JPH11153003A - Turbine control device - Google Patents
Turbine control deviceInfo
- Publication number
- JPH11153003A JPH11153003A JP33648297A JP33648297A JPH11153003A JP H11153003 A JPH11153003 A JP H11153003A JP 33648297 A JP33648297 A JP 33648297A JP 33648297 A JP33648297 A JP 33648297A JP H11153003 A JPH11153003 A JP H11153003A
- Authority
- JP
- Japan
- Prior art keywords
- steam valve
- turbine
- load
- valve opening
- turbine speed
- 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.)
- Granted
Links
Landscapes
- Control Of Turbines (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、タービン制御装置
に係り、特に、蒸気発生器で発生した蒸気をタービンに
流入し、発電機により系統に電力を供給するタービン制
御装置において、系統事故、自家発電設備の所内運転移
行時等に発電機が残負荷を持つような急激な負荷変動に
対処する技術に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a turbine control device, and more particularly, to a turbine control device in which steam generated by a steam generator flows into a turbine and power is supplied to the system by a generator. The present invention relates to a technique for coping with a sudden load change such as when a generator has a residual load at the time of in-plant operation transition of a power generation facility.
【0002】[0002]
【従来の技術】従来、タービン制御装置として、負荷遮
断等の負荷急減時、タービンが過速するのを防止するた
め、蒸気弁を急閉する機能を有し、系統負荷、所内動力
が残るような系統事故、所内運転移行時は蒸気弁の急閉
により、タービンの過速を防止するが、同時に、蒸気弁
急閉後、残負荷によりタービン速度が急激に減速するこ
とが知られており、これを防止するため、蒸気弁急閉時
間を無用に長くすることのないように、一定時間で制限
し、早期に蒸気弁を再開させる技術が知られている。ま
た、タービン速度を整定させる段階で、負荷設定器を用
いて系統負荷に応じてタービンに入るエネルギーを自動
的に調整することが行われるが、この負荷設定器を急速
に操作すると、タービン速度が急変するので、これを防
止するために、負荷設定値を徐々に増加して出力するこ
とが知られている(特開平4−262003号公報)。2. Description of the Related Art Conventionally, a turbine control device has a function of rapidly closing a steam valve in order to prevent the turbine from over-speeding when the load suddenly decreases, such as when the load is cut off, so that the system load and power in the station remain. It is known that the turbine speed is rapidly reduced by the sudden closing of the steam valve at the time of a system accident or in-house operation transition, but at the same time, the turbine speed is rapidly reduced by the residual load after the steam valve is quickly closed. In order to prevent this, there is known a technique in which the steam valve is closed for a certain period of time so that the steam valve is not closed unnecessarily long, and the steam valve is restarted early. At the stage of setting the turbine speed, the load setting device is used to automatically adjust the energy entering the turbine according to the system load.However, when this load setting device is operated rapidly, the turbine speed is reduced. It is known that, in order to prevent such a sudden change, the load set value is gradually increased and output (JP-A-4-262003).
【0003】[0003]
【発明が解決しようとする問題点】上記の状況におい
て、系統の残負荷や自家発電設備の所内動力が小さい場
合は、蒸気弁開動作後ある負荷設定値に徐々に変化させ
ることにより、タービン速度を定格速度へ安定に移行で
きる。しかし、系統の残負荷が大きい場合、残負荷と蒸
気弁急閉により、タービン速度は急速に落ちるため、前
述のように負荷設定値を徐々に変化させていたのでは、
タービン速度を上昇させることができない。このため、
低周波運転を招くことがあり、また、低下が著しい場合
は非常停止させてしまうこともある。低周波運転を避け
るため、蒸気弁を急開することが求められているが、タ
ービン速度の低下を防ぐことはできても、その後、ター
ビンの再過速を招くことが予測され、単に急開するだけ
では問題を解決できない。このように、従来の技術は、
残負荷が単に一定でない場合、特に、残負荷が大きい場
合に対して、配慮がなされていなかった。In the above situation, when the remaining load of the system or the power inside the private power generation facility is small, the turbine speed is gradually changed to a certain load set value after the operation of opening the steam valve. Can be shifted to the rated speed stably. However, when the residual load of the system is large, the turbine speed drops rapidly due to the residual load and sudden closing of the steam valve, so if the load set value was gradually changed as described above,
Inability to increase turbine speed. For this reason,
In some cases, low-frequency operation may be caused, and when the decrease is remarkable, an emergency stop may be performed. It is required to open the steam valve rapidly to avoid low-frequency operation.However, even if it is possible to prevent the turbine speed from decreasing, it is predicted that the turbine will re-overspeed afterwards, Doing it alone does not solve the problem. Thus, the conventional technology is
No consideration has been given to the case where the remaining load is simply not constant, particularly when the remaining load is large.
【0004】本発明の課題は、系統事故、自家発電設備
の所内運転移行時等に発電機が残負荷を持つような急激
な負荷変動に対して、発生する残負荷の大小に拘らず、
負荷喪失時のタービン過速を防止すると共に、早期にタ
ービンを定格速度に導き、タービン速度を安定化するこ
とにある。SUMMARY OF THE INVENTION An object of the present invention is to respond to a sudden load change such as when a generator has a residual load in the event of a system accident, a shift of private power generation equipment in a plant, or the like, regardless of the magnitude of the residual load generated.
An object of the present invention is to prevent turbine overspeed when a load is lost, and to guide the turbine to a rated speed early to stabilize the turbine speed.
【0005】[0005]
【問題点を解決するための手段】上記課題は、蒸気発生
器で発生した蒸気を蒸気弁を介してタービンに流入さ
せ、タービン速度を前記蒸気弁の開度により制御する手
段と、負荷遮断等の負荷急減によるタービン過速防止の
ための蒸気弁急閉手段を有するタービン制御装置におい
て、蒸気弁急閉時、タービン速度成分を検出し、タービ
ン速度変化率を演算する手段と、タービン速度変化率を
監視し、ある値の時蒸気弁開度許容変化制限指令を伝達
する手段と、蒸気弁開度許容変化制限指令により蒸気弁
開度レートを調整する手段を具備することによって、解
決される。ここで、蒸気弁開度許容変化制限指令を伝達
する手段は、蒸気弁急閉の一定時間後、蒸気弁が急開さ
れ、タービン速度変化率の値がある値に達した時、蒸気
弁開度レートを変更する。SUMMARY OF THE INVENTION The object of the present invention is to provide a means for flowing steam generated by a steam generator into a turbine through a steam valve and controlling the turbine speed by the opening of the steam valve, load shedding, and the like. A turbine control device having a steam valve rapid closing means for preventing turbine overspeed due to a sudden decrease in load, a means for detecting a turbine speed component and calculating a turbine speed change rate when the steam valve is rapidly closed; And a means for transmitting a steam valve opening allowable change restriction command at a certain value and a means for adjusting the steam valve opening rate according to the steam valve opening allowable change restriction command. Here, the means for transmitting the steam valve opening degree allowable change restriction command is such that the steam valve is suddenly opened after a certain time after the steam valve suddenly closes, and when the value of the turbine speed change rate reaches a certain value, the steam valve is opened. Change the degree rate.
【0006】本発明は、蒸気弁急閉の一定時間後、ター
ビン速度早期回復のために蒸気弁を急開する。この時の
タービン速度変化率を監視することによって前記速度変
化率のある値で蒸気弁開度レートを変更する。この蒸気
弁開度レートの変更によりタービン速度の再過速を防止
することができ、さらに、残負荷のある系統において
も、その大小に拘らず、早期にタービン速度を定格値に
導くことができる。According to the present invention, after a certain period of time after the steam valve is rapidly closed, the steam valve is rapidly opened for early recovery of the turbine speed. By monitoring the turbine speed change rate at this time, the steam valve opening rate is changed at a certain value of the speed change rate. This change in the steam valve opening rate can prevent re-speeding of the turbine speed, and even in a system with a residual load, the turbine speed can be quickly brought to the rated value regardless of its magnitude. .
【0007】[0007]
【発明の実施の形態】以下、本発明の実施形態を図面を
用いて説明する、図1は、本発明の一実施形態によるタ
ービン制御装置を示す。本実施形態は、目標速度設定器
1、減算器2、速度調定率3、加算器4、負荷制限器
5、低値選択回路6、関数発生回路7、減算器8、信号
増幅器9、サーボ弁10、減算器11、PLU検出器1
2、負荷設定変更回路13、負荷設定器14、速度変化
率検出器15、蒸気弁開度許容変化制限指令発生器1
6、蒸気弁開方向速度設定器17、開方向変化率リミッ
タ18からなる。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a turbine control device according to an embodiment of the present invention. In the present embodiment, a target speed setter 1, a subtractor 2, a speed adjustment rate 3, an adder 4, a load limiter 5, a low value selection circuit 6, a function generation circuit 7, a subtractor 8, a signal amplifier 9, a servo valve 10, subtractor 11, PLU detector 1
2. Load setting change circuit 13, load setter 14, speed change rate detector 15, steam valve opening allowable change limit command generator 1
6. A steam valve opening direction speed setter 17 and an opening direction change rate limiter 18 are provided.
【0008】本実施形態において、蒸気タービン(図示
せず)の負荷・速度制御は、目標速度設定器1により設
定された定格タービン速度とタービン速度信号Aとの偏
差を減算器2によって求め、この偏差信号に速度調定率
3のゲインを乗算し、加算器4によって負荷設定器14
の値を加算することにより、蒸気流量指令信号Dとして
低値選択回路6に入力される。低値選択回路6におい
て、ある値以上に負荷が掛からないように蒸気弁の開度
を制限する負荷制限器5の信号と、蒸気流量指令信号D
とが比較され、選択された低値信号が関数発生回路7に
入力され、蒸気弁開度指令信号Eに変換される。蒸気弁
開度指令信号Eは、通常運転時の安定性確保のために設
けられた開方向変化率リミッタ18により制限を受けた
後、実蒸気弁開度信号Fと減算器8による偏差信号とな
り、信号増幅器9により増幅された信号がサーボ弁10
に伝達される。In the present embodiment, load / speed control of a steam turbine (not shown) is performed by a subtractor 2 which obtains a deviation between a rated turbine speed set by a target speed setter 1 and a turbine speed signal A. The deviation signal is multiplied by the gain of the speed setting rate 3, and the load setting unit 14 is added by the adder 4.
Is added to the low value selection circuit 6 as the steam flow rate command signal D. In the low value selection circuit 6, a signal of the load limiter 5 for limiting the opening of the steam valve so that a load is not applied beyond a certain value, and a steam flow rate command signal D
Are compared, and the selected low value signal is input to the function generation circuit 7 and converted into the steam valve opening command signal E. The steam valve opening command signal E becomes a deviation signal by the actual steam valve opening signal F and the subtractor 8 after being restricted by the opening direction change rate limiter 18 provided for ensuring stability during normal operation. The signal amplified by the signal amplifier 9 is
Is transmitted to
【0009】本実施形態では、タービン発電機(図示せ
ず)が残負荷を持つような急激な負荷喪失する例とし
て、定格負荷運転中、図3、図4の時刻T0において系
統事故が起き、タービン発電機の負荷の一部を喪失する
いわゆる部分負荷遮断が発生した場合について説明す
る。ここで、図3は、PLU動作信号(G)、部分負荷
遮断信号(K)、タービン速度変化率比較器出力及び蒸
気弁開度許容変化制限指令(J)に関するタイムチャー
ト、図4は、蒸気弁一時急閉後におけるタービン速度特
性、タービン速度変化率特性及び蒸気弁開閉特性に関す
るタイムチャートを示す。時刻T0において、部分負荷
遮断が発生すると、タービン出力と系統負荷が不平衡状
態になる。この不平衡状態は、図1において、タービン
出力を表す蒸気圧力信号Bと系統負荷を表す発電機電流
Cの偏差信号により、PLU(パワー ロード アンバ
ランス リレー)検出器12で偏差大として検出され
る。負荷急減によるタービン過速を防止するため、PL
U検出器12から出力されたPLU動作信号Gは、蒸気
弁急閉指令信号Hとして伝達され、図3に示すPLU動
作信号GのONと同時に、蒸気弁(図示せず)を急閉す
る指令となり、図4に示す時刻T0において蒸気弁開度
(%)が急減し、蒸気弁は急閉する。また、PLU動作
信号Gは、負荷設定器14の負荷設定値を変更する負荷
設定変更回路13に入力され、負荷設定器14の負荷設
定値を所内負荷相当に変更する指令を与える。ここで、
タービン発電機が比較的大きな残負荷を持っている場
合、タービン速度(rpm)の変化は、図4に示すよう
に、時刻T0の蒸気弁急閉動作による蒸気流量の減少及
び系統の残負荷によって、上昇から一転下降をはじめ
る。これにより、タービンの過速は抑えられるものの、
残負荷の影響でタービン速度は急速に低下するため、タ
ービンが低周波運転となり、低下が著しい場合は非常停
止となる場合が考えられる。In this embodiment, as an example of a sudden loss of load such that a turbine generator (not shown) has a residual load, during rated load operation, a system accident occurs at time T0 in FIGS. A case where a so-called partial load rejection in which a part of the load of the turbine generator is lost will be described. Here, FIG. 3 is a time chart regarding the PLU operation signal (G), the partial load cutoff signal (K), the output of the turbine speed change rate comparator, and the steam valve opening allowable change limit command (J), and FIG. 4 is a time chart showing a turbine speed characteristic, a turbine speed change rate characteristic, and a steam valve opening / closing characteristic after the valve is temporarily closed. At time T0, when partial load interruption occurs, the turbine output and the system load become unbalanced. This unbalanced state is detected as a large deviation by a PLU (power load unbalanced relay) detector 12 in FIG. 1 by a deviation signal between a steam pressure signal B representing a turbine output and a generator current C representing a system load. . In order to prevent turbine overspeed due to sudden load decrease, PL
The PLU operation signal G output from the U detector 12 is transmitted as a steam valve rapid closing command signal H. At the same time when the PLU operation signal G shown in FIG. At time T0 shown in FIG. 4, the steam valve opening (%) sharply decreases, and the steam valve closes rapidly. The PLU operation signal G is input to a load setting change circuit 13 for changing the load set value of the load setter 14, and gives a command to change the load set value of the load setter 14 to an in-house load. here,
When the turbine generator has a relatively large residual load, the change in the turbine speed (rpm) is caused by the decrease in the steam flow rate due to the rapid closing operation of the steam valve at time T0 and the residual load in the system as shown in FIG. , Begins a descent from rising. As a result, although the overspeed of the turbine is suppressed,
Since the turbine speed rapidly decreases due to the effect of the residual load, the turbine may be operated at a low frequency, and if the turbine speed decreases significantly, an emergency stop may be performed.
【0010】本実施形態は、残負荷とタービンへの入力
エネルギーの差が前述したタービン速度低下の変化率に
現れることを利用したものであり、以下のように動作す
る。タービン速度低下中、蒸気弁開速度変更のタイミン
グを計る図1の蒸気弁開度許容変化制限指令発生器16
において、先に入力されていたPLU動作信号Gと、負
荷の一部を喪失したことを知らせる部分負荷遮断信号K
の入力(図3)により、図2(蒸気弁開度許容変化制限
指令発生器16の内部回路図)のAND回路21が作動
する。AND回路21の作動により、フリップフロップ
回路(以下、FFと呼ぶ。)20がSetされ、蒸気弁
開度許容変化制限指令信号(Set指令)Jが図3の制
限値”小”から制限値”大”に変化し、図1の蒸気弁開
速度変更の設定をする蒸気弁開方向設定器17に伝達さ
れ、蒸気弁開度指令Eの開方向動作速度を制限する開方
向変化率リミッタ18に通常の制限より大きい開方向制
限値を与える。ここで、図3の時刻T1において、PL
U動作信号Gが解除されると、蒸気弁の開動作が可能に
なるが、開方向変化率リミッタ18に入力される蒸気弁
開度指令信号Eは通常より早い速度で開方向に動作する
ため、図4の蒸気弁開度(%)に示す実線のように、蒸
気弁を急速に開し、タービン速度が著しく低速するのを
防止する。ここで、図4において、蒸気弁の開速度小の
開度レートを設定した場合は、二点鎖線で示すような蒸
気弁開速度となり、タービン速度(rpm)は二点鎖線
で示す低周波運転速度となり、一方、開速度大の開度レ
ートを設定し、一定のままであれば、タービンは破線の
ように再過速し、場合によってはトリップに至る可能性
もある。そこで、タービンの再過速を回避するため、タ
ービンの速度変化率を検出する速度変化率検出器15に
おいて、タービン速度Aからタービン速度変化率を測定
し、タービン速度変化率信号Iを出力する。タービン速
度変化率信号Iは、タービン速度の微分値であり、図4
のようにタービン速度の変化率に応じて変化する。この
タービン速度変化率信号Iは、図2の速度変化率比較器
24において速度変化率設定器23により蒸気弁開度レ
ート変更のタイミングを設定した値”タービン速度変化
率=0”と同値であるか比較、監視し、タービン速度変
化率=0の時刻T2において、図2の速度変化率比較器
24はタービン速度変化率信号I=0になったことを受
け、図3のAND回路22に”1”を出力する。ここで
先に入力されていたFF回路20のSet信号とPLU
動作NOT信号によりAND回路22が作動し、FF2
0はResetされ、蒸気弁開方向速度設定器17に蒸
気弁開度許容変化制限指令信号(Rset信号)を伝達
する。蒸気弁開方向速度設定器17はReset信号を
受け、蒸気弁開度レートを変更する指令信号を開方向変
化率リミッタ18に与え、蒸気弁開度レートを下げる。
この動作により、必要以上の蒸気をタービンに供給する
ことを抑制し、タービン速度の再過速を防止する。その
結果、図4のタービン速度特性(実線)に示すように、
早期にタービン定格速度の回復を図ることができる。The present embodiment utilizes the fact that the difference between the residual load and the input energy to the turbine appears in the above-described rate of change in turbine speed reduction, and operates as follows. The steam valve opening allowable change limit command generator 16 shown in FIG. 1 for timing the steam valve opening speed change while the turbine speed is decreasing.
, The PLU operation signal G previously input and the partial load cutoff signal K indicating that part of the load has been lost.
(FIG. 3) operates the AND circuit 21 of FIG. 2 (an internal circuit diagram of the steam valve opening allowable change restriction command generator 16). By the operation of the AND circuit 21, the flip-flop circuit (hereinafter, referred to as FF) 20 is set, and the steam valve opening allowable change limit command signal (Set command) J is changed from the limit value “small” to the limit value “small” in FIG. It is transmitted to a steam valve opening direction setting device 17 for setting the steam valve opening speed change shown in FIG. 1 and the opening direction change rate limiter 18 for limiting the opening direction operation speed of the steam valve opening command E. An opening direction limit value larger than the normal limit is given. Here, at time T1 in FIG.
When the U operation signal G is released, the steam valve can be opened. However, the steam valve opening command signal E input to the opening direction change rate limiter 18 operates in the opening direction at a speed faster than usual. 4, the steam valve is rapidly opened to prevent the turbine speed from being significantly reduced. Here, in FIG. 4, when a small opening rate of the steam valve is set, the opening speed of the steam valve is as shown by the two-dot chain line, and the turbine speed (rpm) is the low frequency operation shown by the two-dot chain line. If the opening rate is set high and the opening rate is kept constant, the turbine may re-overspeed as indicated by the broken line, possibly leading to a trip. Then, in order to avoid the re-speeding of the turbine, the speed change rate detector 15 which detects the speed change rate of the turbine measures the turbine speed change rate from the turbine speed A and outputs a turbine speed change rate signal I. The turbine speed change rate signal I is a differential value of the turbine speed.
As shown in FIG. The turbine speed change rate signal I has the same value as the value "turbine speed change rate = 0" in the speed change rate comparator 24 in FIG. At the time T2 when the turbine speed change rate = 0, the speed change rate comparator 24 in FIG. 2 receives the fact that the turbine speed change rate signal I = 0, and the AND circuit 22 in FIG. 1 "is output. Here, the previously input Set signal of the FF circuit 20 and the PLU
The AND circuit 22 operates in response to the operation NOT signal, and the FF2
0 is reset, and a steam valve opening degree allowable change restriction command signal (Rset signal) is transmitted to the steam valve opening direction speed setting device 17. The steam valve opening direction speed setter 17 receives the Reset signal, gives a command signal for changing the steam valve opening rate to the opening direction change rate limiter 18, and lowers the steam valve opening rate.
This operation suppresses supply of excessive steam to the turbine, and prevents re-speeding of the turbine speed. As a result, as shown in the turbine speed characteristic (solid line) in FIG.
The turbine rated speed can be recovered at an early stage.
【0011】なお、本実施形態では、タービン速度変化
率を測定するために、タービン速度Aを適用している
が、本来、タービンの速度成分が含まれる信号であれ
ば、その変化率を測定することが可能であるため、例え
ば図1の減算器2において出力された偏差信号、また
は、速度調停率3において出力された信号でもよい。ま
た、本実施形態では、タービン速度が上昇に転じる点
(タービン速度変化率=0)で変化率制限値を切り替え
ているが、速度変化率に対して変化率制限値を予め設定
しておいてもよい。In this embodiment, the turbine speed A is applied to measure the turbine speed change rate. However, if the signal contains a turbine speed component, the change rate is measured. For example, a deviation signal output from the subtractor 2 in FIG. 1 or a signal output at the speed arbitration rate 3 may be used. Further, in the present embodiment, the change rate limit value is switched at a point where the turbine speed starts to increase (turbine speed change rate = 0), but the change rate limit value is set in advance for the speed change rate. Is also good.
【0012】[0012]
【発明の効果】以上説明したように、本発明によれば、
系統事故、自家発電設備の所内運転移行時等に発電機が
残負荷を持つような急激な負荷変動に対して、発生する
残負荷の大小に拘らず、タービン速度変化率によって蒸
気弁開度レートの変更を行うことにより、安定なタービ
ン速度、負荷制御を行うことができる。また、負荷急減
によるタービン過速防止のため、蒸気弁を急閉動作した
一定時間後、蒸気弁を急速に開動作させることにより、
タービン低周波運転を防止すると共に、蒸気弁開度レー
トの変更により、タービンの再過速を防止し、早期にタ
ービンを定格速度に回復することができ、さらに、残負
荷のある系統においても、その大小に拘らず、早期にタ
ービン速度を定格値に導くことができる。As described above, according to the present invention,
In the event of a sudden load change such as when the generator has a residual load in the event of a system accident or in-house operation of private power generation equipment, the steam valve opening rate is determined by the turbine speed change rate regardless of the magnitude of the residual load that occurs. , Stable turbine speed and load control can be performed. Also, in order to prevent turbine overspeed due to a sudden decrease in load, the steam valve is quickly opened after a certain period of time after the steam valve is suddenly closed,
In addition to preventing turbine low frequency operation, by changing the steam valve opening rate, it is possible to prevent turbine re-speeding, recover the turbine to the rated speed early, and, even in systems with residual load, Regardless of the magnitude, the turbine speed can be quickly brought to the rated value.
【図1】本発明の一実施形態によるタービン制御装置FIG. 1 is a turbine control device according to an embodiment of the present invention.
【図2】本発明における蒸気弁開度許容変化制限指令発
生器の詳細図FIG. 2 is a detailed view of a steam valve opening allowable change limit command generator according to the present invention.
【図3】本発明におけるPLU動作信号(G)、部分負
荷遮断信号(K)、タービン速度変化率比較器出力及び
蒸気弁開度許容変化制限指令(J)に関するタイムチャ
ートFIG. 3 is a time chart for a PLU operation signal (G), a partial load cutoff signal (K), a turbine speed change rate comparator output, and a steam valve opening allowable change restriction command (J) in the present invention.
【図4】蒸気弁一時急閉後におけるタービン速度特性、
タービン速度変化率特性及び蒸気弁開閉特性に関するタ
イムチャートFIG. 4 shows a turbine speed characteristic after the steam valve is temporarily closed,
Time chart on turbine speed change rate characteristics and steam valve opening / closing characteristics
15…速度変化率検出器、16…蒸気弁開度許容変化制
限指令発生器、17…蒸気弁開方向速度設定器、18…
開方向変化率リミッタ、20…フリップフロップ、23
…速度変化率設定器、24…速度変化率比較器 H…蒸気弁急閉指令信号、I…タービン速度変化率信
号、J…蒸気弁開度許容変化制限指令信号、K…部分負
荷遮断信号15: Speed change rate detector, 16: Steam valve opening allowable change limit command generator, 17: Steam valve opening direction speed setting device, 18:
Opening direction change rate limiter, 20 ... flip-flop, 23
... Speed change rate setting device, 24 ... Speed change rate comparator H ... Steam valve rapid closing command signal, I ... Turbine speed change rate signal, J ... Steam valve opening allowable change limit command signal, K ... Partial load cutoff signal
Claims (2)
してタービンに流入させ、タービン速度を前記蒸気弁の
開度により制御する手段と、負荷遮断等の負荷急減によ
るタービン過速防止のための蒸気弁急閉手段を有するタ
ービン制御装置において、前記蒸気弁急閉時、タービン
速度成分を検出し、タービン速度変化率を演算する手段
と、前記タービン速度変化率を監視し、ある値の時蒸気
弁開度許容変化制限指令を伝達する手段と、前記蒸気弁
開度許容変化制限指令により蒸気弁開度レートを調整す
る手段を具備することを特徴とするタービン制御装置。1. A means for causing steam generated by a steam generator to flow into a turbine via a steam valve and controlling a turbine speed by an opening degree of the steam valve, and a means for preventing turbine overspeed due to a sudden decrease in load such as load shedding. A turbine control device having a steam valve quick closing means for detecting a turbine speed component at the time of the steam valve quick closing, calculating a turbine speed change rate, and monitoring the turbine speed change rate. A turbine control device comprising: means for transmitting an hourly steam valve opening allowable change restriction command; and means for adjusting a steam valve opening rate by the steam valve opening allowable change restriction command.
制限指令を伝達する手段は、蒸気弁急閉の一定時間後、
蒸気弁が急開され、前記速度変化率の値がある値に達し
た時、蒸気弁開度レートを変更することを特徴とするタ
ービン制御装置。2. The method according to claim 1, wherein the means for transmitting the steam valve opening allowable change restriction command comprises:
A turbine control device, wherein when the steam valve is rapidly opened and the value of the speed change rate reaches a certain value, the steam valve opening degree is changed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP33648297A JP3404480B2 (en) | 1997-11-20 | 1997-11-20 | Turbine control device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP33648297A JP3404480B2 (en) | 1997-11-20 | 1997-11-20 | Turbine control device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH11153003A true JPH11153003A (en) | 1999-06-08 |
JP3404480B2 JP3404480B2 (en) | 2003-05-06 |
Family
ID=18299597
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---|---|---|---|
JP33648297A Expired - Fee Related JP3404480B2 (en) | 1997-11-20 | 1997-11-20 | Turbine control device |
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JP (1) | JP3404480B2 (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100326523B1 (en) * | 1999-08-27 | 2002-03-02 | 윤영석 | Device and method for sensing overspeed prime mover |
JP2008002337A (en) * | 2006-06-22 | 2008-01-10 | Toshiba Corp | Steam turbine control device and steam turbine control method |
KR101134139B1 (en) | 2009-08-05 | 2012-04-09 | 한국전력공사 | Method and driver monitoring system for continuing operation of turbine generator on loss of speed pick unit |
EP1492222A3 (en) * | 2003-06-27 | 2016-03-16 | Alstom Technology Ltd | A method and apparatus for detecting the decoupling of the load between an electric energy generating rotary machine and a supply network coupled to the rotary machine to supply current |
CN112431643A (en) * | 2020-11-11 | 2021-03-02 | 贵州电网有限责任公司 | Method for rapidly stabilizing load shedding self-brought service power rotating speed of expansion generator set |
-
1997
- 1997-11-20 JP JP33648297A patent/JP3404480B2/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100326523B1 (en) * | 1999-08-27 | 2002-03-02 | 윤영석 | Device and method for sensing overspeed prime mover |
EP1492222A3 (en) * | 2003-06-27 | 2016-03-16 | Alstom Technology Ltd | A method and apparatus for detecting the decoupling of the load between an electric energy generating rotary machine and a supply network coupled to the rotary machine to supply current |
JP2008002337A (en) * | 2006-06-22 | 2008-01-10 | Toshiba Corp | Steam turbine control device and steam turbine control method |
JP4734184B2 (en) * | 2006-06-22 | 2011-07-27 | 株式会社東芝 | Steam turbine control device and steam turbine control method |
KR101134139B1 (en) | 2009-08-05 | 2012-04-09 | 한국전력공사 | Method and driver monitoring system for continuing operation of turbine generator on loss of speed pick unit |
CN112431643A (en) * | 2020-11-11 | 2021-03-02 | 贵州电网有限责任公司 | Method for rapidly stabilizing load shedding self-brought service power rotating speed of expansion generator set |
Also Published As
Publication number | Publication date |
---|---|
JP3404480B2 (en) | 2003-05-06 |
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