JP2909733B1 - Control device for private power generator - Google Patents

Control device for private power generator

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Publication number
JP2909733B1
JP2909733B1 JP10125827A JP12582798A JP2909733B1 JP 2909733 B1 JP2909733 B1 JP 2909733B1 JP 10125827 A JP10125827 A JP 10125827A JP 12582798 A JP12582798 A JP 12582798A JP 2909733 B1 JP2909733 B1 JP 2909733B1
Authority
JP
Japan
Prior art keywords
power
generator
reverse
control device
value
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP10125827A
Other languages
Japanese (ja)
Other versions
JPH11332109A (en
Inventor
健 谷口
雅文 苔縄
外左 松本
隆雄 緒方
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Tokyo Gas Co Ltd
Original Assignee
Tokyo Gas Co Ltd
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Filing date
Publication date
Application filed by Tokyo Gas Co Ltd filed Critical Tokyo Gas Co Ltd
Priority to JP10125827A priority Critical patent/JP2909733B1/en
Application granted granted Critical
Publication of JP2909733B1 publication Critical patent/JP2909733B1/en
Publication of JPH11332109A publication Critical patent/JPH11332109A/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Control Of Eletrric Generators (AREA)

Abstract

【要約】 【課題】発電電力の制御を高速化し、商用電力系統から
の受電電力を低減できる自家発電装置の制御装置を提供
すること。 【解決手段】発電機を商用電力系統と連系して構内負荷
に電力を供給する自家発電装置の制御装置において、商
用電力系統から受電する受電電力と受電電力の目標値か
ら発電機の発電電力の目標値を演算し、その出力信号の
上下限を上下限リミッタで制限し、受電電力が逆送防止
レベルより下がった時に逆送防止指令を出すとともに、
電力指令値を下げるための補正信号を設定し、発電電力
の目標値に補正信号を加算し、また発電電力の目標値と
発電電力の検出値の誤差をPI制御器で増幅し、その出
力をガバナへの回転数指令信号に換算する回転数指令換
算器を設けているので、ガバナへの回転数指令を高速に
変化させることができ、速かに受電電力を設定値まで回
復させることができる。
An object of the present invention is to provide a control device for a private power generation device that can speed up control of generated power and reduce received power from a commercial power system. In a control device of a private power generator that supplies power to an on-premise load by linking a generator to a commercial power system, the generator power of the generator is determined based on received power received from the commercial power system and a target value of the received power. Calculate the target value of, limit the upper and lower limits of the output signal with the upper and lower limiters, and issue a reverse transmission prevention command when the received power falls below the reverse transmission prevention level,
Set a correction signal for lowering the power command value, add the correction signal to the target value of the generated power, amplify the error between the target value of the generated power and the detected value of the generated power by the PI controller, and output the output. Since the rotation speed command converter for converting the rotation speed command signal to the governor is provided, the rotation speed command to the governor can be changed at high speed, and the received power can be quickly restored to the set value. .

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、構内負荷に給電し
ながら商用電力系統と連系して運転される自家発電装置
の制御装置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control device for a private power generator that is operated while being connected to a commercial power system while supplying power to a premises load.

【0002】[0002]

【従来の技術】構内負荷に給電しながら商用電力系統と
連系して運転される自家発電装置の制御装置として図1
1に示す自家発電装置がある。図11において、1商用
電源、2は発電機、3はエンジン、4はエンジンの回転
数を制御するガバナ、6は構内負荷、7は発電電力検出
器、8は受電電力検出器、9,10は電流検出器、1
1,12は電圧検出用トランス、13は受電遮断器、1
4は発電機遮断器、15は負荷遮断器、16はガバナ制
御装置、17は回転数設定器である。
2. Description of the Related Art FIG. 1 shows a control system for a private power generator operated in connection with a commercial power system while supplying power to a premises load.
There is a private power generator shown in FIG. In FIG. 11, 1 is a commercial power supply, 2 is a generator, 3 is an engine, 4 is a governor for controlling the number of revolutions of the engine, 6 is a premises load, 7 is a generated power detector, 8 is a received power detector, 9, 10 Is a current detector, 1
Reference numerals 1 and 12 denote voltage detecting transformers, 13 denotes a power receiving circuit breaker, 1
4 is a generator breaker, 15 is a load breaker, 16 is a governor control device, and 17 is a rotation speed setting device.

【0003】発電機2は原動機3により駆動され電力を
発生する。その発電電力は発電機遮断器14,負荷遮断
器15を介して構内負荷6で消費される。この消費電力
が発電機2の発電電力で不足する分は連系している商用
電力系統の商用電源1から受電遮断器13を介して供給
される。
A generator 2 is driven by a prime mover 3 to generate electric power. The generated power is consumed by the local load 6 via the generator breaker 14 and the load breaker 15. The shortage of the power consumption by the power generated by the generator 2 is supplied from the commercial power supply 1 of the interconnected commercial power system via the power receiving circuit breaker 13.

【0004】ところで、自家発電装置は特殊な保護継電
器を設置する場合を除いて、一般的には商用電源に電力
を逆潮流させることはできない。必ず商用電源からの受
電電力が零以上の値でなければならない。そのため、構
内負荷6の消費電力が少ない場合は発電機2の電力を絞
り、逆潮流が発生しないようにしている。
[0004] By the way, in general, a private power generator cannot make a reverse flow of electric power to a commercial power supply except for a case where a special protective relay is installed. The power received from the commercial power supply must be zero or more. Therefore, when the power consumption of the premises load 6 is small, the power of the generator 2 is reduced to prevent reverse power flow.

【0005】図12は上記のガバナ制御装置の構成図で
ある。図において、受電電力設定器30は受電電力の目
標値を出力する。加算器31は受電電力検出値と発電電
力検出値を加算し、負荷電力の値を出力する。減算器3
2は前記負荷電力から発電電力目標値を減算し、発電機
2の発電電力の目標値を出力する。上下限リミッタ49
は前記発電電力の目標値が、発電機が出力可能な電力の
範囲に収まるようにリミットする。減算器33は前記発
電電力目標値から発電電力検出値を減算し、発電電力制
御偏差△Pを出力する。パルス制御器34は△Pを入力
し、△P>0なら回転数増スイッチ35に操作パルスを
与えることで、発電電力を増加させる。△P<0なら回
転数減スイッチ36に操作パルスを与えることで、発電
電力を減少させる。
FIG. 12 is a block diagram of the governor control device. In the figure, a received power setting device 30 outputs a target value of the received power. Adder 31 adds the received power detection value and the generated power detection value and outputs a load power value. Subtractor 3
2 subtracts the generated power target value from the load power and outputs a target value of the generated power of the generator 2. Upper and lower limiter 49
Limits the target value of the generated power so that it falls within the range of power that can be output by the generator. The subtractor 33 subtracts the generated power detection value from the generated power target value and outputs a generated power control deviation ΔP. The pulse controller 34 inputs ΔP, and if ΔP> 0, gives an operation pulse to the rotation speed increasing switch 35 to increase the generated power. If ΔP <0, the operation power is given to the rotation speed reduction switch 36 to reduce the generated power.

【0006】また、発電機2の電力を制御しているのは
ガバナ4である。ガバナ4は原動機3の回転数を制御す
るが,原動機の出力、すなわち発電電力に応じて原動機
3の回転数を垂下させるドループ特性を有する。そのた
めガバナ4への回転数基準値が発電電力の指令値とな
る。ガバナ4の回転数基準値は回転数設定器17で決め
られる。回転数基準値を変化させるには、回転数設定器
17へ回転数増スイッチ35または回転数減スイッチ3
6によりスイッチON期間に応じた幅の操作パルスを与
えて行う。回転数基準値は操作パルスの時間的長さに応
じた量だけ変化する。
The governor 4 controls the power of the generator 2. The governor 4 controls the number of revolutions of the prime mover 3, but has a droop characteristic that makes the number of revolutions of the prime mover 3 drop according to the output of the prime mover, that is, the generated power. Therefore, the rotation speed reference value to the governor 4 becomes the command value of the generated power. The rotation speed reference value of the governor 4 is determined by the rotation speed setting device 17. To change the rotation speed reference value, a rotation speed increase switch 35 or a rotation speed decrease switch 3
6 is performed by giving an operation pulse having a width corresponding to the switch ON period. The rotation speed reference value changes by an amount corresponding to the time length of the operation pulse.

【0007】発電電力は回転数基準値の変化に比例して
変化する。通常は操作パルスを間欠的に与える。その様
子を図13の実線で示す。発電電力を早く変化させよう
とする場合は図13の破線のように連続したパルスとす
る。このように発電電力を操作し、負荷電力が減少した
場合は発電電力も減少させて受電電力を零以上に保って
いる。
[0007] The generated power changes in proportion to the change in the rotation speed reference value. Usually, the operation pulse is given intermittently. This is shown by the solid line in FIG. When the generated power is to be changed quickly, continuous pulses are used as shown by the broken line in FIG. By operating the generated power in this way, when the load power decreases, the generated power is also reduced to maintain the received power at zero or more.

【0008】[0008]

【発明が解決しようとする課題】ところで、従来の自家
発電装置において、構内負荷の一部が運転を停止し、急
激に負荷電力が減少した場合、逆潮流が発生しやすいと
いう問題があった。それは負荷電力が急激に減少した場
合でも、発電機2の発電電力は急に変化できないので、
負荷電力が発電電力より小さくなれば、その瞬間に逆潮
流が生じる。負荷電力の変化が穏やかな場合は図13に
示すような操作で発電電力を絞ることで対応できるが、
急な変化には対応できない。図13の破線のように連続
パルスで発電電力を絞っても,発電電力が負荷電力に追
従するまでの時間だけは逆潮流が継続する。
However, in the conventional private power generator, when a part of the load on the premises stops operating and the load power decreases rapidly, there is a problem that a reverse power flow is likely to occur. That is, even if the load power suddenly decreases, the power generated by the generator 2 cannot change suddenly.
If the load power becomes smaller than the generated power, a reverse power flow occurs at that moment. When the change in the load power is gentle, it can be dealt with by reducing the generated power by the operation shown in FIG.
It cannot respond to sudden changes. Even if the generated power is reduced by continuous pulses as shown by the broken line in FIG. 13, the reverse power flow continues only for the time until the generated power follows the load power.

【0009】需要家の受電点では、逆潮流が所定の時間
以上継続すると、受電遮断器13をトリップして受電を
停止させる逆電力継電器が設置されている。この受電遮
断器13のトリップは構内全停電事故にまで波及する可
能性があり許されない。従来はその防止法として予測さ
れる負荷変化量を算出し、負荷が急変しても逆電力継電
器の動作時限以内に受電電力が零以上に回復するよう、
あらかじめ所定の値の受電電力を確保して運転が行われ
ていた。
At the power receiving point of the customer, a reverse power relay is installed which trips the power receiving circuit breaker 13 and stops power receiving when the reverse power flow continues for a predetermined time or more. This trip of the power receiving circuit breaker 13 may extend to a total power failure in the premises and is not allowed. Conventionally, the amount of load change predicted as a prevention method is calculated, and even if the load changes suddenly, the received power recovers to zero or more within the operation time limit of the reverse power relay,
The operation has been performed by securing a predetermined value of received power in advance.

【0010】自家発電装置を設置する目的は、商用電源
からの電力を安価な発電電力で代替して電力コストを削
減することであり、運転中の受電電力はできるだけ零に
近い方が電力コストは安くなる。しかしながら、前記の
ように常に所定の受電電力を確保して運転するので、自
家発電装置の経済性を悪化させる問題があった。
The purpose of installing a private power generator is to reduce the power cost by replacing the power from the commercial power supply with inexpensive power, and the power cost during operation is closer to zero as much as possible. Become cheap. However, as described above, since the operation is always performed while securing the predetermined received power, there is a problem that the economical efficiency of the private power generator is deteriorated.

【0011】本発明(請求項1乃至請求項6対応)は、
上記事情に鑑みてなされたもので、その目的は発電電力
の制御を高速化し、商用電力系統からの受電電力を低減
できる自家発電装置の制御装置を提供することにある。
The present invention (corresponding to claims 1 to 6) provides:
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a control device of a private power generation device capable of speeding up control of generated power and reducing received power from a commercial power system.

【0012】[0012]

【課題を解決するための手段】上記課題を解決するため
に本発明の請求項1は、発電機と、前記発電機を駆動す
る原動機と、前記原動機の回転数を制御するガバナと、
前記原動機の回転数基準値を設定する基準設定器とを備
え、前記発電機を商用電力系統と連系して構内負荷に電
力を供給する自家発電装置の制御装置において、前記商
用電力系統から受電する受電電力を検出する受電電力検
出器と、前記発電機の発電電力を検出する発電電力検出
器と、受電電力と受電電力の目標値から発電電力の目標
値を演算する加減算器と、前記加減算器の出力信号の上
下限をリミットする上下限リミッタと、逆送防止レベル
を設定する逆送防止レベル設定器と、受電電力が逆送防
止レベルより下がった時に逆送防止指令を出力すると比
較器と、逆送防止時に電力指令値を下げるための補正信
号を設定する補正信号設定器と、前記発電電力の目標値
に補正信号を加算する加算器と、前記発電電力の目標値
と前記発電電力の検出値の誤差を増幅するPI制御器
と、前記PI制御器の出力を前記ガバナへの回転数指令
信号に換算する回転数指令換算器とから構成されている
ことを特徴とする。
According to a first aspect of the present invention, there is provided a generator, a prime mover for driving the generator, and a governor for controlling a rotation speed of the prime mover.
A reference setter for setting a reference value of the number of revolutions of the prime mover, a control device for a private power generator that interconnects the generator with a commercial power system and supplies power to a premises load; A received power detector that detects received power to be received, a generated power detector that detects generated power of the generator, an adder / subtractor that calculates a target value of the generated power from the received power and a target value of the received power, and the addition / subtraction. Upper and lower limiters that limit the upper and lower limits of the output signal of the device, a reverse-transmission prevention level setting device that sets the reverse-transmission prevention level, and a comparator that outputs a reverse-transmission prevention command when the received power falls below the reverse-transmission prevention level A correction signal setting device for setting a correction signal for lowering a power command value when preventing reverse transmission, an adder for adding a correction signal to a target value of the generated power, a target value of the generated power and the generated power of A PI controller which amplifies the error detection value, characterized in that it is composed of a rotation speed command conversion unit for converting the output of the PI controller to the rotational speed command signal to the governor.

【0013】本発明の請求項2は、発電機と、前記発電
機を駆動する原動機と、前記原動機の回転数を制御する
ガバナと、前記原動機の回転数基準値を設定する基準設
定器とを備え、前記発電機を商用電力系統と連系して構
内負荷に電力を供給する自家発電装置の制御装置におい
て、前記商用電力系統から受電する受電電力を検出する
受電電力検出器と、前記発電機の発電電力を検出する発
電電力検出器と、受電電力と受電電力の目標値から発電
電力の目標値を演算する加減算器と、前記加減算器の出
力信号の上下限をリミットする上下限リミッタと、逆送
防止レベルを設定する逆送防止レベル設定器と、受電電
力が逆送防止レベルより下がった時に逆送防止指令を出
力すると比較器と、逆送防止時に電力指令値を下げるた
めの補正信号を設定する補正信号設定器と、前記発電電
力の目標値と前記発電電力の検出値の誤差を増幅するP
I制御器と、前記PI制御器の出力に前記補正信号を加
算する加算器と、前記加算器の出力信号を前記ガバナへ
の回転数指令信号に換算する回転数指令換算器とから構
成されていることを特徴とする。
According to a second aspect of the present invention, there is provided a generator, a prime mover for driving the generator, a governor for controlling the rotational speed of the prime mover, and a reference setting device for setting a reference value for the rotational speed of the prime mover. A control device for a private power generator that interconnects the generator with a commercial power system and supplies power to a premises load, wherein a received power detector that detects received power received from the commercial power system; A generated power detector that detects the generated power of, an adder / subtractor that calculates a target value of the generated power from the received power and a target value of the received power, and an upper / lower limiter that limits the upper and lower limits of the output signal of the adder / subtractor, A back-feed prevention level setting unit that sets the back-feed prevention level, a comparator that outputs a back-feed prevention command when the received power falls below the back-feed prevention level, and a correction signal that lowers the power command value during back-feed prevention. Set P for amplifying the correction signal setting device, the error of the detected value of the target value of the generated power and the generated power to
An I-controller, an adder that adds the correction signal to the output of the PI controller, and a rotational speed command converter that converts the output signal of the adder into a rotational speed command signal to the governor. It is characterized by being.

【0014】本発明の請求項3は、請求項1記載の自家
発電装置の制御装置において、第1の逆送防止レベルを
設定する第1逆送防止レベル設定器と、第2の逆送防止
レベルを設定する第2逆送防止レベル設定器と、第1逆
送防止レベルと第2逆送防止レベルを切り替えるスイッ
チと、受電電力の検出値を微分する微分器と、前記微分
器の出力値の正負を判定して前記スイッチを切り替える
信号を出力する比較器とを有することを特徴とする。
According to a third aspect of the present invention, in the control device for a private power generator according to the first aspect, a first reverse-transmission prevention level setting device for setting a first reverse-transmission prevention level, and a second reverse-transmission prevention level. A second anti-reverse level setting device for setting the level, a switch for switching between the first anti-reverse level and the second anti-reverse level, a differentiator for differentiating the detected value of the received power, and an output value of the differentiator And a comparator that outputs a signal that switches the switch by determining whether the switch is positive or negative.

【0015】本発明の請求項4は、請求項2記載の自家
発電装置の制御装置において、第1の逆送防止レベルを
設定する第1逆送防止レベル設定器と、第2の逆送防止
レベルを設定する第2逆送防止レベル設定器と、第1逆
送防止レベルと第2逆送防止レベルを切り替えるスイッ
チと、受電電力の検出値を微分する微分器と、前記微分
器の出力値の正負を判定して前記スイッチを切り替える
信号を出力する比較器とを有することを特徴とする。
According to a fourth aspect of the present invention, in the control device for a private power generator according to the second aspect, a first reverse-transmission prevention level setting device for setting a first reverse-transmission prevention level, and a second reverse-transmission prevention device. A second anti-reverse level setting device for setting the level, a switch for switching between the first anti-reverse level and the second anti-reverse level, a differentiator for differentiating the detected value of the received power, and an output value of the differentiator And a comparator that outputs a signal that switches the switch by determining whether the switch is positive or negative.

【0016】本発明の請求項5は、請求項1乃至請求項
4記載の自家発電装置の制御装置において、前記回転数
指令信号の変化レートを制限するレート制限器を有する
ことを特徴とする。
According to a fifth aspect of the present invention, in the control device for the private power generator according to the first to fourth aspects, a rate limiter for limiting a change rate of the rotation speed command signal is provided.

【0017】本発明の請求項6は、請求項1乃至請求項
5記載の自家発電装置の制御装置において、前記制御装
置構成要素の少なくとも一部を、マイクロコンピュータ
のソフトウェアにより実現することを特徴とする。
According to a sixth aspect of the present invention, in the control device of the private power generator according to the first to fifth aspects, at least a part of the control device components is realized by software of a microcomputer. I do.

【0018】[0018]

【発明の実施の形態】以下、本発明の実施の形態を図を
参照して説明する。図1は本発明の第1実施例(請求項
1対応)である自家発電装置の回路構成図である。
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a circuit configuration diagram of a private power generator according to a first embodiment (corresponding to claim 1) of the present invention.

【0019】本実施例が図11の従来の自家発電装置の
制御装置と異なる構成は、ガバナ制御装置16と回転数
設定器17の代りにガバナに回転数指令を出力するガバ
ナ制御装置5を設けた点であり、その他の構成は同一で
あるので、同一構成要素には同一符号を付してその説明
は省略する。
The present embodiment differs from the conventional private power generator control device of FIG. 11 in that a governor control device 5 for outputting a rotational speed command to the governor is provided instead of the governor control device 16 and the rotational speed setting device 17. Since the other components are the same, the same components are denoted by the same reference numerals and description thereof will be omitted.

【0020】図2は本実施例で用いるガバナ制御装置5
の構成図であり、受電電力設定器30、加算器31、減
算器32,33、上下限リミッタ49は従来のガバナ制
御装置16と同一であり、また発電電力制御偏差△Pの
演算も従来と同一であるので、その説明は省略する。
FIG. 2 shows a governor control device 5 used in this embodiment.
The received power setting unit 30, the adders 31, the subtracters 32 and 33, and the upper and lower limiters 49 are the same as those of the governor control device 16 of the related art, and the calculation of the generated power control deviation ΔP is the same as that of the related art. Since they are the same, the description is omitted.

【0021】図2において、37は制御偏差△Pを増幅
するPI制御器であり、39は前記PI制御器37の出
力をガバナ4への回転数指令信号に換算する回転数指令
換算器である。逆送防止レベル設定器43は逆送防止レ
ベルを設定し、比較器45は逆送防止レベル設定器43
の設定値と受電電力値を比較する。受電電力値が前記逆
送防止レベルより小さい場合は、スイッチ42により切
り替えて加算器41により上下限リミッタ49の出力信
号に補正信号設定器44の出力を加算する。
In FIG. 2, reference numeral 37 denotes a PI controller for amplifying the control deviation ΔP, and reference numeral 39 denotes a rotation command converter for converting the output of the PI controller 37 into a rotation command signal for the governor 4. . The reverse transmission prevention level setting device 43 sets the reverse transmission prevention level, and the comparator 45 outputs the reverse transmission prevention level setting device 43.
And the received power value. If the received power value is smaller than the above-described back-up prevention level, the output is output from the correction signal setting unit 44 to the output signal from the upper and lower limiter 49 by the adder 41 by switching with the switch 42.

【0022】また、PI制御器37は、図3に示すよう
に比例増幅器60,61と積分器62と加算器63から
構成されている。PI制御器37の出力信号は下記式で
表される。 KP ×△P+Ki ×∫△Pdt
The PI controller 37 includes proportional amplifiers 60 and 61, an integrator 62, and an adder 63, as shown in FIG. The output signal of the PI controller 37 is represented by the following equation. K P × △ P + K i × ∫ △ Pdt

【0023】本実施例の作用を図1乃至図4を参照して
説明する。まず、受電電力が受電電力目標値(受電電力
設定器30の出力)に一致しているときに、構内負荷6
の負荷電力がゆっくり減少する場合を考える。受電電力
目標値は一定値であり、発電電力は変化しないため、受
電電力が減って△Pが負となる。PI制御器37は受電
電力が目標値に一致するまで△Pを増幅し続け、発電電
力を減少させる。受電電力の回復後PI制御器37はそ
の出力値を維持するので、受電電力は目標値に制御・維
持される。
The operation of this embodiment will be described with reference to FIGS. First, when the received power matches the received power target value (the output of the received power setter 30), the local load 6
Let us consider a case where the load power of the power supply slowly decreases. The received power target value is a constant value, and the generated power does not change, so that the received power decreases and ΔP becomes negative. The PI controller 37 continues to amplify ΔP until the received power matches the target value, and reduces the generated power. After the recovery of the received power, the PI controller 37 maintains its output value, so that the received power is controlled and maintained at the target value.

【0024】次に、構内負荷6の消費電力が急に減少す
る場合を考える。PI制御器37の動作のみでは応答に
限界がある。受電電力目標値は一定値で発電電力は急に
変化しないため受電電力が急激に減少する(図4a実
線)。比較器45は受電電力と逆送防止レベル設定器4
3の設定値(図4a破線)を比較する。受電電力の方が
小さくなると、比較器45が逆送防止指令を出力し、ス
イッチ42がオンとなるので、図4b実線のような補正
信号を出力する。この補正信号は加算器41によって発
電電力目標値に加算される。補正信号を加算した後の発
電電力目標値は図4c破線のようになる。この目標値に
対してPI制御を行った結果、発電電力の実際値は図4
c実線のようになる。従来の制御(図13の破線)に比
べて発電電力を絞る動作をより高速に行うことができ
る。
Next, consider a case where the power consumption of the private load 6 suddenly decreases. There is a limit to the response only by the operation of the PI controller 37. The received power target value is constant and the generated power does not change suddenly, so that the received power decreases rapidly (solid line in FIG. 4A). The comparator 45 is provided with the received power and the back-feeding prevention level setting device 4.
The set value of 3 (broken line in FIG. 4a) is compared. When the received power becomes smaller, the comparator 45 outputs a reverse feed prevention command and the switch 42 is turned on, so that a correction signal as shown by the solid line in FIG. 4B is output. This correction signal is added by the adder 41 to the generated power target value. The generated power target value after adding the correction signal is as shown by a broken line in FIG. 4C. As a result of performing PI control on this target value, the actual value of the generated power is shown in FIG.
It becomes like c solid line. The operation of reducing the generated power can be performed at higher speed as compared with the conventional control (broken line in FIG. 13).

【0025】図5は本発明の第2実施例(請求項2対
応)の自家発電装置のガバナ制御装置の構成図である。
本実施例が図2の第1実施例と異なる構成は、第1実施
例では補正信号を発電電力目標値に加算しているのに対
して、本実施例では補正信号をPI制御器の出力信号に
加算するようにした点であり、その他の構成は同一であ
るので、同一構成要素には同一符号を付してその説明は
省略する。
FIG. 5 is a configuration diagram of a governor control device of a private power generator according to a second embodiment (corresponding to claim 2) of the present invention.
This embodiment is different from the first embodiment in FIG. 2 in that the correction signal is added to the generated power target value in the first embodiment, whereas the correction signal is output from the PI controller in this embodiment. The difference is that the signal is added to the signal, and the other components are the same. Therefore, the same components are denoted by the same reference numerals and the description thereof will be omitted.

【0026】本実施例の作用を図5及び図6の波形図を
参照して説明する。本実施例では構内負荷6の消費電力
が急に減少して受電電力が逆送防止レベルより小さくな
ると、図6b実線のような補正信号を出力する。この補
正信号は加算器41によってPI制御器37の出力信号
に加算される。補正後のPI制御器出力は、図6cのよ
うになる。発電電力の実際値は図6dの実線のような波
形となり、従来の制御(図13の破線)と比べてより高
速に制御されるようになっている。
The operation of this embodiment will be described with reference to the waveform diagrams of FIGS. In the present embodiment, when the power consumption of the private load 6 suddenly decreases and the received power becomes smaller than the back-up prevention level, a correction signal as shown by a solid line in FIG. 6B is output. This correction signal is added to the output signal of the PI controller 37 by the adder 41. The corrected PI controller output is as shown in FIG. 6C. The actual value of the generated power has a waveform as shown by a solid line in FIG. 6D, and is controlled at a higher speed than the conventional control (broken line in FIG. 13).

【0027】図7は本発明の第3実施例(請求項3対
応)の自家発電装置のガバナ制御装置の構成図である。
本実施例が図2の第1実施例と異なる構成は、逆送防止
レベル設定器43の代わりに第1逆送防止レベル設定器
43Aと第2逆送防止レベル設定器43Bを備え、微分
器46と比較器47とスイッチ48を追加し、両逆送防
止レベル設定器を切り替えて使用した点であり、その他
の構成は同一であるので、同一構成要素には同一符号を
付してその説明は省略する。
FIG. 7 is a configuration diagram of a governor control device of a private power generator according to a third embodiment (corresponding to claim 3) of the present invention.
This embodiment is different from the first embodiment of FIG. 2 in that a first anti-reverse level setting device 43A and a second anti-reverse level setting device 43B are provided instead of the anti-reverse level setting device 43, and a differentiator. 46, a comparator 47, and a switch 48 are added, and the two sets of the anti-reverse transmission level setting device are switched and used. Since other configurations are the same, the same components are denoted by the same reference numerals and the description thereof will be omitted. Is omitted.

【0028】本実施例の作用を図7及び図8の波形図を
参照して説明する。第1実施例では、受電電力検出器に
よって検出された受電電力が逆送防止レベルより下がる
と、逆送防止指令を出力する。このとき、実際の受電電
力が逆送防止レベルより下がってから逆送防止指令がで
るまでに時間的遅れが生ずる。すなわち、受電電力の検
出に時間的遅れが生ずる場合がある。その場合は補正信
号が図8b実線のようになる。補正後の発電電力目標値
は、図8b破線の発電電力目標値に図8b実線の補正信
号を加算して図8c破線のようになる。発電電力の実際
値は図8cのように目標値に対してアンダーシュートす
る波形となる。
The operation of this embodiment will be described with reference to the waveform diagrams of FIGS. In the first embodiment, when the received power detected by the received power detector falls below the reverse transmission prevention level, a reverse transmission prevention command is output. At this time, there is a time delay from when the actual received power falls below the back-feed prevention level to when the back-feed prevention command is issued. That is, a time delay may occur in the detection of the received power. In that case, the correction signal is as shown by the solid line in FIG. The corrected generated power target value is obtained by adding the correction signal indicated by the solid line in FIG. 8B to the generated power target value indicated by the broken line in FIG. The actual value of the generated power has a waveform that undershoots the target value as shown in FIG. 8C.

【0029】本実施例では第1逆送防止レベル設定器4
3Aと第2逆送防止レベル設定器43Bを設けている。
ここで、第2逆送防止レベルは第1逆送防止レベルより
大きい値に設定されている。また、微分器46は受電電
力を微分する。受電電力の微分値が負、つまり受電電力
が減少中なら第1逆送防止レベルを比較器45に入力す
る。受電電力微分値が正、つまり受電電力が増加中なら
第2逆送防止レベルを比較器45に入力する。比較器4
5に入力される逆送防止レベルは、図8d破線のように
なる。
In this embodiment, the first back-feed prevention level setting unit 4
3A and a second reverse transmission prevention level setting device 43B are provided.
Here, the second backhaul prevention level is set to a value larger than the first backhaul prevention level. The differentiator 46 differentiates the received power. If the differential value of the received power is negative, that is, if the received power is decreasing, the first back-feed prevention level is input to the comparator 45. If the received power differential value is positive, that is, if the received power is increasing, the second reverse transmission prevention level is input to the comparator 45. Comparator 4
The backhaul prevention level input to 5 is as shown by the broken line in FIG.

【0030】このことにより、逆送防止指令を早く解除
するので、減算器41に入力される補正信号は図8eの
実線のようになり、補正後の発電電力目標値は図8fの
破線のようになるので、発電電力の実際は図8fの実線
のようになる。このように逆送防止レベルを切り替える
ことによって、図8c実線のようなアンダーシュートを
抑制するので、発電電力の制御性能が向上する。
As a result, the back-feed prevention command is canceled earlier, so that the correction signal input to the subtractor 41 is as shown by the solid line in FIG. 8e, and the corrected generated power target value is as shown by the broken line in FIG. 8f. Therefore, the actual generated power is as shown by the solid line in FIG. 8F. By switching the back-feed prevention level in this manner, the undershoot as shown by the solid line in FIG. 8C is suppressed, and the control performance of the generated power is improved.

【0031】図9は本発明の第4実施例(請求項4対
応)の自家発電装置のガバナ制御装置の構成図である。
本実施例が図7の第3実施例と異なる構成は、第3実施
例では補正信号を発電電力目標値に加算するのに対し
て、本実施例では補正信号をPI制御器の出力信号に加
算するようにした点であり、その他の構成は同一である
ので、同一構成要素には同一符号を付してその説明は省
略する。本実施例は第3実施例と同様に逆送防止レベル
を切り替えることによって、アンダーシュートを抑制で
き、発電電力の制御性能を向上させるものである。
FIG. 9 is a configuration diagram of a governor control device of a private power generator according to a fourth embodiment (corresponding to claim 4) of the present invention.
This embodiment is different from the third embodiment in FIG. 7 in that the third embodiment adds a correction signal to a generated power target value, whereas the third embodiment uses a correction signal as an output signal of a PI controller. This is the point of addition, and the other configurations are the same. Therefore, the same components are denoted by the same reference numerals and the description thereof will be omitted. In the present embodiment, the undershoot can be suppressed and the control performance of the generated power can be improved by switching the back-feed prevention level as in the third embodiment.

【0032】図10は本発明の第5実施例(請求項5対
応)の自家発電装置のガバナ制御装置の構成図である。
本実施例が図2の第1実施例と異なる構成は、回転数指
令換算器39からガバナ4へ出力する回転数指令信号
を、レート制限器40を介して入力するようにした点で
ある。その他の構成は同一であるので、同一構成要素に
は同一符号を付してその説明は省略する。
FIG. 10 is a configuration diagram of a governor control device of a private power generator according to a fifth embodiment (corresponding to claim 5) of the present invention.
This embodiment is different from the first embodiment in FIG. 2 in that a rotation speed command signal output from the rotation speed command converter 39 to the governor 4 is input via a rate limiter 40. Since other configurations are the same, the same components are denoted by the same reference numerals and description thereof will be omitted.

【0033】エンジンの特性によれば、エンジンへの回
転数指令値を急激に変化させることは、燃料量の急速な
変化となり、吸入空気量とのバランスが崩れ、不完全燃
焼や着火ミスなどが発生する場合がある。このため本実
施例ではレート制限器40を設けて回転数指令値の変化
レートを制限するように構成している。その他の作用は
第1実施例と同様であるので、その説明は省略する。
According to the characteristics of the engine, abruptly changing the engine speed command value to the engine results in a rapid change in the amount of fuel, resulting in a loss of balance with the amount of intake air, and incomplete combustion and misfiring. May occur. For this reason, in the present embodiment, the rate limiter 40 is provided to limit the rate of change of the rotational speed command value. Other operations are the same as those of the first embodiment, and the description thereof is omitted.

【0034】以上説明した各実施例では構成要素中の各
々のブロックを独立したハードウェアとして説明した
が、本発明(請求項6対応)はこれに限るものではなく
制御装置の一部または全部をマイクロコンピュータのソ
フトウェアにより実現することも可能である。
In each of the embodiments described above, each block in the components has been described as independent hardware. However, the present invention (corresponding to claim 6) is not limited to this, and a part or all of the control device may be used. It is also possible to realize by software of a microcomputer.

【0035】[0035]

【発明の効果】以上説明したように、本発明(請求項1
乃至請求項6対応)によると、構内負荷に給電しながら
商用電力系統と連系して運転される自家発電装置におい
て、構内負荷の急激な変動により受電電力が減少した場
合でも、ガバナへの回転数指令を高速に変化させること
により、高速に電力を制御し、すみやかに受電電力を設
定値まで回復させることができる。さらに受電電力が逆
送防止レベルより下がったときに補正信号を加えること
により、より高速に電力を制御し、受電電力を回復させ
ることができる。
As described above, the present invention (Claim 1)
According to claim 6), in a private power generator operated in connection with a commercial power system while supplying power to a private load, even if the received power decreases due to a sudden change in the private load, rotation to the governor is performed. By changing the number commands at a high speed, the power can be controlled at a high speed, and the received power can be promptly restored to the set value. Furthermore, by adding a correction signal when the received power falls below the reverse transmission prevention level, the power can be controlled more quickly and the received power can be recovered.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の第1実施例の自家発電装置の構成図。FIG. 1 is a configuration diagram of a private power generator according to a first embodiment of the present invention.

【図2】図1のガバナ制御装置の構成図。FIG. 2 is a configuration diagram of a governor control device of FIG. 1;

【図3】図1のPI制御器の構成図。FIG. 3 is a configuration diagram of a PI controller of FIG. 1;

【図4】図1の効果を示す波形図。FIG. 4 is a waveform chart showing the effect of FIG.

【図5】本発明の第2実施例の自家発電装置のガバナ制
御装置の構成図。
FIG. 5 is a configuration diagram of a governor control device of a private power generator according to a second embodiment of the present invention.

【図6】図5の効果を示す波形図。FIG. 6 is a waveform chart showing the effect of FIG. 5;

【図7】本発明の第3実施例の自家発電装置のガバナ制
御装置の構成図。
FIG. 7 is a configuration diagram of a governor control device of a private power generator according to a third embodiment of the present invention.

【図8】図7の効果を示す波形図。FIG. 8 is a waveform chart showing the effect of FIG. 7;

【図9】本発明の第4実施例の自家発電装置のガバナ制
御装置の構成図。
FIG. 9 is a configuration diagram of a governor control device of a private power generator according to a fourth embodiment of the present invention.

【図10】本発明の第5実施例の自家発電装置のガバナ
制御装置の構成図。
FIG. 10 is a configuration diagram of a governor control device of a private power generator according to a fifth embodiment of the present invention.

【図11】従来の自家発電装置の構成図。FIG. 11 is a configuration diagram of a conventional private power generator.

【図12】図11のガバナ制御装置の構成図。FIG. 12 is a configuration diagram of the governor control device of FIG. 11;

【図13】従来の自家発電装置の発電電力の特性図。FIG. 13 is a characteristic diagram of power generated by a conventional private power generator.

【符号の説明】[Explanation of symbols]

1…商用電源、2…発電機、3…原動機、4…ガバナ、
5…ガバナ制御装置、6…構内負荷、7…発電電力検出
器、8…受電電力検出器、9,10…電流検出CT、1
1,12…電圧検出トランス、13…受電遮断器、14
…発電機遮断器、15…負荷遮断器、16…ガバナ制御
装置、17…回転数設定器、30…受電電力設定器、3
1,41…加算器、32,33…減算器、34…パルス
制御器、35…回転数増スイッチ、36…回転数減スイ
ッチ、37…PI制御器、39…回転数指令換算器、4
0…レート制限器、41…加算器、42,48…スイッ
チ、43…逆送防止レベル設定器、43A…第1逆送防
止レベル設定器、43B…第2逆送防止レベル設定器、
44…補正信号設定器、45,47…比較器、46…微
分器、49…上下限リミッタ、60,61…比例増幅
器、62…積分器、63…加算器。
1 ... commercial power supply, 2 ... generator, 3 ... motor, 4 ... governor,
5 governor control device, 6 premises load, 7 generated power detector, 8 received power detector, 9, 10 current detection CT, 1
1, 12: voltage detection transformer, 13: power receiving circuit breaker, 14
... Generator circuit breaker, 15 ... Load breaker, 16 ... Governor control device, 17 ... Rotational speed setting device, 30 ... Received power setting device, 3
1, 41: adder, 32, 33: subtractor, 34: pulse controller, 35: rotational speed increase switch, 36: rotational speed decrease switch, 37: PI controller, 39: rotational speed command converter, 4
0: Rate limiter, 41: Adder, 42, 48: Switch, 43: Backward prevention level setting unit, 43A: First backhaul prevention level setter, 43B: Second backhaul prevention level setter,
44: correction signal setting device, 45, 47: comparator, 46: differentiator, 49: upper and lower limiter, 60, 61: proportional amplifier, 62: integrator, 63: adder.

フロントページの続き (72)発明者 松本 外左 東京都港区海岸1丁目5番20号 東京瓦 斯株式会社内 (72)発明者 緒方 隆雄 東京都港区海岸1丁目5番20号 東京瓦 斯株式会社内 (56)参考文献 特開 平4−209943(JP,A) 特開 平9−317624(JP,A) 特開 平3−45128(JP,A) 特開 平7−336900(JP,A) (58)調査した分野(Int.Cl.6,DB名) H02J 3/00 - 5/00 H02P 9/04 Continuation of the front page (72) Inventor Matsumoto Outside left 1-5-20 Kaigan, Minato-ku, Tokyo Inside Tokyo Gas Co., Ltd. (72) Takao Ogata 1-5-20 Kaigan, Minato-ku, Tokyo Tokyo Gas (56) References JP-A-4-209943 (JP, A) JP-A-9-317624 (JP, A) JP-A-3-45128 (JP, A) JP-A-7-336900 (JP, A) A) (58) Field surveyed (Int. Cl. 6 , DB name) H02J 3/00-5/00 H02P 9/04

Claims (6)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 発電機と、前記発電機を駆動する原動機
と、前記原動機の回転数を制御するガバナと、前記原動
機の回転数基準値を設定する基準設定器とを備え、前記
発電機を商用電力系統と連系して構内負荷に電力を供給
する自家発電装置の制御装置において、前記商用電力系
統から受電する受電電力を検出する受電電力検出器と、
前記発電機の発電電力を検出する発電電力検出器と、受
電電力と受電電力の目標値から発電電力の目標値を演算
する加減算器と、前記加減算器の出力信号の上下限をリ
ミットする上下限リミッタと、逆送防止レベルを設定す
る逆送防止レベル設定器と、受電電力が逆送防止レベル
より下がった時に逆送防止指令を出力すると比較器と、
逆送防止時に電力指令値を下げるための補正信号を設定
する補正信号設定器と、前記発電電力の目標値に補正信
号を加算する加算器と、前記発電電力の目標値と前記発
電電力の検出値の誤差を増幅するPI制御器と、前記P
I制御器の出力を前記ガバナへの回転数指令信号に換算
する回転数指令換算器とから構成されていることを特徴
とする自家発電装置の制御装置。
1. A generator, a prime mover for driving the generator, a governor for controlling the rotational speed of the prime mover, and a reference setter for setting a reference value for the rotational speed of the prime mover, the generator comprising: In the control device of the private power generator that supplies power to the premises load in conjunction with the commercial power system, a received power detector that detects received power received from the commercial power system,
A generated power detector that detects the generated power of the generator, an adder / subtractor that calculates a target value of the generated power from the received power and a target value of the received power, and upper and lower limits that limit the upper and lower limits of the output signal of the adder / subtractor A limiter, a reverse-transmission prevention level setting device that sets a reverse-transmission prevention level, and a comparator that outputs a reverse-transmission prevention command when the received power falls below the reverse-transmission prevention level,
A correction signal setting device for setting a correction signal for lowering a power command value when preventing reverse transmission, an adder for adding a correction signal to the target value of the generated power, and detecting the target value of the generated power and the generated power. A PI controller for amplifying a value error;
A control device for a private power generator, comprising: a rotation speed command converter for converting an output of the I controller into a rotation speed command signal to the governor.
【請求項2】 発電機と、前記発電機を駆動する原動機
と、前記原動機の回転数を制御するガバナと、前記原動
機の回転数基準値を設定する基準設定器とを備え、前記
発電機を商用電力系統と連系して構内負荷に電力を供給
する自家発電装置の制御装置において、前記商用電力系
統から受電する受電電力を検出する受電電力検出器と、
前記発電機の発電電力を検出する発電電力検出器と、受
電電力と受電電力の目標値から発電電力の目標値を演算
する加減算器と、前記加減算器の出力信号の上下限をリ
ミットする上下限リミッタと、逆送防止レベルを設定す
る逆送防止レベル設定器と、受電電力が逆送防止レベル
より下がった時に逆送防止指令を出力すると比較器と、
逆送防止時に電力指令値を下げるための補正信号を設定
する補正信号設定器と、前記発電電力の目標値と前記発
電電力の検出値の誤差を増幅するPI制御器と、前記P
I制御器の出力に前記補正信号を加算する加算器と、前
記加算器の出力信号を前記ガバナへの回転数指令信号に
換算する回転数指令換算器とから構成されていることを
特徴とする自家発電装置の制御装置。
2. A generator, a prime mover for driving the generator, a governor for controlling the rotational speed of the prime mover, and a reference setting device for setting a reference value of the rotational speed of the prime mover, the generator comprising: In the control device of the private power generator that supplies power to the premises load in conjunction with the commercial power system, a received power detector that detects received power received from the commercial power system,
A generated power detector that detects the generated power of the generator, an adder / subtractor that calculates a target value of the generated power from the received power and a target value of the received power, and upper and lower limits that limit the upper and lower limits of the output signal of the adder / subtractor A limiter, a reverse-transmission prevention level setting device that sets a reverse-transmission prevention level, and a comparator that outputs a reverse-transmission prevention command when the received power falls below the reverse-transmission prevention level,
A correction signal setting device for setting a correction signal for lowering the power command value when preventing reverse transmission, a PI controller for amplifying an error between a target value of the generated power and a detected value of the generated power,
An adder for adding the correction signal to the output of the I controller, and a rotation speed command converter for converting the output signal of the adder into a rotation speed command signal to the governor. Control device for private power generator.
【請求項3】 請求項1記載の自家発電装置の制御装置
において、第1の逆送防止レベルを設定する第1逆送防
止レベル設定器と、第2の逆送防止レベルを設定する第
2逆送防止レベル設定器と、第1逆送防止レベルと第2
逆送防止レベルを切り替えるスイッチと、受電電力の検
出値を微分する微分器と、前記微分器の出力値の正負を
判定して前記スイッチを切り替える信号を出力する比較
器とを有することを特徴とする自家発電装置の制御装
置。
3. The control device for a private power generator according to claim 1, wherein a first anti-reverse level setting device for setting a first anti-reverse level and a second for setting a second anti-reverse level. A back-feed prevention level setting device, a first back-feed prevention level and a second
A switch for switching a back-feed prevention level, a differentiator for differentiating a detected value of received power, and a comparator for outputting a signal for switching the switch by determining whether the output value of the differentiator is positive or negative. Control device of the in-house power generator.
【請求項4】 請求項2記載の自家発電装置の制御装置
において、第1の逆送防止レベルを設定する第1逆送防
止レベル設定器と、第2の逆送防止レベルを設定する第
2逆送防止レベル設定器と、第1逆送防止レベルと第2
逆送防止レベルを切り替えるスイッチと、受電電力の検
出値を微分する微分器と、前記微分器の出力値の正負を
判定して前記スイッチを切り替える信号を出力する比較
器とを有することを特徴とする自家発電装置の制御装
置。
4. The control device for a private power generator according to claim 2, wherein a first anti-reverse level setting device for setting a first anti-reverse level and a second for setting a second anti-reverse level. A back-feed prevention level setting device, a first back-feed prevention level and a second
A switch for switching a back-feed prevention level, a differentiator for differentiating a detected value of received power, and a comparator for outputting a signal for switching the switch by determining whether the output value of the differentiator is positive or negative. Control device of the in-house power generator.
【請求項5】 請求項1乃至請求項4記載の自家発電装
置の制御装置において、前記回転数指令信号の変化レー
トを制限するレート制限器を有することを特徴とする自
家発電装置の制御装置。
5. The control device for a private power generator according to claim 1, further comprising a rate limiter for limiting a change rate of the rotation speed command signal.
【請求項6】 請求項1乃至請求項5記載の自家発電装
置の制御装置において、前記制御装置構成要素の少なく
とも一部を、マイクロコンピュータのソフトウェアによ
り実現することを特徴とする自家発電装置の制御装置。
6. The control device for a private power generator according to claim 1, wherein at least a part of the control device components is realized by software of a microcomputer. apparatus.
JP10125827A 1998-05-08 1998-05-08 Control device for private power generator Expired - Fee Related JP2909733B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP10125827A JP2909733B1 (en) 1998-05-08 1998-05-08 Control device for private power generator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP10125827A JP2909733B1 (en) 1998-05-08 1998-05-08 Control device for private power generator

Publications (2)

Publication Number Publication Date
JP2909733B1 true JP2909733B1 (en) 1999-06-23
JPH11332109A JPH11332109A (en) 1999-11-30

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ID=14919933

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Application Number Title Priority Date Filing Date
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Country Link
JP (1) JP2909733B1 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4058739B2 (en) * 2004-04-12 2008-03-12 西芝電機株式会社 Generator control device
JP5300892B2 (en) * 2011-03-08 2013-09-25 中国電力株式会社 Automatic operation control device, automatic operation control method, and automatic operation control program
JP5872351B2 (en) * 2012-03-28 2016-03-01 京セラ株式会社 Energy management system, energy management method, and distributed power supply
JP5980100B2 (en) * 2012-11-15 2016-08-31 大阪瓦斯株式会社 Emergency power generation system
JP5907851B2 (en) * 2012-11-15 2016-04-26 大阪瓦斯株式会社 Emergency power generation system
JP5955200B2 (en) * 2012-11-15 2016-07-20 大阪瓦斯株式会社 Emergency power generation system
JP6372387B2 (en) * 2015-02-16 2018-08-15 住友電気工業株式会社 Storage battery system and discharge control method

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