JPS6165026A - Adjusting/controlling device of demand power - Google Patents

Abstract

PURPOSE:To suppress an increase of the purchased power by controlling the purchased power quantity in response to the power generated by a gas turbine power generating facility and the tidal power. CONSTITUTION:The fuel flow control via a fuel feed valve 3 and the high- temperature gas flow control via a governor motor 2 is performed with a power adjusting/controlling device A in a gas turbine power generating facility feeding electric power to a power transmission line 7 and a production facility 8 by driving a gas turbine generator 5. The temperature B in a combustor 4, the private power generation signal C, and the tidal signal D are fed to the control device A to control the load of the gas turbine generator 5 and the maximum contract power value. Accordingly, an increase of the purchased power can be suppressed.

Description

【発明の詳細な説明】 〔発明の技術分野〕 本発明は電力調整制御装置に係り、電力供給系統におけ
る使用電力を抑制せしめる需要電力調整制御装置に関す
るものである。DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a power adjustment control device, and more particularly to a demand power adjustment control device that suppresses power consumption in a power supply system.

〔発明の技術的背景とその問題点〕[Technical background of the invention and its problems]

需要電力制御装置を備える自家発発電設備を有し、該設
備の電力を用いて製品を生産する事業所においては、電
力は電力会社からの購入電力と自家発発電設備で発生し
た電力とでまかなっている。In business establishments that have in-house power generation equipment equipped with power demand control equipment and use the electricity from the equipment to produce products, the electricity is not covered by the electricity purchased from the electric power company and the electricity generated by the in-house power generation equipment. ing.

従来、予想電力が目標電力を超過する場合、負荷制御を
して、使用電力が目標電力を超えないようにする必要が
ある。これは電力会社からの購入電力は、電力会社と最
大電力契約値が決められており、その最大電力契約値を
超えた場合には、割増料金を支払わなければ々らないか
らである。Conventionally, when the expected power exceeds the target power, it is necessary to perform load control to prevent the power used from exceeding the target power. This is because the maximum power contract value is determined with the power company for power purchased from the power company, and if the maximum power contract value is exceeded, an additional charge must be paid.

このために、需要電力調整制御装置を用いて負荷を制御
する。負荷の制御方法としては、例えばガスタービン発
電機において、燃料ガスを燃焼器で燃５７７、させ、そ
れから発生する高温ガスをｒＪｉ　Ｍさせてガスタービ
ン発９機を運転している場合、燃焼器から発生する高温
ガスの温度、即ち、ガスタービン発電機入口温度を監視
し、ガスタービン発電機の高温ガス噴射を制御し、ガバ
ナモータ番てよりガス燃料の供給を制御する方法が用い
られている。この種の装置では、ガスタービン発電機の
負荷増加と共にガバナそ一タの開度を増にすると共に燃
焼器へのガス燃料の供給をガスタービン発電機の負荷増
加に比例して、ガス燃料供給を増加しなければならない
。For this purpose, the load is controlled using a power demand adjustment control device. As a load control method, for example, in a gas turbine generator, if the fuel gas is combusted in the combustor and the high temperature gas generated from it is operated by rJi M, then the A method is used in which the temperature of the generated high-temperature gas, that is, the gas turbine generator inlet temperature, is monitored, the high-temperature gas injection of the gas turbine generator is controlled, and the supply of gas fuel is controlled by a governor motor. In this type of device, the opening degree of the governor is increased as the load on the gas turbine generator increases, and the gas fuel is supplied to the combustor in proportion to the increase in the load on the gas turbine generator. must be increased.

しかし最大契約電力値を超える電力の場合には、自家発
発電設備の運転員の判断により負荷の投入、或いはしゃ
断が行なわれるため、事業所において、生産活動に直接
係わっている負荷は直接制御できず、専ら空調器等の生
産に直接関与しなり負荷の制御ができるだけである。強
いて生産活動忙係わっている負荷をオンオフ制御すると
、使用電力を目標電力内に収める代わりに生産性を低下
させてしまう。However, if the power exceeds the maximum contract power value, the load is turned on or off at the discretion of the operator of the in-house power generation equipment, so the load directly involved in production activities cannot be directly controlled at the business site. However, they are directly involved in the production of air conditioners, etc., and can only control the load. If you are forced to turn on and off a load that is involved in production activities, you will end up lowering productivity instead of keeping the power consumption within the target power.

これを図に従って説明する。第３図は従来の需ｔＸ力調
整制御のブロック図である。ガス燃料１は、ガバナモー
タ２の開度を運転員が確認して、燃料供給弁３を制御し
て、ガス燃料１を燃焼器４へ供給する。例えば、ガバナ
モータ２の開度増によりガスタービン発ａ！ｌＳの発生
電力を増大すると共に、燃料供給弁３を全開方向に操作
してガス燃料１を燃焼器４に供給し、該燃焼器４から発
生される高温ガスは高温ガス配管６を通って、ガスター
ビン発電機５に高温ガスを噴射して、発生電力を増加し
、該発生電力を送電源７、又は事業所製造設備８へ電力
を供給する。This will be explained according to the diagram. FIG. 3 is a block diagram of conventional demand tX force adjustment control. The gas fuel 1 is supplied to the combustor 4 by an operator checking the opening degree of the governor motor 2 and controlling the fuel supply valve 3 . For example, an increase in the opening of the governor motor 2 causes the gas turbine to emit a! While increasing the power generated by the IC, the fuel supply valve 3 is operated in the fully open direction to supply the gas fuel 1 to the combustor 4, and the high temperature gas generated from the combustor 4 passes through the high temperature gas pipe 6. High-temperature gas is injected into the gas turbine generator 5 to increase the generated power, and the generated power is supplied to the power transmission source 7 or the manufacturing equipment 8 at the office.

又、ガス燃料１を負荷の増加と共に供給量を申すと、燃
焼器４が高温になり燃焼器４の出口の高温ガス配管６に
ガスタービン入口温度検出装置９を設けて、運転員は制
御室のガスタービン入口温度計１０にて温度監視を行な
い、燃料供給弁３の制御を行なっている。このよ５Ｋ。In addition, when the supply amount of gas fuel 1 increases as the load increases, the combustor 4 becomes high temperature, and a gas turbine inlet temperature detection device 9 is installed in the high temperature gas pipe 6 at the outlet of the combustor 4, and the operator The gas turbine inlet thermometer 10 monitors the temperature and controls the fuel supply valve 3. This is 5K.

運転員が手動にて操作する装置がガバナモータ２、燃料
供給弁３、及びガスタービン発電機入口温度計１０とあ
り、ガバナモータ２を増方向にυ］御してガスタービン
発電機５の発生電力を増加させ乙ように操作すると、燃
焼器４が高温になり、ガスタービン発電機入口温度計１
０を見て一１次は燃料供給弁３を操作することにより常
にガスタービン発電１幾の負荷と電力会社の最大電力契
約値を計算しながら、運転員は操作している。The devices manually operated by the operator include a governor motor 2, a fuel supply valve 3, and a gas turbine generator inlet thermometer 10. The governor motor 2 is controlled in the increasing direction υ to increase the power generated by the gas turbine generator 5. If you increase the temperature and operate as above, the combustor 4 will become hot and the gas turbine generator inlet thermometer 1 will rise.
0, the operator operates the fuel supply valve 3 while constantly calculating the load of the gas turbine power generation unit 1 and the maximum power contract value of the power company.

、しかし、数多くの監視制御装置のある発電プラントシ
ステムでは、必ずしも運転員は電力調整制御にのみ注目
して運転することが不可能な場合があり、目標電力を超
過し、電力会社からの購入電力の最大電力契約値を超え
、割増料金を支払い、かつ事業所における所内負荷をし
中断し、生産性を低下させてしまう。However, in a power generation plant system with a large number of monitoring and control devices, it is not always possible for operators to focus only on power adjustment control, and the target power may be exceeded and the amount of power purchased from the power company may be reduced. Exceeding the maximum power contract value, paying extra charges, and interrupting the plant's internal load, reducing productivity.

〔発明の目的〕[Purpose of the invention]

本発明は所内負荷と事業所の生産性をも低下せしめるこ
となく、使用電力を目標電力内におさめるために、燃料
供給弁の開度条件、ガスタービン発電機入口１度条件、
ガバナモータの開度条件、ガスタービン発電機の発生電
力、送電線の潮流条件を検出することＫより、核条件を
制御装置に入力し、Ｍｌ！電力ｖ４整制御を背をうちの
である。In order to keep the power consumption within the target power without reducing the internal load and the productivity of the office, the present invention has set the opening degree condition of the fuel supply valve, the gas turbine generator inlet 1 degree condition,
By detecting the opening condition of the governor motor, the generated power of the gas turbine generator, and the power flow condition of the power transmission line, the core condition is input to the control device, and Ml! Power V4 control is in our house.

〔゛発明の概要〕[Summary of the invention]

本発明はガス燃料を供給する燃料供給弁と、該燃料供給
弁の開閉の度合により燃焼器で高温ガスを生成し、ガス
タービン入口温度検出装置により高温ガス温度を監視し
ガバナモータの開閉の度合により該高温ガスをガスター
ビン発電機に噴射し、電力を発生する発電設備から構成
され、この発生電力と潮流電力と燃料供給弁開度トガス
タービン発電機入口温度とガバナモータ開度の条件によ
り、購入電力量と燃料供給制御を行なう制御装置を有し
、需要電力制御を行なりことを特徴とする。The present invention includes a fuel supply valve that supplies gas fuel, generates high-temperature gas in a combustor depending on the degree of opening and closing of the fuel supply valve, monitors the high-temperature gas temperature with a gas turbine inlet temperature detection device, and monitors the high-temperature gas temperature according to the degree of opening and closing of the governor motor. It consists of power generation equipment that injects the high-temperature gas into a gas turbine generator to generate electric power, and the purchase price depends on the conditions of the generated electric power, tidal power, fuel supply valve opening, gas turbine generator inlet temperature, and governor motor opening. It is characterized in that it has a control device that controls the amount of electric power and fuel supply, and controls the power demand.

〔発明の実施例〕 以下、図面を参照して本発明の一実施例を詳細に説明す
る。第１図は本発明の需要電力１！Ｉ整制御装置を自発
発電設備に適用したブロック図である。ガス燃料１は燃
料供給弁３の開閉の度合により燃焼器４に供給する。燃
焼器４で燃焼された高温ガスはガスタービン発電機温度
検出装置９を通って、高温ガス配管６により、ガバナモ
ータ２の増減の開度によりガスタービン発電機５に高温
ガスを噴射して、ガスタービン発電機５を駆動し、送電
線７．製造設備８へ電力を供給する。該燃料供給弁３に
よるガス燃料１の流量、及びガバナモータ２による高温
ガス噴射制御を電力調整制御装置人にて制御を行なう。[Embodiment of the Invention] Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. Figure 1 shows the power demand 1 of the present invention! FIG. 2 is a block diagram in which the I-regulating control device is applied to spontaneous power generation equipment. The gas fuel 1 is supplied to the combustor 4 depending on the degree of opening and closing of the fuel supply valve 3. The high-temperature gas combusted in the combustor 4 passes through the gas turbine generator temperature detection device 9, and is injected into the gas turbine generator 5 through the high-temperature gas piping 6 depending on the opening degree of the governor motor 2. Drives the turbine generator 5 and connects the power transmission line 7. Power is supplied to the manufacturing equipment 8. The flow rate of the gas fuel 1 by the fuel supply valve 3 and the high temperature gas injection control by the governor motor 2 are controlled by a power adjustment control device.

即ち、ガスタービン発電機入口温度検出装置９の燃焼器
４内の温度信号Ｂ、ガスタービン発電機５の発生電力を
検出する電力変換器（以下Ｗ−ＴＲＤと略す）１ノを通
して自家発発電電力信号Ｃ１送電線７の潮流変換器１９
を通して潮流信号りを制御装置λに入力する。該ガスタ
ービン発電機入口温度信号Ｂ、自家発発電電力信号Ｃ，
ｆＩ４流信号りのアナログ入力信号を制御装置人に入力
し、又前記燃料供給弁３の開度信号Ｅ、ガバナモータ２
の増減開度信号Ｆをも、制御装置人に入力し、制御装置
Ａで演算制御され、燃料供給弁３の開度信号Ｇ、ガバナ
モータ開度制御信号Ｈを出力し、燃焼器４の温度制御を
行なうと共に、ガスタービン発１！機５の負荷と電力会
社との最大契約電力値の制御を行なう。That is, the self-generated power is transmitted through the temperature signal B in the combustor 4 of the gas turbine generator inlet temperature detection device 9 and the power converter (hereinafter abbreviated as W-TRD) 1 that detects the generated power of the gas turbine generator 5. Power flow converter 19 for signal C1 power transmission line 7
The power flow signal is input to the control device λ through the The gas turbine generator inlet temperature signal B, privately generated power signal C,
The analog input signal of the fI4 flow signal is input to the control device, and the opening signal E of the fuel supply valve 3 and the governor motor 2 are input.
The increase/decrease opening signal F is also input to the control device, which is arithmetic controlled by the control device A, which outputs the opening signal G of the fuel supply valve 3 and the governor motor opening control signal H, and controls the temperature of the combustor 4. At the same time, the gas turbine is fired! The load on the machine 5 and the maximum contract power value with the electric power company are controlled.

第２図は本発明の制御装置人のブロック図である。制御
装置人の信号入力部１２にガスタービン発電機入口温度
信号Ｂ　、Ｗ−ＴＲＤ信号Ｃ。FIG. 2 is a block diagram of the controller of the present invention. A gas turbine generator inlet temperature signal B and a W-TRD signal C are input to the signal input section 12 of the control device.

ガバナモータ開度信号Ｆ、燃料供給弁開度信号Ｅ、潮流
信号りのアナログ信号が入力される。Analog signals such as a governor motor opening signal F, a fuel supply valve opening signal E, and a power flow signal are input.

信号入力部１２にてＷ−ＴＲＤ信号Ｃと潮流信号りとを
比較演算する。即ち、自家発電力と電力会社との最大電
力契約値とを合計した目標電力量と潮流信号りによる電
力流入流出の電力の過不足値を比較して購入電力信号Ｐ
を購入電力判断部１３に入力する。購入電力判断部１３
では該購入電力量に応じて、ガスタービン発電機５の高
温ガス噴射制御を行なうがバナモータ増減信号Ｑをガバ
ナモータ増減判断部Ｉ４へ入力する。ガスタービン発電
機入口温度信号Ｂとガバナモータ開度信号Ｆが信号入力
部１２に入力され該信号入力部１２にて燃焼器４の器内
温度の・規定温度とガスタービン発１！機入口温度信号
Ｂと比較演算を行ない、その備差量をガバナモータ開度
信号Ｆのガバナモータ２の開度と比較を行ない、燃焼器
内の温度の上げ、下げ制御を行なうに、ガバナモータ２
の開度の余件との偏差量に応じた信号Ｒを燃料供給判断
部１５に入力する。燃料供給判断部１５では該偏差信号
Ｒにより、ガス燃料１より燃料供給弁３の開度の度合の
信号Ｓを燃料制御部１６に入力する。The signal input section 12 compares and calculates the W-TRD signal C and the current signal. In other words, the purchased power signal P is determined by comparing the target power amount, which is the sum of the privately generated power and the maximum power contract value with the electric power company, and the excess/deficiency value of the power inflow and outflow based on the power flow signal.
is input to the purchased power determining unit 13. Purchased power judgment unit 13
Then, the high temperature gas injection control of the gas turbine generator 5 is performed according to the purchased power amount, and the governor motor increase/decrease signal Q is input to the governor motor increase/decrease determination section I4. The gas turbine generator inlet temperature signal B and the governor motor opening signal F are input to the signal input section 12, and the signal input section 12 outputs the specified internal temperature of the combustor 4 and the gas turbine generator 1! A comparison operation is performed with the machine inlet temperature signal B, and the preparedness amount is compared with the opening degree of the governor motor 2 of the governor motor opening degree signal F, and the temperature in the combustor is controlled to increase or decrease.
A signal R corresponding to the amount of deviation from the opening degree is input to the fuel supply determining section 15. Based on the deviation signal R, the fuel supply determining section 15 inputs a signal S indicating the degree of opening of the fuel supply valve 3 from the gas fuel 1 to the fuel control section 16.

又燃料の供給弁開度信号Ｅが信号入力部１２に入力され
、該信号入力部１２にてガス燃料Ｉとガスタービン発電
機５の出力とを目標電力量と比較し、目標」力量より多
い場合は、燃料供給を抑制するように、又少ない場合は
、燃料供給の制御を行なう燃料供給信号Ｔを燃料供給弁
　　−関度判断部１７に出力される。ガバナモータ増減
判断部Ｉ４の出力信号Ｕと燃料制御部１６の出力信号Ｖ
と燃料供給弁開度判断部１２の出力信号Ｗは出力部１８
に入力される。出力部１８では該各々の信号Ｕ、’、Ｗ
Ｋより燃料供＃１とガバナモータの開度のインターロッ
ク制御判断を打な）。即ち、電力会社の最大契約電力値
に見合わ亡る自家発電力の電力量の制御を燃料供給の増
減とガバナモータの増減の開度により制御を行なう。Further, the fuel supply valve opening signal E is input to the signal input section 12, and the signal input section 12 compares the gas fuel I and the output of the gas turbine generator 5 with the target power amount, and determines that the amount of power is greater than the target amount of power. If so, a fuel supply signal T is outputted to the fuel supply valve-relationship determination unit 17 to suppress the fuel supply, and if it is low, to control the fuel supply. Output signal U of governor motor increase/decrease judgment section I4 and output signal V of fuel control section 16
and the output signal W of the fuel supply valve opening determination section 12 is output to the output section 18.
is input. The output section 18 outputs the respective signals U, ', W.
Enter the interlock control judgment for fuel supply #1 and governor motor opening from K). That is, the amount of electric power of the privately generated power that cannot meet the maximum contract electric power value of the electric power company is controlled by increasing or decreasing the fuel supply and the opening degree of increasing or decreasing the governor motor.

〔発明の効果〕〔Effect of the invention〕

以上、述べたように本発明によれば、自家発発電所で燃
料として使用する石炭、天然ガス石油などの化石燃料の
枯渇化が問題となっている現在、省資源対策の一環及び
効率のよい効果的な手段であり、購入電力の増加を抑え
、電力会社等への余分な出を防ぐことができ、このこと
Ｋより、事業所運用のトータルコストを低減することが
可能である。As described above, according to the present invention, as part of resource saving measures and efficient It is an effective means, and can suppress the increase in purchased power and prevent unnecessary outgoings to electric power companies, etc., and as a result, it is possible to reduce the total cost of business office operation.

【図面の簡単な説明】[Brief explanation of the drawing]

第１図は本発明の需要電力′ｆＡ整制開制御ロック図、
＠２図は本発明の制御装置のブロック図、第３図はｉモ
スの需要電力調整制御のブロック図である。 ｌ・・・ガス燃料、２・・・ガバナモータ、３・・・燃
料供給弁、４・・・ｅ焼器、５・・・ガスタービン発心
機、６・・・高温ガス配管、７・・・送電線、８・・製
造設備、９・・・ガスタービン発電機入口温度検出装置
、１０・・・ガスタービン発ｘｙ入口温度計、１１・・
電力変換器、１２・・・（ｆｉ号入力部、１３・・購入
電力判断部、１４・・・ガバナモータ増減判断部、１５
・・・燃料供給判断部、Ｉ６・・燃料制御部、１７・・
・燃料供給弁開度判断部、１８・・出力部、Ａ・・・制
御装置、Ｂ・・・ガスタービン発電機入口温度信号、Ｃ
・・・Ｗ−ＴＲＤ信号、Ｄ・・潮流信号、Ｆ・・・ガバ
ナモータ開度信号、Ｐ・・・購入電力信号、Ｑ・・・ガ
バナモータ増減信号、Ｒ・・・偏差信号、Ｓ・・・開度
の置台の信号、Ｔ・・・燃料供給信号、Ｕ、Ｖ、Ｗ・・
・出カイ８号、１９・・・潮流変換器。 （７３１７）代理人　弁理士　　則　近　憲　佑（ほか
１名） 第１図 第２図FIG. 1 is a lock diagram of the demand power 'fA regulating opening control of the present invention.
@Figure 2 is a block diagram of the control device of the present invention, and Figure 3 is a block diagram of iMOS demand power adjustment control. l... Gas fuel, 2... Governor motor, 3... Fuel supply valve, 4... E-burner, 5... Gas turbine generator, 6... High temperature gas piping, 7... Power transmission line, 8... Manufacturing equipment, 9... Gas turbine generator inlet temperature detection device, 10... Gas turbine xy inlet thermometer, 11...
Power converter, 12... (fi number input section, 13... Purchased power judgment section, 14... Governor motor increase/decrease judgment section, 15
...Fuel supply judgment section, I6...Fuel control section, 17...
・Fuel supply valve opening determination unit, 18... Output unit, A... Control device, B... Gas turbine generator inlet temperature signal, C
... W-TRD signal, D... Power flow signal, F... Governor motor opening signal, P... Purchased power signal, Q... Governor motor increase/decrease signal, R... Deviation signal, S... Opening position signal, T...Fuel supply signal, U, V, W...
・Dekai No. 8, 19...Power flow converter. (7317) Agent Patent attorney Noriyuki Chika (and 1 other person) Figure 1 Figure 2

Claims (1)

【特許請求の範囲】[Claims] 電力と蒸気とを使用して製品を製造する事業所に設けら
れ、自家発発電電力の不足分は電力会社の電力でまかな
うようガスタービン発電機で構成された自家発発電設備
において、ガス燃料を供給する燃料供給弁と、該燃料供
給弁の開閉の度合により燃焼器で高温ガスを生成し、ガ
スタービン入口温度検出装置により高温ガス温度を監視
し、ガバナモータの開閉の度合により該高温ガスをガス
タービン発電機に噴射し電力を発生する発電設備から構
成され、該発生電力と潮流電力と燃料供給弁開度とガス
タービン発電機入口温度とガバナモータ開度の条件によ
り、購入電力量と燃料供給制御を行なう制御装置を有し
、需要電力制御を行なうことを特徴とする需要電力調整
制御装置。Gas fuel is used in in-house power generation equipment consisting of gas turbine generators installed at business facilities that manufacture products using electricity and steam. High-temperature gas is generated in the combustor depending on the fuel supply valve supplied and the degree of opening/closing of the fuel supply valve, the high-temperature gas temperature is monitored by a gas turbine inlet temperature detection device, and the high-temperature gas is generated depending on the degree of opening/closing of the governor motor. Consists of power generation equipment that injects power into a turbine generator, and controls the amount of purchased power and fuel supply based on the conditions of the generated power, tidal power, fuel supply valve opening, gas turbine generator inlet temperature, and governor motor opening. What is claimed is: 1. A power demand adjustment control device comprising a control device that performs power demand control.