness state in a specific area to which a plurality of consumers belong.

  In recent years, special electric power projects by specific electric power companies (hereinafter referred to as special electric power companies) have attracted attention. The special electric utility has an energy plant such as a generator facility and an electric power monitoring facility, and supplies electric power generated in-house to consumers in a specific area. The specific area includes a plurality of consumers such as an urban development area, an existing office building outside the area, and a commercial facility, and consumers with different voltage systems such as a high voltage system and an extra high system are mixed.

JP 2014-236601 A

  It is an important duty for the electric utility to avoid a total power outage in the specific area when the power in the specific area is tight due to a disaster or the like. For this reason, it is necessary to make an operation effort so as not to cause a total power outage when power is tight in a specific area, and it is an urgent task to establish an operation technique for avoiding a power tight state in advance.

  An embodiment of the present invention is made to solve the above problem, and by outputting an alarm signal based on the power tightness state of a specific area and the amount of power used by the customer, the consumer's voluntary It is an object of the present invention to provide a power monitoring system that can promote power suppression and avoid a power tight state in a specific area.

In order to achieve the above object, an embodiment of the present invention is a power monitoring system that monitors power demand in a specific area to which a plurality of consumers belong, and includes the following components (a) to (d): Have.
(a) A generator for supplying power to the consumer.
(b) A power tight warning output unit that outputs a power tight warning signal when the operation state of the generator becomes a preset power tight state.
(c) A power consumption excess warning output unit that outputs a warning signal of power consumption excess when the power consumption amount of the consumer exceeds a preset upper limit value.
(d) A display device that displays an alarm based on the alarm signal for power tightness and the alarm signal for excess power consumption.

Block diagram of the first embodiment Single-line diagram of a specific area to which the first embodiment is applied The figure which shows the example of a monitoring screen of 1st Embodiment The figure which shows the flowchart of 1st Embodiment.

(First embodiment)
The power monitoring system according to the first embodiment will be specifically described below with reference to FIGS.
[Constitution]
A power monitoring system 1 illustrated in FIG. 1 is a system that monitors power demand in a specific area where a special power project is performed. There are a plurality of consumers with different voltage systems in the specific area. For example, in FIG. 2, a 66 kV system linked to the power system is provided, to which two 6.6 kV systems and one 22 kV system are connected.

  In the specific area, a plurality of generators 2 for supplying power to each consumer are arranged, and each generator control panel 3 is connected to each generator 2. However, only one generator 2 and each generator control panel 3 are shown in FIG. 1 for convenience. A generator common control panel 4 is connected to each generator control panel 3.

  The power generator common control panel 4 monitors the operating state of each generator 2 and outputs a power tight alarm signal when the operating state of the generator 2 becomes a preset power tight state. It is an output unit. The generator common control panel 4 is configured to output a power tight alarm signal in multiple stages according to the degree of the power tight state. Specifically, if the generator 2 is 90% of the rated capacity, the generator common control panel 4 outputs a light failure signal as an alarm signal for power tightness, and if the generator 2 is 95% of the rated capacity. A serious failure signal is output as an alarm signal for power tightness.

  In the special electric power business, a power network that connects consumers belonging to a specific area and the generator 2 is constructed, and power is supplied from the generator 2 to consumers in the specific area via the power network. The power network can be separated from the power system of an existing power company and can be operated independently.

  Therefore, even if the existing power system fails due to a disaster or the like in a specific area, it is possible to realize a business continuity plan, that is, BCP, and each customer belonging to the specific area usually makes a BCP contract with a special power operator. Tied. The BCP contract is, for example, a contract that includes contents such as limiting the amount of power used to 50% or less of the contract power during a predetermined BCP. In such contract contents, the power set with the upper limit value at the time of BCP is called BCP power (also referred to as BCP contract power), and the amount of power used at the time of BCP is called BCP power amount. . For example, if the BCP contract is such that the power consumption is kept within 50% of the contract power, the BCP power is 50% of the contract power.

  The power monitoring system 1 is provided with a BCP PLC board 5 in order to realize the above-described BCP. The BCP PLC panel 5 is connected to the generator common control panel 4. The PLC board 5 for BCP acquires an alarm signal for power tightness from the generator common control board 4. A signal processor 9 is connected to the BCP PLC board 5, and the BCP PLC board 5 is configured to send an alarm signal of power tightness received from the generator common control board 4 to the signal processor 9. ing.

  The BCP PLC board 5 is connected to the power receiving PLC boards 6 of a plurality of customers via the integrated network 7. The PLC board 5 for BCP collects the amount of BCP power used by the customer during the BCP from the power receiving PLC board 6 of a plurality of consumers via the integrated network 7.

  A signal processor 9 is connected to the BCP PLC board 5. The signal processing device 9 is connected to the integrated network 7. That is, the BCP PLC board 5, the power receiving PLC board 6, and the signal processing device 9 are connected to the integrated network 7. The power receiving PLC panel 6 is owned by each consumer, and sends the BCP power amount of each consumer to the BCP PLC panel 5 and the signal processing device 9 via the integrated network 7.

  The signal processing device 9 collects the amount of BCP power used by each customer from the power receiving PLC board 6 via the integrated network 7 and obtains an alarm signal for power tightness from the PLC board 5 for BCP. . A power monitoring server panel 13 and a display device 14 are connected to the signal processing device 9 via a switch hub 12. The signal processing device 9 outputs a power tight alarm signal acquired from the BCP PLC board 5 to the display device 14 via the switch hub 12.

  Further, the signal processing device 9 is configured to output a BCP power excess warning signal when the BCP power amount of each consumer exceeds a preset upper limit value. That is, in this embodiment, the signal processing device 9 is a BCP power excess alarm output unit. The signal processing device 9 outputs an alarm signal indicating excess BCP power to the display device 14 and also to each customer side via the power monitoring server panel 13 and predetermined communication means. The BCP power excess warning signal output to each customer side is displayed on a display screen of a predetermined display unit provided on each customer side.

  The signal processing device 9 is configured to output a BCP power excess warning signal in multiple stages according to the degree of BCP power excess. Specifically, the signal processing device 9 sets the contract power 45% of the power usage amount of each consumer as an upper limit value in which the BCP power amount of each customer is set in advance. The fact that the upper limit of BCP power is 45% of contract power means that the output timing of the BCP power excess warning signal is BCP assuming that each customer defines BCP power as 50% of contract power. This means that 90% of the power is reached.

  When the upper limit value of the BCP power is exceeded, the signal processing device 9 outputs an alarm signal indicating that the BCP power has been exceeded to the display device 14 and also to a consumer who has exceeded the upper limit value of the BCP power. The BCP power excess warning signal here is a signal indicating the fact that the BCP power excess has occurred in the customer to whom the signal is output.

  Further, the signal processing device 9 is configured such that when the consumer whose BCP power exceeds the BCP power (50% of the contract power) does not cancel the excess BCP power even after a predetermined time has elapsed, It is determined that the customer has not been able to voluntarily reduce the power used. At this time, the signal processing device 9 outputs a warning alert signal as a BCP power excess warning signal to the display device 14 and all customers belonging to the specific area.

  The attention warning signal here is not a signal that simply indicates the fact that the BCP power excess has occurred, but a signal that increases the level of vigilance and prompts the suppression of the BCP power amount. The warning alert signal output from the signal processing device 9 is also output to the consumer side via the power monitoring server panel 13 and predetermined communication means, as with the above BCP power excess alarm signal. Is displayed on a display screen of a predetermined display section provided in the display.

  In addition, a power value calculation unit 10 and an excess ratio calculation unit 11 are provided inside the signal processing device 9. The power value calculation unit 10 is a part that collects the amount of power used by each customer from the power receiving PLC board 6 of the customer and calculates the power value of each customer using the count value per unit time. The calculation period in the power value calculation unit 10 is arbitrary, and can be freely set within 1 to 99 minutes, for example. The excess ratio calculation unit 11 is a part that calculates a ratio of a customer's power value to a preset interrupted capacity as an excess ratio.

  The display device 14 connected to the signal processing device 9 is a device that receives a power tight warning signal and a BCP power excess warning signal from the signal processing device 9 and displays an alarm based on these warning signals. When the display device 14 receives the power tight warning signal from the signal processing device 9, the display device 14 displays the power tight alert based on the warning signal.

  For example, when the generator 2 has 90% or more of the rated capacity and a light failure signal is received as a power tight warning signal, the display device 14 displays “supply / demand tight warning alert (light failure)” as a power tight alert. Is displayed on the display screen. Further, when the generator 2 has 95% or more of the rated capacity and receives a major failure signal as a power tightness alarm signal, the display device 14 provides a “supply / demand tightness warning (major failure)” as a power tightness alert. Is displayed on the display screen. The administrator of the power monitoring system 1 monitors the power demand in a specific area by looking at the display on the display device 14.

  FIG. 3 is an example of a BCP power demand tightness monitoring screen on the display device 14. In this screen, the flow of the BCP power demand tightness monitoring operation in the first embodiment is illustrated on the left side of the screen. In the screen of FIG. 3, “Understand the power status of the customer side” is displayed on the lower left side of the flow so that the power status of the customer side can be grasped by the processing on the left side of the flow. In order to be able to grasp the power status on the power distribution side in this process, the display “Understand power status on the power distribution side” is displayed below the right side of the flow. In addition, on the upper right side of the screen, a list of customer lists, BCP contract power of each customer, power consumption calculation results, and excess ratio is displayed.

  In addition, a blocking unit 15 is connected to the signal processing device 9. The shut-off unit 15 forcibly shuts off the customer's system when the generator 2 is 95% or more of the rated capacity. At this time, the shut-off unit 15 demands an excess ratio, which is a ratio of the power value used by each consumer, with respect to a set shut-off capacity, for example, 50% of contract power, in order from the system of the consumer with the largest demand. The house system is forcibly cut off.

[Action]
The BCP power demand tightness monitoring operation in the first embodiment will be described using the flowchart of FIG. When the grid-side power is interrupted in step 01, the power network in the specific area is separated from the power system by the existing power company and shifts to independent operation (step 02), and starts independent operation (step 03). 04 and Step 08. The process flow of steps 04 to 07 on the left side of the flow indicates the power situation on the customer side, and the process flow of steps 08 to 11 on the right side of the flow indicates the power situation on the power distribution side. is there.

  In step 04, the signal processing device 9 determines whether or not the BCP power amount of each consumer exceeds 45% of the contract power. If 45% of the contract power is exceeded (Yes in Step 04), the signal processing device 9 outputs an alarm signal indicating that the BCP power is exceeded to the consumer who exceeds 45% of the contract power (Step 05). As described above, the value of 45% of the contract power is that each consumer has a contract to keep the power consumption within 50% of the contract power at the time of BCP. This is derived from the point at which 90% is reached.

  In step 06, the signal processing device 9 determines whether or not a consumer whose BCP power amount has exceeded 45% of the contracted power has voluntarily suppressed the used power amount after a predetermined time has elapsed. If the customer's BCP power amount is 45% or less of the contracted power (Yes in Step 06), the process returns to Step 04, assuming that the BCP power amount has been voluntarily suppressed by the customer.

  On the other hand, when the state where the customer's BCP electric energy exceeds 45% of the contract electric power continues (No in Step 06), it is assumed that the voluntary suppression of the BCP electric energy by the consumer is not performed. Move to 07. In step 07, the signal processing device 9 outputs a warning alert signal for prompting suppression of the amount of power used to the display device 14 and all the consumers belonging to the specific area as an alarm signal indicating excess BCP power.

  After starting the independent operation, in step 08, the generator common control panel 4 determines whether or not the generator 2 is 90% or more of the rated capacity. If the generator 2 is 90% or more of the rated capacity (Yes in Step 08), the generator common control panel 4 outputs a light failure signal as an alarm signal for power tightness and performs continuous monitoring (Step 09). . At this time, the display device 14 issues a display of “supply / demand tightness warning (light failure)” on the display screen as a power tightness warning.

  Subsequently, in Step 10, the generator common control panel 4 determines whether or not the generator 2 is 95% or more of the rated capacity. If the generator 2 is less than 95% of the rated capacity (No in Step 10), the process returns to Step 08. Further, if the generator 2 is 95% or more of the rated capacity (Yes in Step 10), the generator common control panel 4 outputs a serious failure signal as a power tight alarm signal, and the display device 14 A display of “supply / demand tightness warning (major failure)” is issued on the display screen as a tightness warning. Further, the shut-off unit 15 forcibly shuts off in order from the customer system having the largest ratio of the BCP power of each customer to 50% of the contract power.

[effect]
The effects of the power monitoring system 1 according to the first embodiment as described above are as follows.
(1) In the power monitoring system 1, a generator 2 that supplies power to consumers, a generator common control panel 4 that outputs an alarm signal of power tightness, and a signal processing device 9 that outputs an alarm signal of excess BCP power And a display device 14 that displays an alarm based on an alarm signal for power tightness and an alarm signal for excess BCP power.

  In such a power monitoring system 1, an alarm signal can be output based on the power tightness state of the specific area and the BCP power amount of the customer, and an alarm corresponding to the alarm signal can be displayed on the display device 14. Therefore, when the power in the specific area is tight due to a disaster or the like, the administrator of the power monitoring system 1 can prompt the consumer to voluntarily suppress the power based on the display on the display device 14, and the power tightness state can be changed. It can be avoided reliably. As a result, it is possible to prevent the entire power failure in the specific area at the time of BCP, and the reliability is improved.

(2) In the power monitoring system 1 according to the first embodiment, the signal processing device 9 outputs an alarm signal indicating that the BCP power has been exceeded to a consumer that has exceeded the upper limit value of the BCP power. It is possible to efficiently promote power suppression.

(3) If the excess state of the BCP power is not resolved even after a predetermined time has elapsed, the signal processing device 9 outputs a warning alarm signal that prompts the suppression of the BCP power to the display device 14. Therefore, the power monitoring system 1 can notify the administrator of the power monitoring system 1 that there is a consumer in the BCP power excess state in the specific area by an alarm displayed on the display device 14.

  The manager of the power monitoring system 1 that has received the warning alert signal directly contacts the customer who is in excess of the BCP power so as to suppress the BCP power based on the warning alert signal. Can do. Furthermore, in the power monitoring system 1, since the signal processing device 9 outputs a warning alarm signal to all the consumers belonging to the specific area, the excess state of the BCP power is also caused by pressure from other consumers. It is expected that consumers in the area will be encouraged to reduce the amount of power used.

(4) Since the signal processing device 9 includes the power value calculation unit 10, the BCP power value used by each consumer can be calculated using the count value per unit time. Even if there are different consumers, it is possible to accurately grasp the amount of BCP power used by each customer. Therefore, when the manager of the power monitoring system 1 requests the consumer to suppress the BCP power amount, fairness can be maintained. Thereby, power suppression can be advanced efficiently, and avoidance of a power tight state in a specific area can be easily realized.

(5) Since the signal processing device 9 includes the excess ratio calculation unit 11, it is possible to quickly grasp the excess ratio of the customer with respect to the preset set interruption capacity, and the administrator of the power monitoring system 1 The suppression of the BCP power amount can be obtained while the suppression amount of the BCP power amount is optimized in accordance with the excess state of the BCP power at each consumer. Therefore, it is possible to minimize the influence due to the suppression of the BCP power amount, and it is possible to stably avoid the power tight state in the specific area.

(6) In this embodiment, the generator common control panel 4 which is a power tight warning output unit outputs a power tight warning signal in two stages according to the degree of the power tight state. That is, if the generator 2 is 90% of the rated capacity, a “light failure signal” is output as an alarm signal for power tightness, and if the generator 2 is 95% of the rated capacity, a “serious failure” is output as an alarm signal for power tightness. Signal ". And the display apparatus 14 displays the warning from which these alerting degrees differ. Therefore, the manager of the power monitoring system 1 can call the consumers in the specific area to suppress the BCP power amount in steps, and can smoothly avoid the power tight condition in the specific area. is there.

(7) The signal processing device 9 which is a BCP power excess warning output unit also outputs a BCP power excess warning signal in two stages according to the degree of BCP power excess. That is, when the BCP power amount of each consumer exceeds 45% of the contract power, a signal indicating that the BCP power is exceeded is output first.

  The signal processing device 9 outputs a warning alarm signal to the display device 14 only when the consumer who has exceeded the BCP power has not solved the excess BCP power state even after a predetermined time has elapsed. The device 14 displays a warning alert. For this reason, the administrator of the power monitoring system 1 can call the consumers in the specific area to control the amount of power used in detail, and from this point, it is possible to smoothly avoid the power tightness in the specific area. It is.

(8) Furthermore, in this embodiment, by providing the cutoff unit 15, it is possible to forcibly cut off the customer's system based on the alarm signal of BCP power excess, and the power tight state in a specific area By avoiding this, it is possible to reliably prevent a total power outage. And since the interruption | blocking part 15 forcibly cuts off a customer's system | strain in order with the larger excess ratio with respect to the preset interruption | blocking capacity | capacitance set beforehand, it is possible to avoid the power tight state in a specific area efficiently.

(Other embodiments)
The above embodiment is presented as an example, and is not intended to limit the scope of the invention. That is, the embodiments of the present invention can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and modifications thereof are included in the invention described in the claims and equivalents thereof as well as included in the scope and gist of the invention.

  For example, the blocking unit 15 may sequentially block from the smaller voltage system in the specific area. According to such an embodiment, system stability in a specific area can be maintained, and excellent reliability can be exhibited. Further, the operation state of the generator 2 when outputting a power tight alarm signal is not limited to that the generator 2 is 90% or 95% of the rated capacity. Furthermore, the upper limit value of the BCP power when outputting the power excess warning signal is not limited to 45% of the contract power, and can be changed as appropriate.

  In the display device 14, a display form of an alarm that is issued based on an alarm signal for power tightness and an alarm signal for excess BCP power can be selected as appropriate. For example, in the display screen example shown in FIG. The largest consumer may be displayed in red flicker. In addition, a display such as “supply / demand tightness warning (minor failure)” or “demand / supply tightness warning (major failure)” may be issued on the display screen of FIG. In the case of forcibly shutting off the customer's system at the shut-off unit 15, forcibly shutting off may be performed by entering after calling the consumer to suppress the amount of power used directly.

  The components such as the signal processing device 9 and the power value calculation unit 10 and excess ratio calculation unit 11 included therein can be configured as a circuit that realizes each processing. In addition, each of the above-described units can be appropriately set with respect to a processing range in hardware and a processing range in software including a program, and is not limited to a specific mode. In the above embodiment, the BCP PLC panel 5 is incorporated to monitor the power demand at the time of BCP. However, it may be applied to a power monitoring system that monitors the power demand at the normal time in a specific area. Is possible.

DESCRIPTION OF SYMBOLS 1 ... Electric power monitoring system 2 ... Generator 3 ... Each generator control board 4 ... Generator common control board 5 ... BCP PLC board 6 ... Receiving PLC board 7 ... Integrated network 9 ... Signal processing apparatus 10 ... Electric power value calculating part 11 ... excess ratio calculation unit 12 ... switch hub 13 ... power monitoring server panel 14 ... display device 15 ... blocking unit

Claims (10)

A power monitoring system for monitoring power demand in a specific area to which a plurality of consumers belong,
A generator for supplying power to the consumer;
A power tight alarm output unit that outputs a power tight warning signal when the operating state of the generator is a preset power tight state;
A power consumption excess warning output unit that outputs a warning signal of power consumption excess when the power usage amount of the consumer exceeds a preset upper limit; and
A power monitoring system comprising: a display device that displays an alarm based on the alarm signal for power tightness and the alarm signal for excess power consumption.   2. The power monitoring system according to claim 1, wherein the power usage excess warning output unit outputs a BCP power excess warning signal when a power usage amount at the time of BCP of the consumer exceeds a preset upper limit value. .   3. The power monitoring system according to claim 1, wherein the power usage excess warning output unit outputs the power usage excess warning signal to a consumer who has exceeded the upper limit value. 4.   The power usage excess warning output unit outputs a warning warning signal for prompting suppression of power usage as the power usage excess warning signal when the power usage excess state is not resolved even after a predetermined time has elapsed. Item 4. The power monitoring system according to any one of Items 1 to 3. A power value calculation unit that collects the amount of power used by each customer from the power-receiving PLC panel of the customer and calculates the power value used by each customer at a count value per unit time;
The power monitoring system according to claim 1, wherein the display device displays the power value. An excess ratio calculating unit that calculates a ratio of the power usage value of the consumer to a preset breaking capacity set in advance as an excess ratio;
The power monitoring system according to claim 1, wherein the display device displays the excess ratio. The power tight warning output unit outputs the power tight warning signal in multiple stages according to the degree of the power tight state,
The power monitoring system according to any one of claims 1 to 6, wherein the display device displays a different type of alarm according to the level of the alarm signal. The use power excess warning output unit outputs the use power excess warning signal in multiple stages according to the degree of use power excess,
The power monitoring system according to any one of claims 1 to 7, wherein the display device displays a different type of alarm according to a stage of the alarm signal.   The power monitoring system according to any one of claims 1 to 8, further comprising a shut-off unit that forcibly shuts off the customer's system based on the alarm signal for excess power used.   10. The power monitoring system according to claim 9, wherein the shut-off unit forcibly shuts off in order from a customer system having a largest ratio of a power usage value of the consumer to a preset set-off capacity.

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