JP2581560B2 - Power adjustment method - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power adjustment method, and more particularly to a power adjustment method using an AC rotating electric machine suitable for power adjustment during electric operation.

[Conventional technology]

A conventional power conditioning system using an AC rotating electric machine (a generator or an electric motor) operates an AC rotating electric machine connected to a prime mover (a water turbine, an engine, etc.) or a load machine (a pump, a fan, etc.) at a constant speed. The output power was adjusted. However, when a load machine whose output characteristic is uniquely determined by the number of revolutions such as a pump is operated, there is a problem that only constant load operation can be performed at a constant number of revolutions because it is difficult to adjust the load power. For this reason,
As an electric power adjustment system capable of adjusting electric power even during operation of a pump or the like, a system for operating an alternator or an electric motor at a variable speed has been proposed. It is called.

Conventionally, this type of power regulation system is, for example, disclosed in Japanese Patent Application Laid-Open No. Sho 60-203883, when a pump is operated, an AC motor having a wound rotor structure,
A speed control device for controlling the rotation speed of the AC motor, a pump connected to the AC motor, a cycloconverter (frequency converter) for AC-exciting a rotor winding of the AC motor, and the like. The optimum speed and the amount of excitation are determined by the speed control device according to the command value, and the rotation speed and the secondary excitation current of the AC motor are controlled by the excitation control by the cycloconverter so that the load power becomes equal to the command value. Met.

Further, as the operation system of the fluid pump, a system that adjusts the flow rate by combining the above-described system that operates at a constant speed and the system that operates at a variable speed,
Although it is disclosed in Japanese Patent Application Laid-Open No. 57-126299, it does not mention the operation as a power adjustment system.

[Problems to be solved by the invention]

In the power adjustment system that operates the AC generator or the motor at a variable speed, the power can be continuously and smoothly adjusted during the operation of the pump, but the AC excitation system is used.
The problem is that the initial cost of the system is higher than that of a conventional periodic generator or a constant-speed operation system using a motor, mainly because the cycloconverter (frequency converter) required for the excitation control of the wound generator motor is expensive. there were.

In particular, when the power adjustment range is increased, the capacity of the frequency converter is correspondingly increased, and the cost is remarkably increased.

Thus, as suggested from the above-mentioned Japanese Patent Application Laid-Open No. 57-126299, a system in which a power generation system operated at a constant speed and a power generation system operated at a variable speed are considered, but simply combining both systems is considered. Only by itself, the system configuration becomes complicated,
Performance and economy cannot always be obtained.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and the purpose thereof is to smoothly perform power adjustment over a wide range even if a load machine such as a pump or a prime mover such as a water turbine is used. It is an object of the present invention to provide a power adjusting method using an AC rotating machine which is excellent in economic efficiency.

[Means for solving the problem]

The above problems have the functions of a generator and a motor,
When the synchronous machine and the variable speed induction machine output power to the power receiving and feeding facility in the power adjusting method of the power facility connected to the power receiving and feeding facility, the synchronous machine and the variable speed induction machine serve as a generator. In operation, the output power is adjusted stepwise by turning on and off the synchronous machine, continuously by the variable speed induction machine, and when power is input from the power receiving and feeding equipment, the synchronous machine and the variable speed induction machine are controlled. Is solved by a power adjustment method characterized in that it operates as an electric motor and performs input power adjustment stepwise with the synchronous machine on / off and continuously with the variable speed induction machine.

[Action]

A synchronous machine having the functions of a generator and a motor and a variable speed induction machine are connected to the power receiving and feeding equipment, and when outputting power to the power receiving and feeding equipment, both the synchronous machine and the variable speed induction machine work as generators. The output power is adjusted step by step by turning the synchronous machine on and off, and continuously performed by the variable speed induction machine. When power is input from the power receiving and feeding equipment, the synchronous machine and the variable speed induction machine function as motors, and the input power is adjusted stepwise when the synchronous machine is turned on and off, and continuously performed by the variable speed induction machine.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2.

FIG. 1 is a block diagram of a power adjustment system showing an embodiment of the present invention.

In FIG. 1, reference numeral 1 denotes a winding type AC motor, which comprises a stator winding 1a and a rotor winding 1b, and is connected to a pump (load machine) 2. Further, a phase detector 3 for detecting the phase of the secondary interlinkage magnetic flux and a speed detector 4 are also connected to the wound AC motor 1.

Reference numeral 5 denotes a system, and 6 denotes a switch connected between the system 5 and the stator winding 1a. Reference numeral 7 denotes a cycloconverter (frequency converter) whose input line 7a is connected to the system 5 and its input line
7b is connected to the rotor winding 1b.

8, a speed controller for controlling the output and frequency of the cycloconverter 7, 9 a phase detector for detecting the voltage phase of the system 5, 10 a water level detector for detecting the operating water level of the pump 2, and 11 a pump It is a guide vane.

Reference numerals 12, 13, and 14 denote synchronous motors, each of which has a stator winding 12a,
13a, 14a and field windings 12b, 13b, 14b, which are connected to pumps 15, 16, 17, respectively. And the stator windings 12a,
13a, 14a are connected to the system 5 via switches 18, 19, 20. Reference numerals 21, 22, and 23 denote exciters connected to the system 5 for converting AC power of the system 5 into DC current,
It is used for DC exciting the 2, 13, and 14 field windings 12b, 13b, and 14b. By controlling the output currents of these exciters 21, 22, and 23 by automatic voltage regulators 24, 25, and 26, the terminal voltages of the synchronous motors 12, 13, and 14 are always controlled to a constant value. I am trying to do it.

Reference numeral 27 denotes a system controller that determines an optimal combination of operating states for the entire system of the winding type AC motor 1 and the synchronous motor groups 12, 13, and 14 according to a request of the system 5, and controls each of them. Reference numeral 28 denotes a current detector, and 29 denotes a voltage detector, which detects the input / output state (active power, reactive power) of the entire system, and supplies it to the system controller 27.

The system of the embodiment is configured as described above. next,
The power adjustment operation during pump operation will be described.

First, when a power command is input from the system to the system controller 27 during the pumping operation under a certain load state, the system controller 27 performs the following operation.

First, the system controller 27 determines the number of synchronous motors to be operated, operates the switches 24, 25, and 26, and sets the pump 1
Let 5,16,17 perform pump operation. Next, voltage detector 2
8. Based on the detection signal from the current detector 29, the active current (power) of the entire system is detected (calculated), and the active power command of the variable speed operation system is generated according to the deviation from the power command. According to the rotation speed of the AC motor 1 and 2
Controls the next excitation current.

In accordance with the operation of the system controller, the winding motor 1 controls the output frequency, the current value and the phase of the cycloconverter by the speed control device 8 and changes the amount of excitation of the rotor winding 16 to change the rotation speed. And perform power adjustment. At this time, if the control of the opening degree of the guide vanes of the pump 2 is used together with the control of the rotation speed, it is possible to adjust the power so that the pump efficiency is maximized for a predetermined active power command value.

On the other hand, in the combination of the synchronous generator motors 12, 13, 14 and the pumps 15, 16, 17 connected to them, power adjustment during pump operation cannot be performed with the pump characteristics up and down. , 19, and 20 or the on / off control of the system 5 to execute stepwise power control in units of rated load capacity of each synchronous motor. On the other hand, the reactive power is adjusted by exciting current control by the exciting devices 21, 22, and 23 of the synchronous motors 12, 13, and 14. That is, all the control of the reactive power can be performed by the synchronous motor, and the reactive power control system of the AC motor 1 that is operated at a variable speed can be eliminated. Thereby, the apparent capacity of the secondary excitation cycloconverter 7 and the AC motor 1 can be minimized. In this case, even when it is not necessary to apply a load (generation / electricity) to the synchronous generator motor, the synchronous motor is not always disconnected from the system, and the pumps 15, 16, 17 are idled to perform the invalid load regulation. Phase operation can be performed, and the reactive power can be adjusted.

FIG. 2 shows a basic operation of the power adjustment operation at the time of pumping in the system of the embodiment described above. In the figure, the horizontal line of each diagram is a common time axis, and the so-called operation modes (I to
VIII). The vertical axis indicates the load power P (substantially pump input). Further, P _S1 , P _S2 , P _S3 are the synchronous motors 12,
13 and 14, respectively, where ΔP _am and P _am indicate the maximum power adjustment capacity (range) and the maximum power capacity that can be achieved by the variable speed operation of the AC motor 1.

Further, P _ts indicates the power of the entire system, and P _o
Indicates a power command from the grid. In the figure, P _am is 100%
As (standards), ΔP _am = 50%, P _S1 = P _S2 = P _S3 = ΔP _am
FIG. 5 shows a basic operation pattern and a power change state for responding to a power command from the system in the system having the embodiment configuration described above. As shown in the figure, when the power command value _Po is equal to or less than P _am according to the power command value from the system (modes I and VII), power adjustment is performed by variable speed operation of only the wound AC motor, and the upper limit value is set. By increasing or decreasing the number of operating synchronous motor groups every time _Pam is exceeded, and using both unit control and variable speed control, it is clear that smooth and wide-ranging power adjustment that cannot be achieved with either one of the operation controls alone is possible. . For example, in the example of this figure, over a wide power range that extends to 4 times the power adjustment range [Delta] P _am at variable speed operation system alone, it can be seen that that can smooth power adjustment. From a different point of view, this shows that even if the power adjustment range of the variable speed operation system is reduced to 1/4 of the conventional one, a power adjustment system having the same power adjustment capability as the conventional one can be realized. It will be understood that cost reduction of the system can be achieved.

On the other hand, the system of the embodiment can also be applied as a power adjustment system at the time of power generation by replacing a pump (load machine) with a water turbine or an engine (motor) and replacing an AC motor and a synchronous motor with a generator.

However, for the power generation operation, in the combination of the synchronous generator and the water turbine, the generated power can be adjusted by controlling the guide vane opening. However, in this case, it is well known that the operating efficiency at the time of partial load is reduced. On the other hand, according to the present invention, in the system of the embodiment shown in FIG. 1, the synchronous motors 12, 13, and 14 always perform a power generation operation in a high-efficiency rated output state, and generate power by a unit control operation. By performing fine adjustment of the generated power by variable speed operation of the winding type AC machine, smooth and wide power adjustment can be performed. That is, even during power generation, the system can be operated with high efficiency.

In the above embodiment, the case where the power generation system is configured by three AC synchronous machines that are operated at a constant speed with respect to one wound AC motor that performs the variable speed operation is described. Naturally, any value can be selected in consideration of the total capacity of the system, the necessary range of power adjustment, the production limit of single unit capacity, cost, and the like.

In addition, the above description is based on the assumption that the variable speed operation is performed in the winding type
Although the embodiment in which the secondary excitation is performed and the cycloconverter is used as the secondary excitation control device has been described, the present invention is also applicable to the case where the primary excitation frequency control of the synchronous motor is performed. Further, the present invention can be applied to a case where a frequency converter other than a cycloconverter is used as the primary or secondary excitation frequency converter.

In this embodiment, the active power of the variable speed operation machine is controlled in accordance with the deviation value between the system power command and the active power of the entire power generation system, but the active power of the synchronous machine is subtracted from the system power command. The active power of the variable speed driving machine may be controlled in accordance with the difference (deviation value).

〔The invention's effect〕

Connect a synchronous machine with functions of a generator and a motor and a variable speed machine to the power receiving and feeding equipment, and adjust the power stepwise by turning the synchronous machine on and off when transferring power to and from the power receiving and feeding equipment. ,
Since the variable speed machine is continuously operated, the transmission and reception of electric power to and from the power receiving and supplying equipment can be continuously controlled over a wide range, and the size and cost of the exciting converter of the variable speed machine can be reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram of a power adjusting system showing one embodiment of the present invention, and FIG. 2 is an operation operation diagram for explaining the operation of the embodiment system of FIG. 1 ... AC motor, 5 ... System, 6 ... Switch, 7 ...
Cycloconverter, 8 ... Speed control device, 12, 13, 14 ...
... Synchronous motor, 18,19,20 ... Switch, 21,22,23 ... Exciting device, 27 ... System controller.

Claims (3)

(57) [Claims] 1. A method for adjusting power of a power facility connected to a power receiving and feeding facility, comprising a synchronous machine and a variable speed machine having the functions of a generator and a motor, wherein power is output to the power receiving and feeding facility. When the synchronous machine and the variable speed machine function as a generator, the output power is adjusted step by step when the synchronous machine is turned on and off, and continuously performed by the variable speed machine, and power is input from the power receiving and feeding equipment. The power adjusting method is characterized in that the synchronous machine and the variable speed machine function as electric motors, and the input power is adjusted stepwise by turning on and off the synchronous machine and continuously by the variable speed machine. 2. The variable power machine according to claim 1, wherein the active power of said variable speed machine is adjusted based on a difference between a power command value from said power receiving and feeding equipment and a power value of said synchronous machine. The described method. 3. The method according to claim 1, wherein the adjustment of the active power of the variable speed machine is performed based on a difference between a power command value from the power receiving and feeding equipment and power values of the synchronous machine and the variable speed machine. 2. The method according to claim 1, wherein