JP2011252669A - Combustion control method of heat storage combustion type heat treating furnace - Google Patents

Combustion control method of heat storage combustion type heat treating furnace Download PDF

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JP2011252669A
JP2011252669A JP2010127569A JP2010127569A JP2011252669A JP 2011252669 A JP2011252669 A JP 2011252669A JP 2010127569 A JP2010127569 A JP 2010127569A JP 2010127569 A JP2010127569 A JP 2010127569A JP 2011252669 A JP2011252669 A JP 2011252669A
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combustion
heat storage
fuel gas
supply pipe
regenerative
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JP5404532B2 (en
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Yasuyuki Kimoto
康之 木本
Hidehito Makuya
秀人 幕谷
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Chugai Ro Co Ltd
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Chugai Ro Co Ltd
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Priority to TW100115903A priority patent/TWI447331B/en
Priority to CN201110150831.3A priority patent/CN102269518B/en
Priority to KR1020110052028A priority patent/KR101430790B1/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23NREGULATING OR CONTROLLING COMBUSTION
    • F23N1/00Regulating fuel supply
    • F23N1/02Regulating fuel supply conjointly with air supply
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D14/00Burners for combustion of a gas, e.g. of a gas stored under pressure as a liquid
    • F23D14/20Non-premix gas burners, i.e. in which gaseous fuel is mixed with combustion air on arrival at the combustion zone
    • F23D14/22Non-premix gas burners, i.e. in which gaseous fuel is mixed with combustion air on arrival at the combustion zone with separate air and gas feed ducts, e.g. with ducts running parallel or crossing each other
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D14/00Burners for combustion of a gas, e.g. of a gas stored under pressure as a liquid
    • F23D14/46Details, e.g. noise reduction means
    • F23D14/66Preheating the combustion air or gas
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23LSUPPLYING AIR OR NON-COMBUSTIBLE LIQUIDS OR GASES TO COMBUSTION APPARATUS IN GENERAL ; VALVES OR DAMPERS SPECIALLY ADAPTED FOR CONTROLLING AIR SUPPLY OR DRAUGHT IN COMBUSTION APPARATUS; INDUCING DRAUGHT IN COMBUSTION APPARATUS; TOPS FOR CHIMNEYS OR VENTILATING SHAFTS; TERMINALS FOR FLUES
    • F23L15/00Heating of air supplied for combustion
    • F23L15/02Arrangements of regenerators
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D2208/00Control devices associated with burners
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E20/00Combustion technologies with mitigation potential
    • Y02E20/34Indirect CO2mitigation, i.e. by acting on non CO2directly related matters of the process, e.g. pre-heating or heat recovery

Abstract

PROBLEM TO BE SOLVED: To provide a combustion control method of a heat storage combustion type heat treating furnace which, when changing a combustion operation and a heat storage operation in a pair of heat storage type burners by turns, regulates the quantity of fuel gas or air for combustion supplied from a fuel gas supply pipe or an air supply pipe constant in the heat storage type burners and appropriately stabilizes combustion.SOLUTION: When changing the combustion operation and the heat storage operation in the pair of heat storage type burners, the supply quantities of fuel gas and air for combustion supplied from a combustion gas supply pipe and an air supply pipe are reduced from a normal burning state in a heat storage type burner 20a in burning operation, while the supply quantities the fuel gas and the air vor coumustion supplied from the combustion gas supply pipe and the air supply pipe are increased from a stopping state in a heat storage type burner 20b in heat storage operation, thereby regulating the supply quantities of the fuel gas and air for combustion supplied from the fuel gas supply pipe and air supply pipe constant in the pair of heat storage type burners.

Description

本発明は、燃料ガス供給管を備えたバーナ部と、蓄熱材を収容させた蓄熱室と、蓄熱室に燃焼用空気を供給する空気供給管と、蓄熱室から燃焼排ガスを排出させる排ガス排出管とを有する少なくとも一対の蓄熱式バーナが設けられ、一方の蓄熱式バーナにおいて、空気供給管から蓄熱室を通して燃焼用空気をバーナ部に導くと共に、このバーナ部における燃料ガス供給管から燃料ガスを噴射させて燃焼動作を行う一方、他方の蓄熱式バーナにおいて、燃焼排ガスを上記の蓄熱室に導いて燃焼排ガスの熱を蓄熱材に蓄熱させて排ガス排出管から排出させる蓄熱動作を行い、この一対の蓄熱式バーナにおける上記の燃焼動作と蓄熱動作とを交互に切り替えるようにした蓄熱燃焼式熱処理炉の燃焼制御方法に関するものである。特に、上記の蓄熱燃焼式熱処理炉において、各蓄熱式バーナにおける燃料ガス供給管から供給される燃料ガスの供給量と、空気供給管から供給される燃焼用空気の供給量とを一定化させて、適切な燃焼が安定して行えるようにした点に特徴を有するものである。   The present invention relates to a burner section provided with a fuel gas supply pipe, a heat storage chamber containing a heat storage material, an air supply pipe for supplying combustion air to the heat storage chamber, and an exhaust gas discharge pipe for discharging combustion exhaust gas from the heat storage chamber And at least one pair of regenerative burners, wherein one of the regenerative burners guides combustion air from the air supply pipe through the heat storage chamber to the burner section and injects fuel gas from the fuel gas supply pipe in the burner section. On the other hand, in the other regenerative burner, the regenerative burner conducts a regenerative operation in which the flue gas is guided to the heat storage chamber and the heat of the flue gas is stored in the heat storage material and discharged from the exhaust gas discharge pipe. The present invention relates to a combustion control method for a heat storage combustion heat treatment furnace in which the above-described combustion operation and heat storage operation in a heat storage burner are alternately switched. In particular, in the above heat storage combustion heat treatment furnace, the supply amount of the fuel gas supplied from the fuel gas supply pipe in each heat storage burner and the supply amount of the combustion air supplied from the air supply pipe are made constant. It is characterized in that appropriate combustion can be performed stably.

従来から、被処理材を熱処理するにあたり、燃料ガス供給管を備えたバーナ部と、蓄熱材を収容させた蓄熱室と、蓄熱室に燃焼用空気を供給する空気供給管と、蓄熱室から燃焼排ガスを排出させる排ガス排出管とを有する少なくとも一対の蓄熱式バーナが設けられた蓄熱燃焼式熱処理炉を用い、一方の蓄熱式バーナにおいて、空気供給管から蓄熱室を通して燃焼用空気をバーナ部に導くと共に、このバーナ部における燃料ガス供給管から燃料ガスを噴射させて燃焼動作を行う一方、他方の蓄熱式バーナにおいて、燃焼排ガスを上記の蓄熱室に導いて、燃焼排ガスの熱を蓄熱材に蓄熱させて排ガス排出管から排出させる蓄熱動作を行い、この一対の蓄熱式バーナにおける上記の燃焼動作と蓄熱動作とを交互に切り替えることが行われている。   Conventionally, when heat treating a material to be treated, a burner unit provided with a fuel gas supply pipe, a heat storage chamber containing a heat storage material, an air supply pipe supplying combustion air to the heat storage chamber, and combustion from the heat storage chamber Using a regenerative combustion heat treatment furnace provided with at least a pair of regenerative burners having exhaust gas discharge pipes for discharging exhaust gas, and in one regenerative burner, the combustion air is led from the air supply pipe to the burner section through the regenerative chamber. At the same time, the combustion operation is performed by injecting fuel gas from the fuel gas supply pipe in the burner section, while in the other heat storage type burner, the combustion exhaust gas is guided to the heat storage chamber, and the heat of the combustion exhaust gas is stored in the heat storage material. Thus, a heat storage operation for discharging from the exhaust gas discharge pipe is performed, and the combustion operation and the heat storage operation in the pair of heat storage burners are alternately switched.

また、上記の蓄熱燃焼式熱処理炉において、被処理材を連続して熱処理するため、上記の熱処理炉に複数対の蓄熱式バーナを設け、各対の蓄熱式バーナにおいて、燃焼動作と蓄熱動作とを切り替えるタイミングを異ならせるようにしたものも用いられている。   Further, in the above heat storage combustion type heat treatment furnace, in order to continuously heat treat the material to be treated, a plurality of pairs of heat storage burners are provided in the heat treatment furnace, and in each pair of heat storage burners, combustion operation and heat storage operation are performed. What changed the timing which switches is also used.

また、上記の蓄熱燃焼式熱処理炉において、上記の各蓄熱式バーナにおける燃料ガス供給管に燃料ガスを供給するにあたり、一定量の燃料ガスを供給する燃料ガス供給装置から各燃料ガス供給管に燃料ガスを供給させることが一般に行われている。   Further, in the above-described heat storage combustion heat treatment furnace, when supplying fuel gas to the fuel gas supply pipe in each of the above heat storage burners, fuel is supplied to each fuel gas supply pipe from a fuel gas supply device that supplies a certain amount of fuel gas. In general, gas is supplied.

ここで、上記のような蓄熱燃焼式熱処理炉において、一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを交互に切り替えるにあたり、従来においては、特許文献1,2に示されるように、燃焼動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給を停止させた後、空気供給管における燃焼用空気の供給を停止させる一方、蓄熱動作中の蓄熱式バーナにおいて、空気供給管における燃焼用空気の供給を開始させた後、燃料ガス供給管における燃料ガスの供給を開始させるようにしたものが示されている。   Here, in the heat storage combustion type heat treatment furnace as described above, when alternately switching between the combustion operation and the heat storage operation in the pair of heat storage type burners, conventionally, as shown in Patent Documents 1 and 2, during the combustion operation, In the regenerative burner, after stopping the supply of fuel gas in the fuel gas supply pipe, the supply of combustion air in the air supply pipe is stopped, while in the regenerative burner during the heat storage operation, for the combustion in the air supply pipe In the figure, the supply of fuel gas in the fuel gas supply pipe is started after the supply of air is started.

しかし、上記のように蓄熱燃焼式熱処理炉に複数対の蓄熱式バーナを設け、各対の蓄熱式バーナにおいて、燃焼動作と蓄熱動作とを切り替えるタイミングを異ならせると共に、燃料ガス供給装置から一定量の燃料ガスを各燃料ガス供給管に供給させるようにした蓄熱燃焼式熱処理炉の場合、燃焼動作と蓄熱動作との切り替えを行う一対の蓄熱式バーナにおいては、上記のように燃料ガス供給管を通してから供給される燃料ガスの量が一時的に停止する結果、燃料ガス供給装置から他の蓄熱式バーナ対における燃料ガス供給管に供給される燃料ガスの量が増加するようになる。このため、他の蓄熱式バーナ対においては、燃焼用空気に対する燃料ガスの比率が高くなって、燃焼状態が変動し、適切な燃焼を安定して行うことができなくなるという問題があった。特に、上記の燃料ガスとして、燃焼性の悪いガス、例えばプロパンガスを使用した場合、燃焼用空気に対するプロパンガスの比率が高くなると、不完全燃焼による黒煙(煤)が発生して、環境上問題が生じたり、被処理材に煤が付着して熱処理が適切に行えなくなったりするという問題があった。   However, as described above, a plurality of pairs of regenerative burners are provided in the regenerative combustion heat treatment furnace, and in each pair of regenerative burners, the timing for switching between the combustion operation and the heat storage operation is different, and a certain amount is supplied from the fuel gas supply device. In the case of a regenerative combustion heat treatment furnace in which the fuel gas is supplied to each fuel gas supply pipe, in a pair of regenerative burners that switch between the combustion operation and the heat storage operation, the fuel gas supply pipe is passed through as described above. As a result of the temporary stop of the amount of fuel gas supplied from the fuel gas supply device, the amount of fuel gas supplied from the fuel gas supply device to the fuel gas supply pipes in the other regenerative burner pairs increases. For this reason, in other regenerative burner pairs, there is a problem that the ratio of the fuel gas to the combustion air increases, the combustion state fluctuates, and appropriate combustion cannot be performed stably. In particular, when a gas with poor flammability, such as propane gas, is used as the above fuel gas, if the ratio of propane gas to combustion air increases, black smoke (soot) is generated due to incomplete combustion, resulting in environmental problems. There has been a problem that a problem arises, or that soot adheres to the material to be treated and heat treatment cannot be performed properly.

特開平10−185176号公報JP-A-10-185176 特開平11−159744号公報JP 11-159744 A

本発明は、燃料ガス供給管を備えたバーナ部と、蓄熱材を収容させた蓄熱室と、蓄熱室に燃焼用空気を供給する空気供給管と、蓄熱室から燃焼排ガスを排出させる排ガス排出管とを有する少なくとも一対の蓄熱式バーナが設けられ、一方の蓄熱式バーナにおいて、空気供給管から蓄熱室を通して燃焼用空気をバーナ部に導くと共に、このバーナ部における燃料ガス供給管から燃料ガスを噴射させて燃焼動作を行う一方、他方の蓄熱式バーナにおいて、燃焼排ガスを上記の蓄熱室に導いて燃焼排ガスの熱を蓄熱材に蓄熱させて排ガス排出管から排出させる蓄熱動作を行い、この一対の蓄熱式バーナにおける上記の燃焼動作と蓄熱動作とを交互に切り替えるようにした蓄熱燃焼式熱処理炉における上記のような問題を解決することを課題とするものである。   The present invention relates to a burner section provided with a fuel gas supply pipe, a heat storage chamber containing a heat storage material, an air supply pipe for supplying combustion air to the heat storage chamber, and an exhaust gas discharge pipe for discharging combustion exhaust gas from the heat storage chamber And at least one pair of regenerative burners, wherein one of the regenerative burners guides combustion air from the air supply pipe through the heat storage chamber to the burner section and injects fuel gas from the fuel gas supply pipe in the burner section. On the other hand, in the other regenerative burner, the regenerative burner conducts a regenerative operation in which the flue gas is guided to the heat storage chamber and the heat of the flue gas is stored in the heat storage material and discharged from the exhaust gas discharge pipe. It is also an object to solve the above problems in a heat storage combustion heat treatment furnace in which the above combustion operation and heat storage operation in the heat storage burner are alternately switched. It is.

すなわち、本発明においては、一対の蓄熱式バーナにおける上記の燃焼動作と蓄熱動作とを交互に切り替えるにあたり、各蓄熱式バーナにおける燃料ガス供給管から供給される燃料ガスの供給量と、空気供給管から供給される燃焼用空気の供給量とを一定化させて、適切な燃焼が安定して行えるようにすることを課題とするものである。   That is, in the present invention, when the combustion operation and the heat storage operation in the pair of heat storage burners are alternately switched, the supply amount of the fuel gas supplied from the fuel gas supply pipe in each heat storage burner and the air supply pipe An object of the present invention is to stabilize the supply amount of the combustion air supplied from the engine so that appropriate combustion can be stably performed.

本発明においては、上記のような課題を解決するため、燃料ガス供給管を備えたバーナ部と、蓄熱材を収容させた蓄熱室と、蓄熱室に燃焼用空気を供給する空気供給管と、蓄熱室から燃焼排ガスを排出させる排ガス排出管とを有する少なくとも一対の蓄熱式バーナが設けられ、一方の蓄熱式バーナにおいて、空気供給管から蓄熱室を通して燃焼用空気をバーナ部に導くと共に、このバーナ部における燃料ガス供給管から燃料ガスを噴射させて燃焼動作を行う一方、他方の蓄熱式バーナにおいて、燃焼排ガスを上記の蓄熱室に導いて燃焼排ガスの熱を蓄熱材に蓄熱させて排ガス排出管から排出させる蓄熱動作を行い、この一対の蓄熱式バーナにおける上記の燃焼動作と蓄熱動作とを交互に切り替える蓄熱燃焼式熱処理炉の燃焼制御方法において、上記の一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを切り替えるにあたり、燃焼動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを定常燃焼状態から減少させる一方、蓄熱動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを停止状態から増加させ、上記の一対の蓄熱式バーナにおいて、燃料ガス供給管から供給される燃料ガスの供給量と、空気供給管から供給される燃焼用空気の供給量とを一定化させるようにした。   In the present invention, in order to solve the problems as described above, a burner portion provided with a fuel gas supply pipe, a heat storage chamber containing a heat storage material, an air supply pipe for supplying combustion air to the heat storage chamber, At least a pair of regenerative burners having an exhaust gas discharge pipe for discharging combustion exhaust gas from the heat storage chamber is provided. In one heat storage burner, the combustion air is led from the air supply pipe through the heat storage chamber to the burner section. The fuel gas is injected from the fuel gas supply pipe in the section to perform the combustion operation, while in the other heat storage burner, the combustion exhaust gas is guided to the heat storage chamber, and the heat of the combustion exhaust gas is stored in the heat storage material, and the exhaust gas discharge pipe In a combustion control method for a heat storage combustion heat treatment furnace that performs a heat storage operation to be discharged from the combustion chamber and alternately switches between the combustion operation and the heat storage operation in the pair of heat storage burners. In switching between the combustion operation and the heat storage operation in the pair of heat storage burners, in the heat storage burner during the combustion operation, the supply amount of the fuel gas in the fuel gas supply pipe, the supply amount of the combustion air in the air supply pipe, In the regenerative burner during the heat storage operation, the fuel gas supply amount in the fuel gas supply pipe and the combustion air supply amount in the air supply pipe are increased from the stopped state, In the pair of regenerative burners, the supply amount of the fuel gas supplied from the fuel gas supply pipe and the supply amount of the combustion air supplied from the air supply pipe are made constant.

ここで、上記のように一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを切り替えるにあたり、燃焼動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを減少させる一方、蓄熱動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを増加させ、上記の一対の蓄熱式バーナにおいて、燃料ガス供給管から供給される燃料ガスの供給量と、空気供給管から供給される燃焼用空気の供給量とを一定化させると、燃焼動作と蓄熱動作との切り替え時においても、この一対の蓄熱式バーナにより蓄熱燃焼式熱処理炉に供給される燃料ガスの量と燃焼用空気の量及びその割合が一定化して、適切な燃焼が安定して行えるようになる。   Here, when switching between the combustion operation and the heat storage operation in the pair of heat storage type burners as described above, in the heat storage type burner during the combustion operation, the fuel gas supply amount in the fuel gas supply pipe and the combustion in the air supply pipe While reducing the supply amount of air, in the regenerative burner during the heat storage operation, the supply amount of fuel gas in the fuel gas supply pipe and the supply amount of combustion air in the air supply pipe are increased. In the regenerative burner, when the supply amount of the fuel gas supplied from the fuel gas supply pipe and the supply amount of the combustion air supplied from the air supply pipe are made constant, at the time of switching between the combustion operation and the heat storage operation However, with this pair of regenerative burners, the amount of fuel gas and the amount of combustion air supplied to the regenerative combustion heat treatment furnace and the ratio thereof are made constant so that proper combustion is stabilized. Obtain as to become.

ここで、上記の蓄熱燃焼式熱処理炉としては、複数対の蓄熱式バーナを設け、各対の蓄熱式バーナにおいて、燃焼動作と蓄熱動作とを切り替えるタイミングを異ならせるようにしたものを用いることもできる。   Here, as the heat storage combustion type heat treatment furnace, a plurality of pairs of heat storage type burners may be provided, and in each pair of heat storage type burners, the timing for switching between the combustion operation and the heat storage operation may be different. it can.

また、本発明の蓄熱燃焼式熱処理炉の燃焼制御方法においては、一定量の燃料ガスを供給する燃料ガス供給装置から各蓄熱式バーナにおける燃料ガス供給管に燃料ガスを供給させるようにすることができる。この場合においても、上記のように燃焼動作と蓄熱動作との切り替えを行う一対の蓄熱式バーナにおいて、燃料ガス供給管から供給される燃料ガスの供給量と、空気供給管から供給される燃焼用空気の供給量とが一定化されるため、蓄熱燃焼式熱処理炉内に一定した量の燃料ガスと燃焼用空気とが供給されるようになる。   In the combustion control method for a regenerative heat treatment furnace according to the present invention, the fuel gas may be supplied from a fuel gas supply device that supplies a constant amount of fuel gas to a fuel gas supply pipe in each regenerative burner. it can. Even in this case, in the pair of regenerative burners that switch between the combustion operation and the heat storage operation as described above, the supply amount of the fuel gas supplied from the fuel gas supply pipe and the combustion supply supplied from the air supply pipe Since the supply amount of air is constant, a constant amount of fuel gas and combustion air are supplied into the regenerative combustion heat treatment furnace.

また、上記のように蓄熱燃焼式熱処理炉に複数対の蓄熱式バーナを設け、各対の蓄熱式バーナにおいて、燃焼動作と蓄熱動作とを切り替えるタイミングを異ならせた場合においても、上記のように燃焼動作と蓄熱動作との切り替えを行う一対の蓄熱式バーナにおいて、一定した量の燃料ガスと燃焼用空気とが供給される結果、上記の燃料ガス供給装置から他の蓄熱式バーナ対における燃料ガス供給管に供給される燃料ガスの量が増加するということがなく、他の蓄熱式バーナ対においても、燃焼用空気に対する燃料ガスの比率が一定に保たれるようになる。   Also, as described above, even when multiple pairs of regenerative burners are provided in the regenerative combustion heat treatment furnace as described above and the timing for switching between the combustion operation and the heat storage operation is different in each pair of regenerative burners, as described above. In a pair of regenerative burners that switch between combustion operation and regenerative operation, a constant amount of fuel gas and combustion air are supplied, so that the fuel gas in the other regenerative burner pair is supplied from the fuel gas supply device. The amount of the fuel gas supplied to the supply pipe does not increase, and the ratio of the fuel gas to the combustion air is kept constant also in other heat storage burner pairs.

また、本発明の蓄熱燃焼式熱処理炉の燃焼制御方法においては、一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを切り替えるにあたり、燃焼動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給と、空気供給管における燃焼用空気の供給を停止させた後、排ガス排出管から燃焼排ガスを排出させるようにする一方、蓄熱動作中の蓄熱式バーナにおいて、排ガス排出管から燃焼排ガスを排出させる操作を停止した後、燃料ガス供給管における燃料ガスの供給と、空気供給管における燃焼用空気の供給とを開始させるようにすることが好ましい。このようにすると、燃焼動作と蓄熱動作とを切り替える際に、切替弁等による切り替え動作中に、空気供給管から蓄熱室に導かれる燃焼用空気の一部が、蓄熱室に行かずに排ガス排出管を通して排出されるのが確実に防止され、蓄熱燃焼式熱処理炉内に供給される燃料ガスと燃焼用空気との割合がより一定した状態になる。   Further, in the combustion control method of the heat storage combustion type heat treatment furnace of the present invention, when switching between the combustion operation and the heat storage operation in the pair of heat storage burners, the fuel gas in the fuel gas supply pipe is switched in the heat storage burner during the combustion operation. After the supply and supply of combustion air in the air supply pipe are stopped, the combustion exhaust gas is discharged from the exhaust gas discharge pipe, while the combustion exhaust gas is discharged from the exhaust gas discharge pipe in the heat storage burner during the heat storage operation. After the operation is stopped, it is preferable to start supply of fuel gas in the fuel gas supply pipe and supply of combustion air in the air supply pipe. In this way, when switching between the combustion operation and the heat storage operation, part of the combustion air led from the air supply pipe to the heat storage chamber during the switching operation by the switching valve or the like does not go to the heat storage chamber and exhausts the exhaust gas. Exhaust through the pipe is reliably prevented, and the ratio of the fuel gas and the combustion air supplied into the regenerative combustion heat treatment furnace becomes more constant.

本発明における蓄熱燃焼式熱処理炉の燃焼制御方法においては、上記のように一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを切り替えるにあたり、燃焼動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを減少させる一方、蓄熱動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを増加させ、上記の一対の蓄熱式バーナ全体において、燃料ガス供給管から供給される燃料ガスの供給量と、空気供給管から供給される燃焼用空気の供給量とを一定化させるようにしたため、燃焼動作と蓄熱動作との切り替え時においても、蓄熱燃焼式熱処理炉内に一定した量の燃料ガスと燃焼用空気とが供給されるようになる。   In the combustion control method of the heat storage combustion heat treatment furnace according to the present invention, when switching between the combustion operation and the heat storage operation in the pair of heat storage burners as described above, in the heat storage burner during the combustion operation, the fuel in the fuel gas supply pipe While reducing the gas supply amount and the combustion air supply amount in the air supply pipe, in the heat storage burner during the heat storage operation, the fuel gas supply amount in the fuel gas supply pipe and the combustion air in the air supply pipe The amount of fuel gas supplied from the fuel gas supply pipe and the amount of combustion air supplied from the air supply pipe are made constant throughout the pair of regenerative burners. Therefore, even when switching between the combustion operation and the heat storage operation, a constant amount of fuel gas and combustion air are supplied into the heat storage combustion heat treatment furnace. So as to.

この結果、一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを切り替える際においても、蓄熱燃焼式熱処理炉において燃焼状態が変化するのが抑制され、適切な燃焼が安定して行えるようになる。   As a result, even when switching between the combustion operation and the heat storage operation in the pair of heat storage burners, the change of the combustion state in the heat storage combustion heat treatment furnace is suppressed, and appropriate combustion can be stably performed.

また、一定量の燃料ガスを供給する燃料ガス供給装置から各蓄熱式バーナにおける燃料ガス供給管に燃料ガスを供給させる場合においても、上記のように燃焼動作と蓄熱動作との切り替えを行う一対の蓄熱式バーナにおいて、一定した量の燃料ガスと燃焼用空気とが蓄熱燃焼式熱処理炉内に供給されるため、燃料ガス供給装置から各蓄熱式バーナに供給される燃料ガスの合計量が変動するということなく、適切な燃焼が安定して行えるようになる。   In addition, when fuel gas is supplied from a fuel gas supply device that supplies a certain amount of fuel gas to a fuel gas supply pipe in each regenerative burner, a pair of switching between the combustion operation and the heat storage operation is performed as described above. In the regenerative burner, since a constant amount of fuel gas and combustion air are supplied into the regenerative combustion heat treatment furnace, the total amount of fuel gas supplied from the fuel gas supply device to each regenerative burner varies. Rather, proper combustion can be performed stably.

また、蓄熱燃焼式熱処理炉に複数対の蓄熱式バーナを設け、各対の蓄熱式バーナにおいて、燃焼動作と蓄熱動作とを切り替えるタイミングを異ならせた場合においても、上記のように燃料ガス供給装置から他の蓄熱式バーナ対における燃料ガス供給管に供給される燃料ガスの量が増加するということがなく、他の蓄熱式バーナ対においても、燃焼用空気に対する燃料ガスの比率が一定に保たれて、適切な燃焼が安定して行えるようになる。このため、燃料ガス供給管から供給させる燃料ガスに燃焼性の悪いプロパンガス等を用いた場合にも、黒煙(煤)が発生するのが防止され、環境上問題が生じたり、被処理材に煤が付着したりするということがなくなる。   Further, even when a plurality of pairs of regenerative burners are provided in the regenerative combustion heat treatment furnace and the timing for switching between the combustion operation and the heat storage operation is different in each pair of regenerative burners, the fuel gas supply device as described above Therefore, the amount of fuel gas supplied to the fuel gas supply pipe in the other regenerative burner pair is not increased, and the ratio of the fuel gas to the combustion air is kept constant in the other regenerative burner pair. Thus, proper combustion can be stably performed. For this reason, even when propane gas or the like having poor flammability is used as the fuel gas supplied from the fuel gas supply pipe, black smoke (soot) is prevented from being generated, causing environmental problems, No wrinkles are attached to the surface.

本発明の一実施形態に係る蓄熱燃焼式熱処理炉の燃焼制御方法において、蓄熱燃焼式熱処理炉の内部状態を示した概略断面図である。In the combustion control method of the regenerative combustion type heat treatment furnace according to one embodiment of the present invention, it is a schematic sectional view showing the internal state of the regenerative combustion type heat treatment furnace. 同実施形態において、上記の蓄熱燃焼式熱処理炉の概略平面図である。In the same embodiment, it is a schematic plan view of said regenerative combustion heat treatment furnace. 同実施形態において、一対の蓄熱式バーナにおける一方の蓄熱式バーナで燃焼動作を行う一方、他方の蓄熱式バーナで蓄熱動作を行う状態を示した概略説明図である。In the embodiment, it is the schematic explanatory drawing which showed the state which performs a combustion operation | movement with one heat storage type burner in a pair of heat storage type burners, and performs a heat storage operation | movement with the other heat storage type burner. 同実施形態において、各対の蓄熱式バーナにおけるそれぞれの蓄熱式バーナにおいて燃焼動作と蓄熱動作とを切り替える動作を示したタイムチャートである。In the same embodiment, it is the time chart which showed the operation | movement which switches combustion operation | movement and heat storage operation | movement in each heat storage type burner in each pair of heat storage type burners.

以下、本発明の実施形態に係る蓄熱燃焼式熱処理炉の燃焼制御方法を添付図面に基づいて具体的に説明する。なお、本発明に係る蓄熱燃焼式熱処理炉の燃焼制御方法は、特に下記の実施形態に示したものに限定されず、発明の要旨を変更しない範囲において、適宜変更して実施できるものである。   Hereinafter, a combustion control method for a regenerative combustion heat treatment furnace according to an embodiment of the present invention will be specifically described with reference to the accompanying drawings. In addition, the combustion control method for the regenerative combustion heat treatment furnace according to the present invention is not particularly limited to the one shown in the following embodiment, and can be implemented with appropriate modifications within a range not changing the gist of the invention.

ここで、この実施形態においては、図1に示すように、蓄熱燃焼式熱処理炉10の入口11から蓄熱燃焼式熱処理炉10内に導かれた鋼材からなる被処理材1を、ウォーキングビーム2により蓄熱燃焼式熱処理炉10内において搬送させて熱処理し、このように熱処理された被処理材1を蓄熱燃焼式熱処理炉10の出口12を通して蓄熱燃焼式熱処理炉10から取り出すようにしている。   Here, in this embodiment, as shown in FIG. 1, the workpiece 1 made of steel led from the inlet 11 of the regenerative combustion heat treatment furnace 10 into the regenerative combustion heat treatment furnace 10 is moved by the walking beam 2. The heat treatment material 10 is conveyed and heat-treated in the regenerative combustion heat treatment furnace 10, and the material 1 thus heat treated is taken out from the regenerative combustion heat treatment furnace 10 through the outlet 12 of the regenerative combustion heat treatment furnace 10.

そして、この実施形態においては、図2に示すように、上記の蓄熱燃焼式熱処理炉10において、バーナ部21と蓄熱室22とを有する一対の蓄熱式バーナ20が対向するようにして、上記の被処理材1の移動方向に沿って蓄熱燃焼式熱処理炉10に4対の蓄熱式バーナ20を設けると共に、一定量の燃料ガスを供給する燃料ガス供給装置30から各蓄熱式バーナ20におけるバーナ部21に対して燃料ガスを供給するようにしている。   In this embodiment, as shown in FIG. 2, in the above-described heat storage combustion heat treatment furnace 10, the pair of heat storage burners 20 having the burner portion 21 and the heat storage chamber 22 are opposed to each other. 4 pairs of regenerative burners 20 are provided in the regenerative combustion heat treatment furnace 10 along the moving direction of the workpiece 1 and a burner section in each regenerative burner 20 from a fuel gas supply device 30 that supplies a certain amount of fuel gas. The fuel gas is supplied to 21.

ここで、上記の一対の蓄熱式バーナ20においては、図3に示すように、一方の蓄熱式バーナ20aにおいて、蓄熱材23aが収容された蓄熱室22aに燃焼用空気を供給する空気供給管24aに設けられた空気供給用バルブ25aを開く一方、蓄熱室22aを通して燃焼排ガスを排出する排ガス排出管26aに設けられたガス排出用バルブ27aを閉じ、上記の空気供給管24aを通して蓄熱室22a内に導いた燃焼用空気をこの蓄熱室22a内に収容された蓄熱材23aによって加熱させる。   Here, in the pair of heat storage burners 20, as shown in FIG. 3, in one heat storage burner 20a, an air supply pipe 24a that supplies combustion air to the heat storage chamber 22a in which the heat storage material 23a is accommodated. Open the air supply valve 25a provided in the exhaust gas, close the gas discharge valve 27a provided in the exhaust gas discharge pipe 26a for discharging the combustion exhaust gas through the heat storage chamber 22a, and enter the heat storage chamber 22a through the air supply pipe 24a. The guided combustion air is heated by the heat storage material 23a accommodated in the heat storage chamber 22a.

そして、このように加熱された燃焼用空気をバーナ部21aに供給すると共に、このバーナ部21aの中心に設けられた燃料ガス供給管28aに燃料ガスを導くガス供給バルブ29aを開けて、上記の燃料ガス供給装置30から供給された燃料ガスをこの燃料ガス供給管28aから噴射させて、この燃料ガスを蓄熱燃焼式熱処理炉10内において燃焼させる燃焼動作を行うようにする。   Then, the combustion air heated in this way is supplied to the burner portion 21a, and the gas supply valve 29a for introducing the fuel gas to the fuel gas supply pipe 28a provided at the center of the burner portion 21a is opened, and the above-mentioned The fuel gas supplied from the fuel gas supply device 30 is injected from the fuel gas supply pipe 28a, and the combustion operation for burning the fuel gas in the regenerative combustion heat treatment furnace 10 is performed.

一方、他方の蓄熱式バーナ20bにおいては、燃料ガス供給管28bに燃料ガスを供給するガス供給バルブ29b及び空気供給管24bに設けられた空気供給用バルブ25bを閉じて燃焼を行わないようにする一方、蓄熱室22bを通して燃焼排ガスを排出する排ガス排出管26bに設けられたガス排出用バルブ27bを開くようにする。   On the other hand, in the other regenerative burner 20b, the gas supply valve 29b for supplying the fuel gas to the fuel gas supply pipe 28b and the air supply valve 25b provided in the air supply pipe 24b are closed to prevent combustion. On the other hand, the gas discharge valve 27b provided in the exhaust gas discharge pipe 26b for discharging the combustion exhaust gas through the heat storage chamber 22b is opened.

そして、上記のように蓄熱燃焼式熱処理炉10内において燃焼された後の燃焼排ガスを蓄熱室22bに導き、この蓄熱室22bに収容された蓄熱材23bに燃焼排ガスの熱を蓄熱させ、その後、この燃焼排ガスを上記の排ガス排出管26bを通して外部に排出させる蓄熱動作を行うようにする。   Then, the combustion exhaust gas after being burned in the heat storage combustion heat treatment furnace 10 as described above is led to the heat storage chamber 22b, and the heat storage material 23b accommodated in the heat storage chamber 22b is used to store the heat of the combustion exhaust gas, A heat storage operation for discharging the combustion exhaust gas to the outside through the exhaust gas exhaust pipe 26b is performed.

そして、上記の一対の蓄熱式バーナ20a,20bにおいて、上記のような燃焼動作と蓄熱動作とを交互に切り替えて行うようにする。   In the pair of heat storage burners 20a and 20b, the combustion operation and the heat storage operation as described above are alternately switched.

また、各対の蓄熱式バーナ20においても、上記のようにそれぞれ一対の蓄熱式バーナ20a,20bにおいて、上記の燃焼動作と蓄熱動作とを交互に切り替えて行うようにすると共に、各対の蓄熱式バーナ20において、燃焼動作と蓄熱動作とを切り替えるタイミングを異ならせるようにしている。   Also, in each pair of regenerative burners 20, as described above, in each pair of regenerative burners 20a and 20b, the combustion operation and the regenerative operation are alternately switched, and each pair of regenerative burners 20 In the type burner 20, the timing for switching between the combustion operation and the heat storage operation is made different.

次に、上記の各対の蓄熱式バーナ20において、それぞれ一対の蓄熱式バーナ20a,20bにおける燃焼動作と蓄熱動作とを切り替える動作を、図4に示すタイムチャートに基づいて説明する。   Next, an operation of switching between the combustion operation and the heat storage operation in each of the pair of heat storage burners 20a and 20b in each pair of the heat storage burners 20 will be described based on the time chart shown in FIG.

ここで、燃焼動作と蓄熱動作とを切り替えるにあたり、燃焼動作を行っていた蓄熱式バーナ20aにおいては、開いた状態にある空気供給用バルブ25aとガス供給バルブ29aとを閉じる操作を開始して、空気供給管24aから蓄熱室22aを通してバーナ部21aに供給する燃焼用空気の量を徐々に減少させると共に、燃料ガス供給管28aから噴射させる燃料ガスの量を徐々に減少させる。   Here, in switching between the combustion operation and the heat storage operation, in the heat storage burner 20a that was performing the combustion operation, an operation of closing the air supply valve 25a and the gas supply valve 29a in an open state is started, The amount of combustion air supplied from the air supply pipe 24a to the burner portion 21a through the heat storage chamber 22a is gradually reduced, and the amount of fuel gas injected from the fuel gas supply pipe 28a is gradually reduced.

そして、空気供給用バルブ25aとガス供給バルブ29aとが閉じられ、燃焼用空気と燃料ガスとが供給されなくなって燃焼が停止した時点で、閉じられた状態にあるガス排出用バルブ27aを開け、蓄熱室22aに導かれた燃焼排ガスの熱をこの蓄熱室22aに収容された蓄熱材23aに蓄熱させた後、この燃焼排ガスを上記の排ガス排出管26aを通して外部に排出させるようにする。   Then, when the air supply valve 25a and the gas supply valve 29a are closed and the combustion air and the fuel gas are not supplied and the combustion is stopped, the closed gas discharge valve 27a is opened, After the heat of the combustion exhaust gas guided to the heat storage chamber 22a is stored in the heat storage material 23a accommodated in the heat storage chamber 22a, the combustion exhaust gas is discharged to the outside through the exhaust gas discharge pipe 26a.

一方、蓄熱動作を行っていた蓄熱式バーナ20bにおいては、開いた状態にあるガス排出用バルブ27bを閉じて、排ガス排出管26bを通して燃焼排ガスを外部に排出させる動作を停止させた後、上記の蓄熱式バーナ20aにおける空気供給用バルブ25aとガス供給バルブ29aとを閉じる操作の開始させるのと同期させて、閉じた状態にある空気供給用バルブ25bとガス供給バルブ29bとを開ける操作を開始し、空気供給管24bから蓄熱室22bを通してバーナ部21bに供給させる燃焼用空気の量を徐々に増加させると共に、燃料ガス供給管28bから噴射させる燃料ガスの量を徐々に増加させて、燃焼を開始させるようにする。   On the other hand, in the regenerative burner 20b that has been performing the heat accumulating operation, the gas exhaust valve 27b in the opened state is closed and the operation of exhausting the combustion exhaust gas to the outside through the exhaust gas exhaust pipe 26b is stopped, and then the above-mentioned The operation of opening the air supply valve 25b and the gas supply valve 29b in the closed state is started in synchronization with the start of the operation of closing the air supply valve 25a and the gas supply valve 29a in the heat storage burner 20a. The combustion air supplied from the air supply pipe 24b to the burner portion 21b through the heat storage chamber 22b is gradually increased and the amount of fuel gas injected from the fuel gas supply pipe 28b is gradually increased to start combustion. I will let you.

ここで、上記の各空気供給用バルブ25a,25bや各ガス供給バルブ29a,29bの開閉動作には、通常、数秒間を要するので、その間は、燃焼動作を行っていた蓄熱式バーナ20aにおける燃焼用空気や燃料ガスの減少量と、蓄熱動作を行っていた蓄熱式バーナ20bにおける燃焼用空気や燃料ガスの増加量を、常に等しくする制御が必要になる。そして、この実施例においては、図4に示すように、一方の空気供給用バルブ25a及びガス供給バルブ29aを閉じる動作と、他方の空気供給用バルブ25b及びガス供給バルブ29bを開ける動作とを同時に開始し、同じ時間をかけて動作させるようにしている。   Here, since the opening and closing operations of the air supply valves 25a and 25b and the gas supply valves 29a and 29b usually require several seconds, the combustion in the regenerative burner 20a during which the combustion operation was performed during that time. It is necessary to control to always make the amount of decrease in the combustion air and fuel gas equal to the amount of increase in the combustion air and fuel gas in the heat storage burner 20b that has been performing the heat storage operation. In this embodiment, as shown in FIG. 4, the operation of closing one air supply valve 25a and the gas supply valve 29a and the operation of opening the other air supply valve 25b and the gas supply valve 29b are performed simultaneously. Start and let it work over the same time.

ここで、この一対の蓄熱式バーナ20a,20bにおいては、上記のように各燃料ガス供給管28a,28bから供給される燃料ガス全体の供給量と、空気供給管24a,24bから供給される燃焼用空気全体の供給量とが変化しないようにし、一定した量の燃料ガスと燃焼用空気とが供給されるようにしている。   Here, in this pair of regenerative burners 20a and 20b, the supply amount of the entire fuel gas supplied from the fuel gas supply pipes 28a and 28b and the combustion supplied from the air supply pipes 24a and 24b as described above. The supply amount of the entire working air is not changed, and a constant amount of fuel gas and combustion air are supplied.

このようにすると、一対の蓄熱式バーナ20a,20bにおける燃焼動作と蓄熱動作との切り替え時においても、蓄熱燃焼式熱処理炉10に供給される燃料ガスの量と燃焼用空気の量及びその割合が一定化し、適切な燃焼が安定して行えるようになる。   In this way, even when switching between the combustion operation and the heat storage operation in the pair of heat storage burners 20a and 20b, the amount of fuel gas supplied to the heat storage combustion heat treatment furnace 10, the amount of combustion air, and the ratio thereof are It stabilizes and proper combustion can be performed stably.

また、上記のように蓄熱燃焼式熱処理炉10に複数対の蓄熱式バーナ20を設け、一定量の燃料ガスを供給する燃料ガス供給装置30から各対の蓄熱式バーナ20における各燃料ガス供給管28a,28bに燃料ガスを供給させる場合において、上記のように一対の蓄熱式バーナ20a,20bにおける燃焼動作と蓄熱動作との切り替え時においても、この一対の蓄熱式バーナ20a,20b全体において、燃料ガス供給管28a,28bから供給される燃料ガスの供給量が変化しないようにすると、上記の燃料ガス供給装置30から他の蓄熱式バーナ20における各燃料ガス供給管28a,28bに供給される燃料ガスの量が変化するということもなくなる。   Further, as described above, a plurality of pairs of regenerative burners 20 are provided in the regenerative combustion heat treatment furnace 10, and each fuel gas supply pipe in each pair of regenerative burners 20 from a fuel gas supply device 30 that supplies a certain amount of fuel gas. When supplying fuel gas to 28a and 28b, even when switching between the combustion operation and the heat storage operation in the pair of heat storage burners 20a and 20b as described above, the fuel in the entire pair of heat storage burners 20a and 20b If the supply amount of the fuel gas supplied from the gas supply pipes 28a and 28b is not changed, the fuel supplied from the fuel gas supply apparatus 30 to the fuel gas supply pipes 28a and 28b in the other regenerative burner 20 will be described. The amount of gas does not change.

このため、一対の蓄熱式バーナ20a,20bにおける燃焼動作と蓄熱動作との切り替え時に、他の蓄熱式バーナ20において、燃焼用空気に対する燃料ガスの割合が増加して燃焼状態が変化するということがなく、燃料ガスに燃焼性の悪いプロパンガス等を使用した場合においても、従来のように、不完全燃焼による黒煙(煤)が発生して、環境上問題が生じたり、被処理材に煤が付着して熱処理が適切に行えなくなったりするということがなく、適切な燃焼が安定して行えるようになる。   For this reason, at the time of switching between the combustion operation and the heat storage operation in the pair of heat storage burners 20a and 20b, the ratio of the fuel gas to the combustion air increases in the other heat storage burners 20 and the combustion state changes. However, even when propane gas with poor flammability is used as fuel gas, black smoke (soot) is generated due to incomplete combustion as in the past, causing environmental problems and Therefore, proper combustion can be stably performed without causing the heat treatment to be appropriately performed.

また、燃焼動作を行っていた蓄熱式バーナ20aにおいて、上記のように空気供給用バルブ25aとガス供給バルブ29aとが閉じられ、燃焼用空気と燃料ガスとが供給されなくなって燃焼が停止した時点で、閉じられた状態にあるガス排出用バルブ27aを開けるようにすると、空気供給管24aから蓄熱室22aに導かれる燃焼用空気の一部が、蓄熱室22aに行かずにバイパスして排ガス排出管26aを通して排出されるのが防止されるようになる。   Further, in the regenerative burner 20a that was performing the combustion operation, when the air supply valve 25a and the gas supply valve 29a are closed as described above, the combustion air and the fuel gas are not supplied, and the combustion is stopped. When the gas discharge valve 27a in the closed state is opened, a part of the combustion air led from the air supply pipe 24a to the heat storage chamber 22a bypasses the heat storage chamber 22a and is exhausted. It is prevented from being discharged through the pipe 26a.

また、蓄熱動作を行っていた蓄熱式バーナ20bにおいて、上記のように開いた状態にあるガス排出用バルブ27bを閉じた後、閉じた状態にある空気供給用バルブ25bとガス供給バルブ29bとを開けるようにすると、空気供給管24bから蓄熱室22bに導かれる燃焼用空気の一部が、蓄熱室22bに行かずにバイパスして排ガス排出管26bを通して排出されるのが防止されるようになる。   Further, in the regenerative burner 20b that has been performing the heat storage operation, after the gas discharge valve 27b in the open state is closed as described above, the air supply valve 25b and the gas supply valve 29b in the closed state are closed. When opened, a part of the combustion air guided from the air supply pipe 24b to the heat storage chamber 22b is prevented from being bypassed and exhausted through the exhaust gas discharge pipe 26b without going to the heat storage chamber 22b. .

この結果、蓄熱燃焼式熱処理炉10内に供給される燃焼用空気の割合が減少するのが防止され、蓄熱燃焼式熱処理炉10内に供給される燃料ガスと燃焼用空気との割合がより一定した状態になって、より適切な燃焼が安定して行えるようになる。   As a result, the ratio of the combustion air supplied into the heat storage combustion heat treatment furnace 10 is prevented from decreasing, and the ratio of the fuel gas and the combustion air supplied into the heat storage combustion heat treatment furnace 10 is more constant. As a result, more appropriate combustion can be stably performed.

1 被処理材
2 ウォーキングビーム
10 蓄熱燃焼式熱処理炉
11 入口
12 出口
20,20a,20b 蓄熱式バーナ
21,21a,21b バーナ部
22,22a,22b 蓄熱室
23a,23b 蓄熱材
24a,24b 空気供給管
25a,25b 空気供給用バルブ
26a,26b 排ガス排出管
27a,27b ガス排出用バルブ
28a,28b 燃料ガス供給管
29a,29b ガス供給バルブ
30 燃料ガス供給装置 DESCRIPTION OF SYMBOLS 1 Material to be processed 2 Walking beam 10 Thermal storage combustion type heat treatment furnace 11 Inlet 12 Outlet 20, 20a, 20b Thermal storage type burner 21, 21a, 21b Burner part 22, 22a, 22b Thermal storage chamber 23a, 23b Thermal storage material 24a, 24b Air supply pipe 25a, 25b Air supply valve 26a, 26b Exhaust gas discharge pipe 27a, 27b Gas discharge valve 28a, 28b Fuel gas supply pipe 29a, 29b Gas supply valve 30 Fuel gas supply device

Claims (4)

燃料ガス供給管を備えたバーナ部と、蓄熱材を収容させた蓄熱室と、蓄熱室に燃焼用空気を供給する空気供給管と、蓄熱室から燃焼排ガスを排出させる排ガス排出管とを有する少なくとも一対の蓄熱式バーナが設けられ、一方の蓄熱式バーナにおいて、空気供給管から蓄熱室を通して燃焼用空気をバーナ部に導くと共に、このバーナ部における燃料ガス供給管から燃料ガスを噴射させて燃焼動作を行う一方、他方の蓄熱式バーナにおいて、燃焼排ガスを上記の蓄熱室に導いて燃焼排ガスの熱を蓄熱材に蓄熱させて排ガス排出管から排出させる蓄熱動作を行い、この一対の蓄熱式バーナにおける上記の燃焼動作と蓄熱動作とを交互に切り替える蓄熱燃焼式熱処理炉の燃焼制御方法において、上記の一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを切り替えるにあたり、燃焼動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを定常燃焼状態から減少させる一方、蓄熱動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給量と、空気供給管における燃焼用空気の供給量とを停止状態から増加させ、上記の一対の蓄熱式バーナにおいて、燃料ガス供給管から供給される燃料ガスの供給量と、空気供給管から供給される燃焼用空気の供給量とを一定化させることを特徴とする蓄熱燃焼式熱処理炉の燃焼制御方法。   At least a burner section provided with a fuel gas supply pipe, a heat storage chamber containing a heat storage material, an air supply pipe for supplying combustion air to the heat storage chamber, and an exhaust gas discharge pipe for discharging combustion exhaust gas from the heat storage chamber A pair of regenerative burners is provided, and in one regenerative burner, combustion air is guided from the air supply pipe through the heat storage chamber to the burner section, and fuel gas is injected from the fuel gas supply pipe in the burner section to perform combustion operation On the other hand, in the other regenerative burner, the combustion exhaust gas is led to the heat storage chamber, the heat of the combustion exhaust gas is stored in the heat storage material and discharged from the exhaust gas discharge pipe, and the heat storage operation is performed. In the combustion control method of a regenerative combustion heat treatment furnace that alternately switches between the combustion operation and the heat storage operation, the combustion operation and the heat storage operation in the pair of regenerative burners described above In the regenerative burner during the combustion operation, the supply amount of the fuel gas in the fuel gas supply pipe and the supply amount of the combustion air in the air supply pipe are reduced from the steady combustion state while the heat storage operation is being performed. In the regenerative burner, the supply amount of the fuel gas in the fuel gas supply pipe and the supply amount of the combustion air in the air supply pipe are increased from the stopped state and supplied from the fuel gas supply pipe in the pair of regenerative burners. The combustion control method for a regenerative combustion heat treatment furnace is characterized in that the supply amount of the fuel gas to be supplied and the supply amount of the combustion air supplied from the air supply pipe are made constant. 請求項1に記載の蓄熱燃焼式熱処理炉の燃焼制御方法において、上記の蓄熱燃焼式熱処理炉に複数対の蓄熱式バーナが設けられ、各対の蓄熱式バーナにおいて、燃焼動作と蓄熱動作とを切り替えるタイミングが異なっていることを特徴とする蓄熱燃焼式熱処理炉の燃焼制御方法。   In the combustion control method of the heat storage combustion type heat treatment furnace according to claim 1, a plurality of pairs of heat storage burners are provided in the heat storage combustion type heat treatment furnace, and in each pair of heat storage burners, a combustion operation and a heat storage operation are performed. A combustion control method for a regenerative combustion heat treatment furnace, characterized in that the switching timing is different. 請求項1又は請求項2に記載の蓄熱燃焼式熱処理炉の燃焼制御方法において、一定量の燃料ガスを供給する燃料ガス供給装置から、上記の各蓄熱式バーナにおける燃料ガス供給管に燃料ガスを供給させることを特徴とする蓄熱燃焼式熱処理炉の燃焼制御方法。   3. A combustion control method for a regenerative heat treatment furnace according to claim 1 or 2, wherein a fuel gas is supplied from a fuel gas supply device that supplies a constant amount of fuel gas to a fuel gas supply pipe in each of the regenerative burners. A combustion control method for a regenerative combustion heat treatment furnace, characterized by being supplied. 請求項1〜請求項3の何れか1項に記載の蓄熱燃焼式熱処理炉の燃焼制御方法において、一対の蓄熱式バーナにおける燃焼動作と蓄熱動作とを切り替えるにあたり、燃焼動作中の蓄熱式バーナにおいて、燃料ガス供給管における燃料ガスの供給と、空気供給管における燃焼用空気の供給を停止させた後、排ガス排出管から燃焼排ガスを排出させる一方、蓄熱動作中の蓄熱式バーナにおいて、排ガス排出管から燃焼排ガスを排出させる操作を停止した後、燃料ガス供給管における燃料ガスの供給と、空気供給管における燃焼用空気の供給とを開始させることを特徴とする蓄熱燃焼式熱処理炉の燃焼制御方法。
In the combustion control method of the regenerative combustion heat treatment furnace according to any one of claims 1 to 3, in switching between the combustion operation and the heat storage operation in the pair of regenerative burners, in the regenerative burner during the combustion operation After stopping the supply of fuel gas in the fuel gas supply pipe and the supply of combustion air in the air supply pipe, the exhaust gas is discharged from the exhaust gas discharge pipe, while the exhaust gas discharge pipe is used in the heat storage burner during the heat storage operation The combustion control method for a regenerative heat treatment furnace characterized by starting the supply of fuel gas in the fuel gas supply pipe and the supply of combustion air in the air supply pipe after stopping the operation of discharging the combustion exhaust gas from .
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