JPH067730B2 - Power demand control method - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a computer control method for avoiding an overload in a power supply system.

[Background of the Invention]

The power purchaser has to pay a penalty to the power company if the power is used beyond the contract value. The power demand control is for limiting the power supply to the load to avoid this overuse.

FIG. 1 shows a conventional example of a demand control system configuration using a computer. The power supply system 101 includes a power supply end 103, a power supply line 105, and power loads 108, 109, and 110, and the control system 102 includes a control computer 104, a communication line 106, a power meter 107, and power loads 108, 109, and 110. The computer 104 constantly monitors the power supply amount by the power meter 107,
When it is determined that the load is excessive, the load to be supply-limited is selected and the cutoff command is sent.

In the power feeding system 101, a load can be added / deleted by connecting / disconnecting to / from the power line 105. On the other hand, in the control system 102, the computer 104 had to collectively store programs and data for demand monitoring and load control for processing. For this reason, when the control target load is changed, the storage / calculation load of the computer 104 is changed, and the existing programs and data need to be corrected.

[Object of the Invention]

It is an object of the present invention to provide a power demand control system that can flexibly adapt to a configuration change of a target load.

[Outline of Invention]

For this purpose, a calculation function that performs demand monitoring (a)
And a plurality of calculation functions (b) that perform load control for each target load are combined stepwise with a communication function (c) for information exchange, and as a result, demand control of the entire system is realized. . The demand monitoring calculation function (a) determines an index indicating the necessity degree of load limitation based on the power supply amount, and notifies it to all the load control calculation functions (b) via the communication function (c). The load control calculation function (b) limits the power supply to the corresponding target load on the basis of the index determined by the demand monitoring calculation function (a). Since the control function of the entire system is realized by combining the respective calculation functions in a building block system according to the load configuration, the above-mentioned object of the invention can be achieved.

Example of Invention

An embodiment of the present invention will be described below with reference to FIGS.

FIG. 2 shows the configuration of a power demand control system according to an embodiment of the present invention. The feeding system 201 is the feeding end 20
3, a power supply line 208, and power loads 211, 212, 213, and the control system 202 includes a demand monitoring computer 204, load control computers 205, 206, 207, a communication line 209,
It consists of a power meter 210 and power loads 211, 212, and 213. The demand monitoring computer 204 monitors the power supply amount by the power meter 210, determines the index L indicating the load limitation necessity, and notifies it to all the load control computers connected to the signal line 209. The load control computer 205 determines, based on the index L, whether to send a cutoff command to the power load 211.
The other load control computers 206 and 207 are also load 21 respectively.
The same control is performed for Nos. 2 and 213.

Examples of processing contents of each computer are shown in FIG. 3, FIG. 4, and FIG.

FIG. 3 is a processing flow of the demand monitoring computer. In step 301, the index L is initialized to 0. Step 30
Input the supplied power P in step 2, and set the threshold P in step 303.
Compare with _o . If ΔP is a certain margin, P <P _o −
If ΔP, L is reduced by steps 304 and 305 in a range that does not become negative. If P> P _o , step 3
Increase L by 06. Otherwise, L is unchanged. The resulting L is notified to all load control computers in step 307. After waiting for a fixed time T at step 308, the process returns to step 302 again. That is, the demand monitoring computer measures the supplied power P at regular intervals T and increases or decreases the index L according to the magnitude of the supplied power P.

FIG. 4 shows a load control computer (i = 205, 206, 2
This is the processing flow of 07). In step 401, an operation command given locally to the corresponding load is input, and in step 402, judgment is made. Here, input (O
N) and off (OFF). Operation command is O
If it is N, the index L sent from the demand monitoring computer is input in step 403 and compared with the threshold l _{i in} step 404. l _i is uniquely set for each load. If L> l _i , then steps 405, 40
The load is turned off by 6 and the load is turned on by steps 407 and 408 if Ll _i . Step 41
After waiting for a predetermined time T _{i at} 1, the process returns to step 401 again. On the other hand, if the operation command is OFF in step 402, the load is turned OFF in steps 409 and 410.
Then, after waiting at step 411, the process returns to step 401. That is, the load control computer compares the index L with each level l _i at regular time intervals T _i even while the operation command is ON, and when L exceeds l _i , cuts off the load and limits the load.

Since each load has an independent control calculation function, it is possible to add / load loads without interfering with control operations for other loads.
It can be deleted.

In the flows of FIGS. 3 and 4, depending on how the parameters are selected, hunting may occur after a large number of loads are turned on / off at the same time. To avoid this, for example, (i) (cycle of load control _Ti ) <(cycle of demand monitoring T)> (time setting unit of load operation command) (ii) (sum of loads having the same l _i value) ) <(Margin ΔP) is satisfied.

FIG. 5 is an example in which the flow of FIG. 4 is expanded.

This is to switch and use the level values l _i ^H and l _i ^L depending on the priority when the operation command given to the load has some factors. Further increase the level,
It is easy to realize the operation considering the characteristic peculiar to the load by expanding such as dynamically controlling the switching.

〔The invention's effect〕

According to the method of the present invention, it is possible to construct the power supply control to the distributed loads in stages corresponding to the loads, and thus it is possible to achieve the effect of exhibiting flexible adaptability even when the target load configuration is changed. It has gained.

[Brief description of drawings]

FIG. 1 is a block diagram of a conventional power demand control system, FIG. 2 is a block diagram of a power demand control system in an embodiment of the present invention, FIG. 3 is a diagram showing a processing flow in a demand monitoring computer, and FIG. 4 is a load. First of the processing flow in the control computer
FIG. 5 is a diagram showing a second embodiment of the processing flow in the load control computer. In the figure, 101 ... Power feeding system, 102 ... Control system, 103 ... Power feeding end, 104 ... Control computer, 105 ... Power feeding line, 106 ... Communication line, 107 ... Power meter, 108, 109, 110 ... Power load, 201 ... Power feeding System, 202 ... Control system, 203 ... Power supply end, 204 ... Demand monitoring computer, 205, 206, 2
07 ... Load control computer, 208 ... Feed line, 209 ... Communication line, 210 ... Power meter, 211, 212, 213 ... Power load.

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Koji Miyamoto 1099 No. Ozenji, Aso-ku, Kawasaki-shi, Kanagawa Stock Company Hitachi Systems Development Laboratory (72) Inventor Seiji Funabashi, No. 1099 Ozen-ji, Aso-ku, Kawasaki, Kanagawa (56) References JP-A-60-35920 (JP, A)

Claims (1)

[Claims] 1. In a system for supplying electric power to a plurality of distributed loads, a first calculation function for determining an index representing the necessity of load limitation from the power supply amount, and a first calculation function for determining the index. Based on the indicators
It has a plurality of second calculation functions for independently limiting the power supply to each corresponding load, and a communication function for notifying index information from each of the first calculation functions to each of the second calculation functions. Power demand control method.