Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP4959289B2 - Coal bunker automatic chopping operation method and system in thermal power generation system - Google Patents
[go: Go Back, main page]

JP4959289B2 - Coal bunker automatic chopping operation method and system in thermal power generation system - Google Patents

Coal bunker automatic chopping operation method and system in thermal power generation system Download PDF

Info

Publication number
JP4959289B2
JP4959289B2 JP2006294624A JP2006294624A JP4959289B2 JP 4959289 B2 JP4959289 B2 JP 4959289B2 JP 2006294624 A JP2006294624 A JP 2006294624A JP 2006294624 A JP2006294624 A JP 2006294624A JP 4959289 B2 JP4959289 B2 JP 4959289B2
Authority
JP
Japan
Prior art keywords
coal
bunker
power generation
thermal power
amount
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.)
Active
Application number
JP2006294624A
Other languages
Japanese (ja)
Other versions
JP2008111586A (en
Inventor
義昭 田中
智之 松前
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.)
Chugoku Electric Power Co Inc
Original Assignee
Chugoku Electric Power Co Inc
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Chugoku Electric Power Co Inc filed Critical Chugoku Electric Power Co Inc
Priority to JP2006294624A priority Critical patent/JP4959289B2/en
Publication of JP2008111586A publication Critical patent/JP2008111586A/en
Application granted granted Critical
Publication of JP4959289B2 publication Critical patent/JP4959289B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Feeding And Controlling Fuel (AREA)
  • Disintegrating Or Milling (AREA)

Description

本発明は、火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムに関する。   The present invention relates to a method and system for automatically cutting a coal bunker in a thermal power generation system.

石炭火力発電所においては、悪天候や落雷時等の気象状況や電力消費状況等に対応して随時に又はプラントの点検の際に運転を停止する必要がある。その際、石炭バンカ内に石炭を長期間保管すると石炭が自然発火する恐れがあるため、プラントを長期間停止する場合には石炭バンカ内の石炭を焚き切ってから停止する方が安全である。
また、焚き切りはプラント運転中に行うため、単に焚き切るバンカへの送炭を停止するだけでなく、対象バンカからボイラへの給炭量を調整しなければ、焚き切った直後のプラント全燃料量の変化が大きくなり、プラント全体で異常状態が発生する恐れがある。そのため、対象給炭機の給炭量をバンカレベルに応じて最低給炭量まで減少させ、他のミル又は他の燃料設備に燃料制御のウェートをかけることにより、焚き切りによるプラントへの影響を最小限にする必要がある。
In a coal-fired power plant, it is necessary to stop operation at any time or inspecting a plant in response to weather conditions such as bad weather or lightning strikes, and power consumption conditions. At that time, if coal is stored in the coal bunker for a long time, the coal may spontaneously ignite. Therefore, when the plant is stopped for a long time, it is safer to stop the coal in the coal bunker before it is stopped.
In addition, since the chopping is performed while the plant is operating, not only stopping the coal supply to the bunker to be chopped off, but if the amount of coal supplied from the target bunker to the boiler is not adjusted, The change in quantity becomes large, and abnormal conditions may occur in the entire plant. Therefore, by reducing the coal supply of the target coal feeder to the minimum coal supply according to the bunker level and applying fuel control weights to other mills or other fuel facilities, the impact on the plant due to chopping is reduced. Must be minimized.

従来、石炭火力発電所における石炭バンカの焚き切り運転は、現場にてバンカ内の石炭レベルを目視により監視し、現場と中央制御室間で連絡を取り合いながら、石炭量レベルが少なくなると、中央制御室からの指令により給炭機の給炭量を減少させていき、現場の目視によるバンカレベルゼロの連絡と同時にコールゲート弁を閉鎖操作していた。   Conventionally, the coal bunker chopping operation at a coal-fired power plant monitors the coal level in the bunker visually at the site, and keeps communication between the site and the central control room. In response to a command from the room, the amount of coal supplied by the coal feeder was reduced, and the call gate valve was closed at the same time as a bunker level zero notification was made on site.

そのため、現場に多数の人員配置が必要で、人の経験に拠るところが多くなると共に、オペレータが焚き切り操作に集中してしまい、他のユニットの監視意識が薄くなる課題があった。   For this reason, there is a problem that a large number of personnel are required on the site, and there are many places depending on human experience, and the operator concentrates on the cutting operation, and the monitoring consciousness of other units is reduced.

そこで本発明は、石炭バンカ内の石炭を給炭機を介してミルに供給し、ミルで粉塵化した石炭を熱空気と混合してボイラの石炭バーナーに供給するようになしたボイラの給炭システムを有する火力発電システムにおいて、石炭バンカ内の石炭量をレベル計で監視し、石炭量が所定の焚き切り開始レベルに達したところで給炭機の給炭量を所定の割合で所定の焚き切り給炭量になるように自動で減少させ、焚き切り給炭量で運転して石炭バンカ内の石炭量がゼロレベルに達したところで石炭バンカから給炭機に達する供給路に設けたコールゲート弁を自動で閉鎖し、次いで給炭機を自動停止するようにしてなる火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムを提供するものである。   Accordingly, the present invention provides a boiler coal supply in which coal in a coal bunker is supplied to a mill via a coal feeder, and coal dusted by the mill is mixed with hot air and supplied to a boiler coal burner. In a thermal power generation system that has a system, the amount of coal in the coal bunker is monitored with a level meter, and when the amount of coal reaches a predetermined level of starting cutting, Coal gate valve provided in the supply path that reaches the coal feeder from the coal bunker when the coal amount in the coal bunker reaches zero level when it is automatically reduced to the coal supply amount and operated with the chopped coal supply amount. Is provided, and a coal bunker automatic cutting operation method and system for a thermal power generation system in which the coal feeder is automatically shut down and then the coal feeder is automatically stopped are provided.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、給炭機の焚き切り給炭量がボイラに供給し得る最低給炭量に設定してある火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムを提供するものである。   The present invention also relates to the coal bunker automatic chopping operation method in the above-described thermal power generation system, wherein the chopped coal supply amount of the coal feeder is set to the minimum coal supply amount that can be supplied to the boiler. A bunker automatic cutting method and its system are provided.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、給炭機の焚き切り給炭量が通常運転時の給炭量の約半分に設定してある火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムを提供するものである。   Further, the present invention provides a thermal power generation system in which, in the above-described coal bunker automatic chopping operation method in the thermal power generation system, the chopped coal supply amount of the coal feeder is set to about half of the coal supply amount during normal operation. A coal bunker automatic chopping operation method and system are provided.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、石炭バンカの上部に設けたレベル計で石炭バンカ内の石炭量を監視するようにした火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムを提供するものである。   Further, the present invention provides an automatic coal bunker cutting operation method in the above-described thermal power generation system, wherein the coal bunker automatic in the thermal power generation system is configured to monitor the amount of coal in the coal bunker with a level meter provided at the upper part of the coal bunker. A cutting operation method and a system thereof are provided.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、レベル計が超音波方式からなる火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムを提供するものである。   The present invention also provides an automatic coal bunker cutting operation method in a thermal power generation system in which the level meter is an ultrasonic method in the coal bunker automatic cutting operation method in the above-described thermal power generation system.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、石炭バンカの下部に設けたローレベル監視用のレベル計で石炭バンカ内の石炭量を監視するようにした火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムを提供するものである。   Further, the present invention provides a thermal power generation system in which the amount of coal in the coal bunker is monitored by a low level monitoring level meter provided in the lower part of the coal bunker in the coal bunker automatic cutting operation method in the thermal power generation system described above. An automatic coal bunker cutting method and its system in the system are provided.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、給炭機停止後にミルを停止するようにした火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムを提供するものである。   The present invention also provides an automatic coal bunker chopping operation method in a thermal power generation system and a system therefor, in the coal bunker automatic chopping operation method in the above-described thermal power generation system. Is.

本発明に係る火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムによれば、石炭バンカ内の石炭を給炭機を介してミルに供給し、ミルで粉塵化した石炭を熱空気と混合してボイラの石炭バーナーに供給するようになしたボイラの給炭システムを有する火力発電システムにおいて、石炭バンカ内の石炭量をレベル計で監視し、石炭量が所定の焚き切り開始レベルに達したところで給炭機の給炭量を所定の割合で所定の焚き切り給炭量になるように自動的に減少させ、焚き切り給炭量で運転して石炭バンカ内の石炭量がゼロレベルに達したところで石炭バンカから給炭機に達する供給路に設けたコールゲート弁を自動で閉鎖し、次いで給炭機を自動停止するようにしてなる構成を有することにより、中央制御室において石炭バンカ内の石炭量をレベル計で監視することができるから、石炭量が所定の焚き切り開始レベルに達したところで給炭機の給炭量を所定の割合で所定の焚き切り給炭量になるように自動的に減少させる制御ができ、焚き切り給炭量で運転して石炭バンカ内の石炭量がゼロレベルに達したところで石炭バンカから給炭機に達する供給路に設けたコールゲート弁を自動で閉鎖し、次いで給炭機を自動停止することにより、現場における多数の人員配置が不要で、人の経験に拠ることなく中央制御室においてオペレータが容易に安全に迅速に焚き切り操作を行うことができる効果がある。   According to the coal bunker automatic chopping operation method and the system in the thermal power generation system according to the present invention, the coal in the coal bunker is supplied to the mill via the coal feeder, and the coal dusted by the mill is mixed with hot air. In a thermal power generation system having a boiler coal supply system that is supplied to the coal burner of the boiler, the amount of coal in the coal bunker is monitored with a level meter, and the amount of coal has reached a predetermined level of chopping. By the way, the amount of coal supplied from the coal feeder is automatically reduced at a predetermined rate so as to reach a predetermined amount of chopped coal, and the amount of coal in the coal bunker reaches zero level by operating at the amount of chopped coal. In the central control room, the coal gate valve provided in the supply path from the coal bunker to the coal feeder is automatically closed and then the coal feeder is automatically stopped. The amount of coal in the bunker can be monitored with a level meter, so when the amount of coal reaches the predetermined level of chopping, the amount of coal supplied by the coal feeder becomes a predetermined amount of chopped coal at a predetermined rate. It can be controlled to decrease automatically, and when the amount of coal in the coal bunker reaches zero level by operating with a chopped coal supply amount, a call gate valve provided on the supply path from the coal bunker to the coal feeder is installed. By automatically closing and then automatically shutting off the coal feeder, there is no need for a large number of personnel on-site, and operators can easily, safely and quickly cut through the central control room without relying on human experience. There is an effect that can.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムにおいて、給炭機の焚き切り給炭量がボイラに供給し得る最低給炭量に設定してあることにより、焚き切り時に最低の給炭量で運転することによって、石炭バンカ内の石炭量がゼロレベルに達したところで、石炭バンカから給炭機に達する供給路に設けたコールゲート弁を閉鎖したとき、迅速に給炭機による給炭を停止することができる効果がある。   Further, according to the present invention, in the coal bunker automatic chopping operation method in the thermal power generation system and the system, the chopping coal supply amount of the coal feeder is set to the minimum coal supply amount that can be supplied to the boiler. When the coal amount in the coal bunker reaches zero level by operating at the minimum coal supply amount at the time of cutting, when the call gate valve provided in the supply path from the coal bunker to the coal feeder is closed, There is an effect that coal supply by the coal feeder can be quickly stopped.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムにおいて、給炭機の焚き切り給炭量が通常運転時の給炭量の約半分に設定してある構成を有することにより、通常運転時に対して焚き切り運転時の発電電力の調整が容易にできる効果がある。   Further, the present invention provides a method for automatically chopping a coal bunker in the above-described thermal power generation system and the system thereof, wherein the chopping amount of the coal feeder is set to about half of the amount of coal supply during normal operation. By having the above, there is an effect that the generated power can be easily adjusted during the chopping operation with respect to the normal operation.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムにおいて、石炭バンカの上部に設けたレベル計で石炭バンカ内の石炭量を監視するようにした構成を有することにより、バンカ内の石炭量を上から底まで広い計測範囲に渡って監視することができる効果がある。   Further, the present invention has a configuration in which the amount of coal in the coal bunker is monitored by a level meter provided on the upper portion of the coal bunker in the coal bunker automatic chopping operation method in the thermal power generation system and the system thereof. Thus, there is an effect that the amount of coal in the bunker can be monitored over a wide measurement range from the top to the bottom.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムにおいて、レベル計が超音波方式からなる構成を有するから、バンカ内の石炭量を上から底まで広い計測範囲に渡って監視することができる効果がある。   Further, the present invention provides a method for automatically chopping a coal bunker in the above-described thermal power generation system, and the system thereof, since the level meter has an ultrasonic method, so that the amount of coal in the bunker can be measured from the top to the bottom. There is an effect that can be monitored over.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムにおいて、石炭バンカの下部に設けたローレベル監視用のレベル計で石炭バンカ内の石炭量を監視するようにした構成を有するから、ローレベルでのレベル把握の精度を高めることができる効果がある。   Further, according to the present invention, in the coal bunker automatic cutting operation method in the thermal power generation system and the system, the amount of coal in the coal bunker is monitored by a level meter for low level monitoring provided in the lower part of the coal bunker. With this configuration, there is an effect that it is possible to improve the accuracy of level grasp at the low level.

また、本発明は、上記の火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムにおいて、給炭機停止後にミルを停止するようにした構成を有することにより、ミル内圧による炭塵の逆流を防止することができる効果がある。   Further, the present invention provides a method for automatically cutting a coal bunker in the above-described thermal power generation system and the system thereof, wherein the mill is stopped after stopping the coal feeder, thereby preventing the reverse flow of coal dust due to the internal pressure of the mill. There is an effect that can be prevented.

以下図示する実施例により本発明を説明する。   The present invention will be described below with reference to the illustrated embodiments.

図1において、10は石炭バンカで、上部のメインバンカ11と下部のサブバンカ12からなり、給炭はサブバンカ12から供給路13を経て給炭機14に供給されるように構成してある。
給炭機14内には、中央制御室の遠隔操作で給炭量を自動制御可能なコンベアが内蔵されている。コンベアは、例えば、ベルト進行距離検出部と荷重検出部からなる給炭量検出手段を備えたベルトコンベアからなり、中央制御室で給炭量を検出し、ベルト速度を調整することにより給炭量を制御することができるように構成してある。
給炭機14からミルに供給された石炭は、粉塵化されて熱空気と混合してボイラの石炭バーナーに供給されるように構成してある。
In FIG. 1, reference numeral 10 denotes a coal bunker, which includes an upper main bunker 11 and a lower sub bunker 12, and is configured such that coal supply is supplied from the sub bunker 12 through a supply path 13 to a coal feeder 14.
In the coal feeder 14, a conveyor capable of automatically controlling the amount of coal supply by remote control of the central control room is incorporated. The conveyor is composed of, for example, a belt conveyor provided with a coal feed amount detection unit including a belt travel distance detection unit and a load detection unit, detects the feed amount in the central control room, and adjusts the belt speed to adjust the feed rate It is comprised so that it can control.
The coal supplied to the mill from the coal feeder 14 is configured to be dusted, mixed with hot air, and supplied to the coal burner of the boiler.

実施例の場合、石炭バンカ10の上部には、石炭量を上方から監視する超音波方式のレベル計が設けられており、石炭量の残量レベル約0mから約25mまで測定可能である。石炭量の残量レベルは、メインバンカ11とサブバンカ12との境界部分で約8.5mであり、約2.0mで焚き切り開始レベル、0mでゼロレベルとなり、中央制御室で監視可能に構成してある。   In the case of the embodiment, an ultrasonic type level meter that monitors the amount of coal from above is provided on the upper portion of the coal bunker 10 and can measure the remaining amount of coal from about 0 m to about 25 m. The remaining amount of coal is about 8.5m at the boundary between the main bunker 11 and the sub-bunker 12, and is set at the start level at about 2.0m, and at the zero level at 0m, and can be monitored in the central control room. It is.

サブバンカ12から給炭機14に至る供給路13には、コールゲート弁15が設けられており、図2に記載のように、中央制御室Cがレベル計Lからのゼロレベル監視信号L0を受けると、自動的に供給路を閉鎖する指令信号C0がコールゲート弁15に送られ、自動閉鎖するようにように構成してある。   A call gate valve 15 is provided in the supply path 13 from the sub-bunker 12 to the coal feeder 14, and the central control room C receives a zero level monitoring signal L0 from the level meter L as shown in FIG. Then, the command signal C0 for automatically closing the supply path is sent to the call gate valve 15 so as to be automatically closed.

なお、上記レベル計とは別に、中央制御室でサブバンカ12内のレベルをより精密に監視することができるように、サブバンカ12にレベル発信器を取り付け、サブバンカ内のレベル低下に伴って給炭量を減少させる制御回路により、給炭量を減少させ、ゼロレベルになると同時にコールゲート弁15を閉止する構成にすることも可能である。   In addition to the above level meter, a level transmitter is attached to the sub-bunker 12 so that the level in the sub-bunker 12 can be monitored more precisely in the central control room. It is also possible to reduce the amount of coal supply by a control circuit that reduces the amount of coal, and at the same time, close the call gate valve 15 at zero level.

次いで、図3及び図4に基づいて、火力発電システムにおける石炭バンカ自動焚き切り操作方法とそのシステムの説明をすると、石炭バンカ10のレベル計Lのレベルが約10.0mになると、図3のステップS1おいて、石炭バンカ内の石炭量が低レベルに達したことを中央制御室Cに警報する警報手段が作動し、バンカ焚き切り操作を行うか否か、行うとすれば何時から行うのか等の制御準備がなされ、次いでレベル計Lのレベルが約8.5mになると、ステップS2に記載のように、バンカ焚き切りの準備段階に入り、具体的に焚き切りに関連するプログラムが組まれる。   Next, based on FIG. 3 and FIG. 4, the coal bunker automatic cutting method and the system in the thermal power generation system will be described. When the level of the level meter L of the coal bunker 10 becomes about 10.0 m, FIG. In step S1, an alarm means for alarming the central control room C that the amount of coal in the coal bunker has reached a low level is activated, and whether or not to perform the bunker cutting operation. Then, when the level of the level meter L reaches about 8.5 m, as shown in step S2, a bunker cutting preparation stage is entered, and a program specifically related to cutting is set up. .

引き続き、図3のステップS3に記載のように、レベル計Lのレベルが約2.0mに達すると、図2に記載のように、レベル計Lから中央制御室Cにバンカ焚き切り開始レベルの信号L2が発せられ、バンカ焚き切りシステムが作動し、給炭機14に給炭量を所定の割合で減少させる制御信号C2を発する制御回路が働き、例えば、それまで通常運転時の給炭量30ton/hであったのを、所定時間後に焚き切り給炭量15ton/hまで給炭量を半減するように給炭機14の制御を開始し、ステップS4に記載のように、半減状態に達したところで、給炭量を15ton/hに維持する。   Subsequently, when the level of the level meter L reaches about 2.0 m as described in step S3 of FIG. 3, the level of the bunker cutting start level is transferred from the level meter L to the central control room C as illustrated in FIG. A signal L2 is generated, the bunker cutting system is activated, and a control circuit for generating a control signal C2 for reducing the coal supply amount to the coal feeder 14 at a predetermined rate works, for example, the coal supply amount during normal operation until then. The control of the coal feeder 14 was started so as to halve the coal supply amount to 15 ton / h after a predetermined time until the amount of coal supply was 15 ton / h. Once reached, the coal supply is maintained at 15 ton / h.

この給炭機14の焚き切り給炭量15ton/hは、実施例の場合、ボイラに供給し得る最低給炭量に設定してあり、焚き切り時に最低の給炭量で運転することによって、石炭バンカ10内の石炭量がゼロレベルに達したところで、石炭バンカから給炭機14に達する供給路13に設けたコールゲート弁15を閉鎖したとき、迅速に給炭機14による給炭を停止することができる効果がある。
また、給炭機14の焚き切り給炭量が通常運転時の給炭量の約半分に設定してあることにより、通常運転時に対して焚き切り運転時の発電電力の調整が容易にできる効果がある。
In the case of the embodiment, the chopped coal supply amount 15 ton / h of the coal feeder 14 is set to the minimum coal supply amount that can be supplied to the boiler, and by operating at the minimum coal supply amount at the time of chopping, When the coal amount in the coal bunker 10 reaches the zero level, when the coal gate valve 15 provided in the supply path 13 from the coal bunker to the coal feeder 14 is closed, the coal feeder 14 quickly stops the coal supply. There is an effect that can be done.
In addition, since the chopped coal supply amount of the coal feeder 14 is set to about half of the coal supply amount during the normal operation, it is possible to easily adjust the generated power during the chopping operation with respect to the normal operation. There is.

引き続く焚き切り給炭量15ton/hによる給炭機14の運転により、図3のステップ5に記載のように、レベル計Lが0mを検出したところで、図2に記載のように、焚き切りレベル信号L0を中央制御室Cに送信し、バンカ焚き切りシステムの給炭停止信号C0が作動し、コールゲート弁15が自動で閉止し、給炭機14への供給が途絶え、引き続いて、ステップ6に記載のように、給炭機14が停止する。
その後、ミルが停止して、石炭バーナーへの石炭粉塵の供給も停止することとなる。
When the level meter L detects 0 m as shown in step 5 of FIG. 3 by the operation of the coal feeder 14 at the subsequent cut-off coal supply amount of 15 ton / h, as shown in FIG. The signal L0 is transmitted to the central control room C, the coal supply stop signal C0 of the bunker cutting system is activated, the call gate valve 15 is automatically closed, the supply to the coal feeder 14 is stopped, and then step 6 As described in, the coal feeder 14 stops.
Thereafter, the mill stops and the supply of coal dust to the coal burner is also stopped.

本発明に係る石炭バンカシステムの概略説明図。The schematic explanatory drawing of the coal bunker system concerning the present invention. そのバンカ焚き切りシステムの一実施例の概略説明図。The schematic explanatory drawing of one Example of the bunker cutting system. そのシステムの一操作態様の概略を示すフロ−チャート。The flowchart which shows the outline of the one operation mode of the system.

符号の説明Explanation of symbols

10 石炭バンカ
11 メインバンカ
12 サブバンカ
13 供給路
14 給炭機
15 コールゲート弁
L レベル計
C 中央制御室
10 Coal bunker 11 Main bunker 12 Sub bunker 13 Supply path 14 Coal feeder 15 Coal gate valve L Level meter C Central control room

Claims (10)

石炭バンカ内の石炭を給炭機を介してミルに供給し、ミルで粉塵化した石炭を熱空気と混合してボイラの石炭バーナーに供給するようになしたボイラの給炭システムを有する火力発電システムにおいて、
石炭バンカ下部のサブバンカに設けたレベル計でサブバンカ内の石炭量を監視し、
前記レベル計が所定の焚き切り開始レベルを検出したところで前記レベル計のレベル低下に伴って給炭機の給炭量を所定の割合で所定の焚き切り給炭量になるように自動で減少させ、
前記焚き切り給炭量で運転して前記レベル計がゼロレベルを検出したところで石炭バンカから給炭機に達する供給路に設けたコールゲート弁を自動で閉鎖し、
給炭機へ石炭の供給が途絶えた後に給炭機を自動停止し、
給炭機停止後にミルを停止するようにしてなる火力発電システムにおける石炭バンカ自動焚き切り操作方法。
Coal bunker coal is supplied to the mill through a coal feeder, and coal is pulverized by the mill and mixed with hot air to supply the boiler coal burner. In the system,
Level meter provided in the coal bunker the bottom of Sabubanka monitors the amount of coal in Sabubanka,
When the level meter detects a predetermined chopping start level , the coal feed amount of the coal feeder is automatically reduced to a predetermined chopping coal feed rate at a predetermined rate as the level meter is lowered. ,
When the level meter detects a zero level by operating at the chopped coal supply amount, the call gate valve provided in the supply path from the coal bunker to the coal feeder is automatically closed,
After the supply of coal to the coal feeder stops , the coal feeder is automatically stopped ,
An automatic coal bunker cutting operation method in a thermal power generation system configured to stop the mill after stopping the coal feeder .
請求項1に記載の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、給炭機の焚き切り給炭量がボイラに供給し得る最低給炭量に設定してある火力発電システムにおける石炭バンカ自動焚き切り操作方法。 The coal bunker automatic chopping operation method in the thermal power generation system according to claim 1, wherein the coal bunker automatic chopping amount of the coal feeder is set to a minimum coal supply amount that can be supplied to the boiler. Cutting operation method. 請求項1又は2に記載の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、給炭機の焚き切り給炭量が通常運転時の給炭量の約半分に設定してある火力発電システムにおける石炭バンカ自動焚き切り操作方法。 In the coal bunker automatic chopping operation method in the thermal power generation system according to claim 1 or 2, in the thermal power generation system in which the chopping coal supply amount of the coal feeder is set to about half of the coal supply amount during normal operation. Coal bunker automatic chopping operation method. 請求項1、2又は3に記載の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、石炭バンカの上部に設けたレベル計で石炭バンカ内の石炭量を監視するようにした火力発電システムにおける石炭バンカ自動焚き切り操作方法。 The coal bunker automatic cutting operation method in the thermal power generation system according to claim 1, 2, or 3, wherein the coal in the thermal power generation system is configured to monitor the amount of coal in the coal bunker with a level meter provided on the upper part of the coal bunker. Bunker automatic cutting operation method. 請求項4に記載の火力発電システムにおける石炭バンカ自動焚き切り操作方法において、レベル計が超音波方式からなる火力発電システムにおける石炭バンカ自動焚き切り操作方法。 The coal bunker automatic cutting operation method in the thermal power generation system according to claim 4, wherein the level meter is an ultrasonic type coal bunker automatic cutting operation method. 石炭バンカ内の石炭を給炭機を介してミルに供給し、ミルで粉塵化した石炭を熱空気と混合してボイラの石炭バーナーに供給するようになしたボイラの給炭システムを有する火力発電システムにおいて、
石炭バンカ下部のサブバンカに設けたレベル計でサブバンカ内の石炭量を監視する手段と、
前記レベル計の出力を取り込んで前記石炭量が所定の焚き切り開始レベルに達したところで前記レベル計のレベル低下に伴って給炭機の給炭量を所定の割合で所定の焚き切り給炭量になるように自動で減少させるように制御する手段と、
前記焚き切り給炭量で運転を継続して前記レベル計の出力が石炭バンカ内の石炭量がゼロレベルに達したところで石炭バンカから給炭機に達する供給路に設けたコールゲート弁を自動で閉鎖する手段と、
給炭機へ石炭の供給が途絶えた後に給炭機を自動停止する手段と
給炭機停止後にミルを停止する手段と、を有する火力発電システムにおける石炭バンカ自動焚き切り操作システム。
Coal bunker coal is supplied to the mill through a coal feeder, and coal is pulverized by the mill and mixed with hot air to supply the boiler coal burner. In the system,
It means for monitoring the amount of coal in Sabubanka level meter provided in the coal bunker the bottom of Sabubanka,
Coal feed amount prescribed burning-away at the rate of coal feed amount of a given coal feeder with the reduced levels of the level gauge the amount of coal it captures the output was reached predetermined fired outright starting level of the level meter Means for controlling to automatically decrease so that
Automatic call gate valve weight coal is provided in the supply passage to reach the coal feeder from coal bunker was reached zero level in the output coal bunker of the level meter to continue operation at the coal feed amount outright fired the Means for closing,
Means for automatically stopping the coal feeder after supply of coal to the coal feeder is interrupted ;
A coal bunker automatic chopping operation system in a thermal power generation system.
請求項に記載の火力発電システムにおける石炭バンカ自動焚き切り操作システムにおいて、給炭機の焚き切り給炭量がボイラに供給し得る最低給炭量に設定してある火力発電システムにおける石炭バンカ自動焚き切り操作システム。 The automatic coal bunker cutting operation system in the thermal power generation system according to claim 6 , wherein the chopping coal supply amount of the coal feeder is set to a minimum coal supply amount that can be supplied to the boiler. Cutting operation system. 請求項又はに記載の火力発電システムにおける石炭バンカ自動焚き切り操作システムにおいて、給炭機の焚き切り給炭量が通常運転時の給炭量の約半分に設定してある火力発電システムにおける石炭バンカ自動焚き切り操作システム。 In the coal bunker automatic chopping operation system in the thermal power generation system according to claim 6 or 7 , in the thermal power generation system in which the chopping coal supply amount of the coal feeder is set to about half of the coal supply amount during normal operation. Coal bunker automatic chopping operation system. 請求項又はに記載の火力発電システムにおける石炭バンカ自動焚き切り操作システムにおいて、石炭バンカの上部に設けたレベル計で石炭バンカ内の石炭量を監視するようにした火力発電システムにおける石炭バンカ自動焚き切り操作システム。 A coal bunker automatic cutting operation system in the thermal power generation system according to claim 6 , 7 or 8 , wherein the coal in the thermal power generation system is configured to monitor the amount of coal in the coal bunker with a level meter provided in the upper part of the coal bunker. Bunker automatic cutting operation system. 請求項に記載の火力発電システムにおける石炭バンカ自動焚き切り操作システムにおいて、レベル計が超音波方式からなる火力発電システムにおける石炭バンカ自動焚き切り操作システム。 The coal bunker automatic cutting operation system in the thermal power generation system according to claim 9 , wherein the level meter is an ultrasonic type coal bunker automatic cutting operation system.
JP2006294624A 2006-10-30 2006-10-30 Coal bunker automatic chopping operation method and system in thermal power generation system Active JP4959289B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2006294624A JP4959289B2 (en) 2006-10-30 2006-10-30 Coal bunker automatic chopping operation method and system in thermal power generation system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2006294624A JP4959289B2 (en) 2006-10-30 2006-10-30 Coal bunker automatic chopping operation method and system in thermal power generation system

Publications (2)

Publication Number Publication Date
JP2008111586A JP2008111586A (en) 2008-05-15
JP4959289B2 true JP4959289B2 (en) 2012-06-20

Family

ID=39444188

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2006294624A Active JP4959289B2 (en) 2006-10-30 2006-10-30 Coal bunker automatic chopping operation method and system in thermal power generation system

Country Status (1)

Country Link
JP (1) JP4959289B2 (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5502123B2 (en) * 2012-03-22 2014-05-28 中国電力株式会社 Coal remaining amount management system
KR101764590B1 (en) 2016-12-20 2017-08-03 한국남동발전 주식회사 Method for controlling coal feed of multi-stage coal supplier in a fluidized boiler of thermal power plant
JP7404729B2 (en) * 2019-09-18 2023-12-26 中国電力株式会社 Coal feeding system and residual coal processing method
CN111232453A (en) * 2020-03-19 2020-06-05 马鞍山市天工科技股份有限公司 Intelligent anti-combustion and blockage removal device for spherical coal storage bunker
CN113551252A (en) * 2021-06-01 2021-10-26 华能渑池热电有限责任公司 Coal feeder automatic cutting coal treatment device

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2713590B2 (en) * 1989-01-25 1998-02-16 三菱重工業株式会社 Mill operation number automatic control method
JPH0483542A (en) * 1990-07-26 1992-03-17 Ishikawajima Harima Heavy Ind Co Ltd How to stop a coal mill
JP3797689B2 (en) * 1995-12-14 2006-07-19 バブコック日立株式会社 Combustion control device for coal fired boiler
JP2006275319A (en) * 2005-03-28 2006-10-12 Chugoku Electric Power Co Inc:The Coal bunker burning-out method and system

Also Published As

Publication number Publication date
JP2008111586A (en) 2008-05-15

Similar Documents

Publication Publication Date Title
CN106994386B (en) Coal blocking early warning and automatic processing device and method for medium-speed coal mill
CN106325077B (en) A kind of steam turbine load fluctuation on-line monitoring method based on steam flow judgement
CN207049617U (en) A kind of natural gas emergency cut-off acousto-optic linkage alarm device
JP4959289B2 (en) Coal bunker automatic chopping operation method and system in thermal power generation system
CN106337966A (en) Realization method for detection controller for valve position adjustment abnormity of industrial pulverized coal boiler
CN110556033A (en) Operation guiding system based on typical and accident case base of thermal power plant
CN104888384A (en) Spontaneous combustion pre-warning and fireproofing system for coal stored in raw coal hopper
CN114063581B (en) Intelligent adaptive ash conveying control system for coal-fired power plant
CN116921056B (en) An intelligent coal mill system and its control method
EP2068081A1 (en) Operating method and operation control apparatus for gasification melting furnace
CN102540935A (en) Double-mode control system for regulating internal environment of underground danger avoiding device and control method thereof
CN103090353A (en) Method and equipment for automatically controlling biomass boiler
TW201226809A (en) Method of testing and compensating gas supply for safety
CN109308082B (en) Safety control method for VOCs in released gas in low-temperature plasma treatment sewage collection, storage and treatment links
CN111604493B (en) Tundish baking protection system and method
CN119412695A (en) A high-efficiency and low-emission power plant burner and its control system
CN221063060U (en) Intelligent coal mill system
CN209044360U (en) A kind of control system for gas dehydration
CN109028055B (en) A kind of accurate temperature control and safe intelligent controller
CN209397169U (en) A dewatering skid control system
JP4843537B2 (en) Central monitoring control method and apparatus in air conditioning control system
CN114877363A (en) Coal-fired power plant powder process system coal feeding cutoff early warning system
CN101818243B (en) Emergency shutdown control method for large slab heating furnace
CN109282144A (en) A kind of natural gas emergency cut-off acousto-optic linkage alarm device
CN106949739A (en) Fluidized bed furnace method for security protection and safety guard

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20090413

RD02 Notification of acceptance of power of attorney

Free format text: JAPANESE INTERMEDIATE CODE: A7422

Effective date: 20090618

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20110928

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20111011

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20111207

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20120313

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20120321

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20150330

Year of fee payment: 3

R150 Certificate of patent or registration of utility model

Ref document number: 4959289

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20150330

Year of fee payment: 3

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250