JPH0599416A - Furnace pressure controlling method of ash melting furnace - Google Patents
Furnace pressure controlling method of ash melting furnaceInfo
- Publication number
- JPH0599416A JPH0599416A JP28562591A JP28562591A JPH0599416A JP H0599416 A JPH0599416 A JP H0599416A JP 28562591 A JP28562591 A JP 28562591A JP 28562591 A JP28562591 A JP 28562591A JP H0599416 A JPH0599416 A JP H0599416A
- Authority
- JP
- Japan
- Prior art keywords
- furnace
- pressure
- ash
- amount
- melting
- 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
- Incineration Of Waste (AREA)
- Gasification And Melting Of Waste (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、都市ごみ,産業廃棄物
等の焼却灰をアーク放電加熱または抵抗加熱により溶融
処理する溶融炉において、炉内圧力を調節することによ
り灰溶融処理の省エネルギー化と安全化を図る灰溶融炉
の炉内圧力制御方法に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a melting furnace for melting incinerated ash of municipal waste, industrial waste, etc. by arc discharge heating or resistance heating to reduce energy consumption of the ash melting processing by adjusting the furnace pressure. And a method for controlling the pressure inside the ash melting furnace for safety.
【0002】[0002]
【従来の技術】都市ごみ,下水汚泥などの産業廃棄物を
焼却した後に出来る焼却灰は、例えば特開昭62−20
2923号公報に示されたように、溶融炉にて電極棒に
よるアーク加熱により溶融し減容化すると同時に灰中の
有害物質を封じ込め公害防止を図るようにしている。2. Description of the Related Art Incinerated ash produced after incinerating industrial waste such as municipal solid waste and sewage sludge is disclosed in, for example, Japanese Patent Laid-Open No. 62-20.
As disclosed in Japanese Patent No. 2923, the melting and volume are reduced by arc heating by an electrode rod in a melting furnace, and at the same time, harmful substances in ash are contained to prevent pollution.
【0003】ところで上記灰溶融炉における炉内圧力は
炉内圧力計により測定されその測定値が大気圧よりも少
し低い値を保つように排ガス量が調節されるようにして
いる。By the way, the furnace pressure in the ash melting furnace is measured by a furnace pressure gauge, and the amount of exhaust gas is adjusted so that the measured value is kept slightly lower than atmospheric pressure.
【0004】[0004]
【発明が解決しようとする課題】ところで、炉内へ投入
される焼却灰の処理量が多くなると、焼却灰から多量に
未然ガス或いは水蒸気が発生し、焼却灰の投入状況によ
り炉内の燃焼状況が大きく変わるために炉内圧力が大き
く変動しやすい。By the way, when the amount of incinerated ash charged into the furnace increases, a large amount of gas or steam is generated from the incinerated ash, and the combustion condition in the furnace depends on the condition of the incinerated ash. Changes greatly, so the pressure inside the furnace tends to change greatly.
【0005】このため上記のような炉内圧調節ダンパを
調節することによる炉内圧力の自動調整装置が装備され
たとしても、炉内圧力は大きく脈動するために、焼却灰
の処理量が多いと一時的に炉内圧力がプラスになって排
ガスが周囲に漏洩し事故を招くおそれがあった。Therefore, even if an automatic pressure control device for the furnace pressure by adjusting the furnace pressure control damper as described above is installed, the pressure inside the furnace pulsates greatly, so that the amount of incinerated ash treated is large. There was a risk that the pressure inside the furnace would become positive temporarily and the exhaust gas would leak to the surrounding area, resulting in an accident.
【0006】そのような事態をさけ安全のために炉内圧
力の設定を低くすることは考えられが、炉内圧力が低す
ぎると炉内に過大に外気が侵入し炉内温度を下げるため
にその温度を補う電力消費が必要となり不経済を招くと
いう問題がある。Although it is conceivable to reduce the setting of the furnace pressure for safety in order to avoid such a situation, if the furnace pressure is too low, the outside air excessively invades the furnace to lower the furnace temperature. There is a problem that power consumption to compensate for the temperature is required and uneconomical is brought about.
【0007】[0007]
【課題を解決するための手段】本発明の灰溶融炉の炉内
圧力制御方法は上記課題を解決しようとするもので、炉
内に連続的に投入される都市ごみ等の焼却灰を溶融する
灰溶融炉において、焼却灰の処理量を予め設定する処理
量設定器と、焼却灰の処理量に対して炉内圧力を設定す
る炉内圧力設定器と、炉内圧力計と、炉内圧調節ダンパ
を具備し、焼却灰の溶融処理量の設定により炉内圧力を
設定し、更に炉内圧力を計測し、その計測値が上記設定
値を保つように炉内圧調節ダンパを調節するようにした
ことを特徴とするものである。The method for controlling the in-furnace pressure of an ash melting furnace according to the present invention is intended to solve the above-mentioned problems, and melts incinerated ash such as municipal refuse continuously fed into the furnace. In an ash melting furnace, a processing amount setter that presets the amount of incinerated ash to be processed, an in-furnace pressure setter that sets the in-furnace pressure to the incinerated ash processed amount, an in-furnace pressure gauge, and an in-furnace pressure adjustment A furnace was equipped with a damper, the furnace pressure was set by setting the amount of incinerated ash to be melted, the furnace pressure was measured, and the furnace pressure control damper was adjusted so that the measured value would maintain the above set value. It is characterized by that.
【0008】[0008]
【作用】焼却灰の処理量に従い炉内圧力を設定するよう
にしたことで、処理量が少ないときはその炉内圧力の設
定値を高めにし、処理量が多いときにはその設定値を低
めにするなど焼却灰の処理量に従い炉内圧力を設定する
ようにしたことで省エネルギーおよび安全運転が可能と
なる。[Function] By setting the pressure in the furnace according to the amount of incinerated ash to be processed, the set value of the pressure in the furnace is increased when the amount of processing is small, and the set value is lowered when the amount of processing is large. Energy saving and safe operation can be achieved by setting the furnace pressure according to the amount of incinerated ash to be processed.
【0009】[0009]
【実施例】次に図面に従い本発明の一実施例を説明す
る。図1に灰溶融炉を縦断面図にて示し、この灰溶融炉
1はその天蓋部より3本の電極棒2が炉内に垂下しアー
ク電流が印加されることによって炉床の溶融スラグ3と
の間にアーク放電が起き焼却灰5を溶融させると共にそ
の溶融スラグ3を出滓口4より排出させるようになって
いる。なお、焼却灰の投入口および焼却灰切出し装置に
ついては図示を省略している。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of the present invention will now be described with reference to the drawings. The ash melting furnace is shown in a longitudinal sectional view in FIG. An arc discharge occurs between and the incinerated ash 5 is melted, and the molten slag 3 is discharged from the outlet 4. The incinerator ash inlet and the incinerator ash cutting device are not shown.
【0010】6は焼却灰の処理量を予め設定する処理量
設定器で、該処理量設定器6に単位時間当り溶融処理す
べき焼却灰の量を設定することにより、その設定値に従
い前記焼却灰切出し装置が作動し灰溶融炉1内に焼却灰
5が投入される。Reference numeral 6 is a processing amount setting device for presetting the amount of incinerated ash to be processed. By setting the amount of incinerated ash to be melt-processed per unit time in the processing amount setting device 6, the incineration is carried out according to the set value. The ash cutting device is activated and the incinerated ash 5 is put into the ash melting furnace 1.
【0011】7は焼却灰の処理量に対して適切な炉内吹
込み空気量を設定する空気量設定器、8はブロワ9から
吸引した空気を流量計10,流量調節弁11を介して灰
溶融炉1内に供給する給気系、12は該流量調節弁11
の開度を制御するコントローラである。Reference numeral 7 is an air amount setting device for setting an appropriate amount of air blown into the furnace for the amount of incinerated ash to be treated, and 8 is air sucked from a blower 9 through a flow meter 10 and a flow control valve 11 to remove ash. An air supply system for supplying into the melting furnace 1, 12 is the flow control valve 11
Is a controller for controlling the opening degree of the.
【0012】前記空気量設定器7にて設定された炉内吹
込み空気量はコントローラ12に指令され、該コントロ
ーラ12は流量計10によつて測定される空気量がその
指令に一致するように流量調節弁11を開度調節するよ
うになっている。The amount of air blown into the furnace set by the air amount setter 7 is instructed to the controller 12 so that the amount of air measured by the flow meter 10 matches the instruction. The opening of the flow rate control valve 11 is adjusted.
【0013】13は灰溶融炉1内の燃焼ガスを排出する
排ガス管で、該排ガス管にはガス冷却塔14,バグ式フ
イルタ15,炉内圧調節ダンパ16,排気ファン17が
その順に連接されている。Reference numeral 13 is an exhaust gas pipe for discharging the combustion gas in the ash melting furnace 1. A gas cooling tower 14, a bag type filter 15, a furnace pressure adjusting damper 16 and an exhaust fan 17 are connected in this order to the exhaust gas pipe. There is.
【0014】18は炉内のガス圧力を測定する圧力計、
19は該圧力計18の信号がフィードバックされ炉内圧
調節ダンパ16の開度を調節するコントローラ、20は
該コントローラ19に炉内圧力を指令する炉内圧力設定
器である。Reference numeral 18 is a pressure gauge for measuring the gas pressure in the furnace,
Reference numeral 19 is a controller for feeding back the signal from the pressure gauge 18 to adjust the opening of the furnace pressure adjusting damper 16, and reference numeral 20 is a furnace pressure setting device for instructing the controller 19 of the furnace pressure.
【0015】しかして、上記処理量設定器6に設定され
た焼却灰処理量設定値の情報は炉内圧力設定器20に伝
達され、該炉内圧力設定器20ではその焼却灰の処理量
に対して適切な炉内圧力が設定される。この灰処理量と
炉内圧力設定値との関係は図2に例示したような逆比例
の関数として炉内圧力設定器20に予め記憶されこの関
数から適切な炉内圧力が算出される。Therefore, the information on the incineration ash treatment amount set value set in the treatment amount setting device 6 is transmitted to the in-furnace pressure setting device 20, and the incinerator pressure setting device 20 determines the incineration ash treatment amount. On the other hand, an appropriate furnace pressure is set. The relationship between the ash processing amount and the set value in the furnace pressure is stored in advance in the furnace pressure setter 20 as a function of inverse proportion as illustrated in FIG. 2, and an appropriate furnace pressure is calculated from this function.
【0016】そして炉内圧力設定器20は上記のように
して設定された炉内圧力をコントローラ19に指令し流
量調節ダンパ16の開度をコントロールする。そして溶
融処理中、圧力計18により炉内圧力が計測されその計
測信号がコントローラ19にフィードバックされ炉内圧
力計測値が上記設定値を保つように炉内圧調節ダンパ1
6がその開度を調節し炉内圧力をコントロールする。The in-furnace pressure setter 20 commands the controller 19 to set the in-reactor pressure set as described above, and controls the opening of the flow rate adjusting damper 16. During the melting process, the pressure inside the furnace is measured by the pressure gauge 18, and the measurement signal is fed back to the controller 19 so that the measured pressure inside the furnace keeps the above set value.
6 controls the opening and controls the pressure in the furnace.
【0017】図3にこの炉内圧力の制御のフローチャー
トを示し、同図に従いその過程を説明すると、先ずステ
ップAにてごみ焼却炉からの焼却灰の発生状況等により
その時に必要な焼却灰処理量が処理量設定器6に設定さ
れる。処理量設定器6に設定された情報に従い灰切出し
量が設定されると共に、ステップBにて上記図2関数に
従い炉内圧力設定器20に炉内圧力が設定され、その炉
内圧力を保つべくコントローラ19,炉内圧調節ダンパ
16に開度が指令される。FIG. 3 shows a flow chart of the control of the pressure in the furnace, and the process will be described with reference to the same figure. First, in step A, the incineration ash treatment required at that time depending on the generation state of the incineration ash from the refuse incinerator. The amount is set in the throughput setting device 6. The ash cut-out amount is set according to the information set in the processing amount setting device 6, and the furnace pressure is set in the furnace pressure setting device 20 according to the function shown in FIG. The opening degree is commanded to the controller 19 and the furnace pressure adjustment damper 16.
【0018】そして焼却灰の溶融処理中、ステップC〜
Eが繰り返される。このステップCでは炉内圧力の計測
値が上限レベル以上であるかどうかが判定され、仮に上
限レベル以上であれば何らかの異常が生じたと判断され
るのでホールド運転に入る。このホールド運転は、焼却
灰の供給を停止すると共に灰溶融炉1内を以後も継続し
て灰溶融を行うのに必要な温度に保つべく必要最少限の
電力を供給して待機する状態に入ることなどをいう。During the melting process of the incinerated ash, the steps C to
E is repeated. In this step C, it is judged whether or not the measured value of the pressure in the furnace is above the upper limit level, and if it is above the upper limit level, it is judged that some abnormality has occurred, so the hold operation is started. In this hold operation, the supply of the incinerated ash is stopped, and at the same time, the ash melting furnace 1 is kept in a standby state by supplying the minimum necessary power to keep the temperature at the temperature required for ash melting. It means things.
【0019】また、ステップDにて圧力計18により測
定される炉内圧力が基準Hレベル以上であるかどうかが
判定され、基準Hレベル以上であるときは炉内圧調節ダ
ンパ16の開度を上昇させる。また、ステップEにて炉
内圧力が基準Lレベル以下であるかどうかが判定され、
基準Lレベル以下のときは炉内圧調節ダンパ16の開度
を下げさせる。Further, in step D, it is judged whether or not the furnace pressure measured by the pressure gauge 18 is above the reference H level, and if it is above the reference H level, the opening degree of the furnace pressure adjusting damper 16 is increased. Let Further, in step E, it is determined whether the pressure in the furnace is below the reference L level,
When the level is equal to or lower than the reference L level, the opening degree of the in-furnace pressure adjusting damper 16 is decreased.
【0020】炉内圧力は発生排ガス量の変動により炉内
圧力設定器20からの指令値を中心として脈動する。そ
の変動は処理量が多い程大きい。The in-furnace pressure pulsates around the command value from the in-reactor pressure setting device 20 due to fluctuations in the amount of generated exhaust gas. The fluctuation is larger as the processing amount is larger.
【0021】なお、排気ファン17により吸引された炉
内の排ガスはガス冷却塔14を通過することにより冷却
され、バグ式フイルタ15にて粉塵が回収されて大気中
に排出される。The exhaust gas in the furnace sucked by the exhaust fan 17 is cooled by passing through the gas cooling tower 14, the bag type filter 15 collects the dust, and the dust is discharged into the atmosphere.
【0022】上記のように炉内圧力設定器20に設定さ
れる炉内圧力を灰処理量に逆比例させれば、図4に例示
したように、例えば灰処理量が4ton/hのとき炉内
圧力をマイナス10mmH2 Oに設定し、灰処理量が6
ton/hのとき炉内圧力をマイナス12mmH2 O
に、灰処理量が8ton/hのとき炉内圧力がマイナス
15mmH2 Oになるように、灰処理量が増すに従い炉
内圧力を低く設定することにより、炉内圧力の脈動幅
(振幅)がたとえ大きくなっても炉内圧力の一時的上昇
を一定値以下に抑えることができる。このため炉内圧力
を例えば図4の場合ではマイナス7mmH2O以下にで
きる。If the in-furnace pressure set in the in-furnace pressure setting device 20 is made inversely proportional to the ash throughput, as shown in FIG. 4, for example, when the ash throughput is 4 ton / h, the furnace set inner pressure to a negative 10 mm H 2 O, ash processing amount 6
When the pressure is ton / h, the pressure inside the furnace is reduced to minus 12 mmH 2 O.
In addition, the pulsation width (amplitude) of the furnace pressure can be reduced by setting the furnace pressure lower as the ash processing amount increases so that the furnace pressure becomes -15 mmH 2 O when the ash processing amount is 8 ton / h. Even if it becomes large, it is possible to suppress the temporary rise in the furnace pressure below a certain value. Therefore it below minus 7mmH 2 O in the case of the furnace pressure in FIG. 4, for example.
【0023】[0023]
【発明の効果】このように本発明の灰溶融炉の炉内圧力
制御方法によれば、焼却灰の処理量に従い炉内圧力を設
定するようにしたことで、処理量が少ないときは炉内圧
力の設定値を高めにすることで常時炉内圧力が低くなり
すぎないようにし、処理量が多いときは炉内圧力の設定
値を低くすることで大きな脈動によつても炉内圧力が一
定値以上に上昇しないようにできるので、外気の侵入を
防いで省エネルギー化が達成できると共に、炉内排ガス
の漏洩が防止され安全運転にも貢献できる有益な効果が
ある。As described above, according to the method for controlling the in-furnace pressure of the ash melting furnace of the present invention, the in-furnace pressure is set according to the treatment amount of incinerated ash, so that when the treatment amount is small, the inside of the furnace is reduced. By raising the set value of the pressure to prevent the pressure inside the furnace from becoming too low at all times, and when the throughput is large, the set value of the pressure inside the furnace is set low to keep the pressure inside the furnace constant even with large pulsations. Since it can be prevented from rising above the value, it is possible to prevent invasion of outside air to achieve energy saving, prevent leakage of exhaust gas in the furnace, and contribute to safe operation.
【図1】本発明の一実施例を示す灰溶融炉の給排気系統
図。FIG. 1 is a supply / exhaust system diagram of an ash melting furnace showing an embodiment of the present invention.
【図2】灰処理量と炉内圧力設定値との関係を示した線
図。FIG. 2 is a diagram showing a relationship between an ash processing amount and a furnace pressure setting value.
【図3】制御方法のフローチャート。FIG. 3 is a flowchart of a control method.
【図4】炉内圧力の変動を示した線図。FIG. 4 is a diagram showing fluctuations in furnace pressure.
1 灰溶融炉 2 電極棒 3 溶融スラグ 4 出滓口 5 焼却灰 6 処理量設定器 13 排ガス管 16 炉内圧調節ダンパ 17 排気ファン 18 圧力計 19 コントローラ 20 炉内圧力設定器 1 Ash melting furnace 2 Electrode rod 3 Molten slag 4 Slag mouth 5 Incineration ash 6 Treatment amount setting device 13 Exhaust gas pipe 16 Reactor pressure adjusting damper 17 Exhaust fan 18 Pressure gauge 19 Controller 20 Reactor pressure setting device
Claims (1)
焼却灰を溶融する灰溶融炉において、焼却灰の処理量を
予め設定する処理量設定器と、焼却灰の処理量に対して
炉内圧力を設定する炉内圧力設定器と、炉内圧力計と炉
内圧調節ダンパを具備し、焼却灰の溶融処理量の設定に
より炉内圧力を設定し、更に炉内圧力を計測し、その計
測値が上記設定値を保つように炉内圧調節ダンパを調節
するようにしたことを特徴とする灰溶融炉の炉内圧力制
御方法。1. In an ash melting furnace for melting incinerated ash such as municipal solid waste that is continuously charged into the furnace, a throughput setting device for presetting the throughput of incineration ash and a throughput of incineration ash It is equipped with an in-furnace pressure setter that sets the in-furnace pressure, an in-furnace pressure gauge, and an in-furnace pressure adjustment damper.The in-furnace pressure is set by setting the amount of incinerated ash melted and the in-furnace pressure is measured. And a furnace pressure control method for an ash melting furnace, characterized in that a furnace pressure control damper is adjusted so that the measured value maintains the set value.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3285625A JP3052496B2 (en) | 1991-10-04 | 1991-10-04 | Pressure control method in ash melting furnace |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3285625A JP3052496B2 (en) | 1991-10-04 | 1991-10-04 | Pressure control method in ash melting furnace |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0599416A true JPH0599416A (en) | 1993-04-20 |
| JP3052496B2 JP3052496B2 (en) | 2000-06-12 |
Family
ID=17693956
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP3285625A Expired - Fee Related JP3052496B2 (en) | 1991-10-04 | 1991-10-04 | Pressure control method in ash melting furnace |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3052496B2 (en) |
-
1991
- 1991-10-04 JP JP3285625A patent/JP3052496B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JP3052496B2 (en) | 2000-06-12 |
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