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JP4180492B2 - Carburizing equipment - Google Patents

Carburizing equipment Download PDF

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JP4180492B2
JP4180492B2 JP2003386233A JP2003386233A JP4180492B2 JP 4180492 B2 JP4180492 B2 JP 4180492B2 JP 2003386233 A JP2003386233 A JP 2003386233A JP 2003386233 A JP2003386233 A JP 2003386233A JP 4180492 B2 JP4180492 B2 JP 4180492B2
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gas
carburizing
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carbon monoxide
hydrocarbon
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JP2005036303A (en
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守 紙谷
裕之 中津
吉計 下里
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Chugai Ro Co Ltd
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Description

この発明は,鋼材部品等の処理材を浸炭処理するのに用いる浸炭処理装置に係り、特に、上記の処理材を高速で浸炭処理できるようにすると共に、高速で浸炭処理するのに用いる一酸化炭素ガスの濃度が高い浸炭用ガスを効率よく安定して製造でき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 carburizing apparatus used for carburizing a processing material such as a steel part , and in particular, enables the above-mentioned processing material to be carburized at a high speed and used for the carburizing process at a high speed. It is characterized in that a carburizing gas having a high carbon gas concentration can be produced efficiently and stably.

従来から低炭素鋼や低合金鋼等の鋼材部品における強度を高めるため、その表面から炭素を内部に拡散浸透させる浸炭処理が施されている。   Conventionally, in order to increase the strength of steel parts such as low carbon steel and low alloy steel, carburizing treatment for diffusing and penetrating carbon from the surface to the inside is performed.

そして、このように鋼材部品等の処理材を浸炭処理するにあたっては、様々な方法が使用されており、例えば、図1に示すように、処理炉2内に処理材1を導入し、この処理炉2内に浸炭用ガス製造装置3から一酸化炭素ガスを含む浸炭用ガスを供給し、この処理炉2内において処理材1を加熱させる加熱工程と、このように加熱された処理材1に炭素を付与して浸炭させる浸炭工程と、このように処理材1に付与された炭素を、表面炭素濃度が所要値になるように処理材1の内部に拡散させる拡散工程と、このように炭素が内部に拡散された処理材1の温度を下げる降温工程とを経て、処理材1を浸炭処理することが行われている。   Various methods are used for carburizing the treatment material such as steel parts in this way. For example, as shown in FIG. 1, the treatment material 1 is introduced into the treatment furnace 2 and this treatment is performed. A carburizing gas containing carbon monoxide gas is supplied from the carburizing gas production apparatus 3 into the furnace 2, and a heating process for heating the processing material 1 in the processing furnace 2, and the processing material 1 heated in this way A carburizing step of imparting carbon to carburize, a diffusion step of diffusing the carbon imparted to the treatment material 1 in this way into the treatment material 1 so that the surface carbon concentration becomes a required value, and thus the carbon Carburizing treatment of the treatment material 1 is performed through a temperature lowering process for lowering the temperature of the treatment material 1 diffused inside.

ここで、上記のように処理炉2内に一酸化炭素ガスを含む浸炭用ガスを供給する浸炭用ガス製造装置3としては、一般に、Ni触媒や、Rh,Pt等の貴金属触媒を収容させた触媒層3aの外周側に加熱装置3bを設け、この加熱装置3bによって触媒層3aを加熱させるようにしたものが用いられている。   Here, as the carburizing gas production apparatus 3 for supplying the carburizing gas containing carbon monoxide gas into the processing furnace 2 as described above, generally a Ni catalyst or a noble metal catalyst such as Rh, Pt is accommodated. A heating device 3b is provided on the outer peripheral side of the catalyst layer 3a, and the catalyst layer 3a is heated by the heating device 3b.

そして、この浸炭用ガス製造装置3においては、ガス供給管3cによって導かれたLNGやLPG等の炭化水素ガスと、空気供給管3dによって導かれた空気とをガスミキサー3eにより混合させ、このように混合させた混合ガスを上記のように加熱された触媒層3a内に導き、この混合ガスを上記の触媒により反応させて一酸化炭素を含む浸炭用ガスを生成し、この浸炭用ガスを処理炉2内に供給するようにしている。   In the carburizing gas production apparatus 3, the hydrocarbon gas such as LNG and LPG guided by the gas supply pipe 3c and the air guided by the air supply pipe 3d are mixed by the gas mixer 3e. The mixed gas mixed in is introduced into the catalyst layer 3a heated as described above, and the mixed gas is reacted with the catalyst to generate a carburizing gas containing carbon monoxide, and the carburizing gas is treated. The gas is supplied into the furnace 2.

しかし、上記のようにLNGやLPG等の炭化水素ガスと空気とを混合させた混合ガスを用いて一酸化炭素ガスを含む浸炭用ガスを生成した場合、空気中には窒素ガスが多く含まれているため、一般に浸炭用ガス中における一酸化炭素ガス濃度は20〜25体積%程度にしかならず、このように一酸化炭素ガス濃度が20〜25体積%になった一酸化炭素ガス濃度の低い浸炭用ガスを用いた場合、処理材1に対する浸炭速度が遅くて、浸炭処理に多くの時間を要するという問題があった。   However, when carburizing gas containing carbon monoxide gas is generated using a mixed gas obtained by mixing hydrocarbon gas such as LNG and LPG and air as described above, the air contains a lot of nitrogen gas. Therefore, in general, the carbon monoxide gas concentration in the carburizing gas is only about 20 to 25% by volume, and thus the carbon monoxide gas concentration is 20 to 25% by volume, and the carburization of the carbon monoxide gas concentration is low. When the working gas is used, there is a problem that the carburizing speed of the treatment material 1 is slow and a long time is required for the carburizing process.

このため、従来においては、処理炉2内に上記の浸炭用ガスとは別にLNGやLPG等の炭化水素ガスを導入する等により、処理炉2内におけるカーボンポテンシャルを高めて、処理材1に対する浸炭速度を速め、処理時間を短縮させることが行われている。   For this reason, conventionally, the carbon potential in the processing furnace 2 is increased by introducing a hydrocarbon gas such as LNG or LPG in addition to the above carburizing gas into the processing furnace 2 to carburize the processing material 1. Increasing the speed and shortening the processing time are being carried out.

しかし、上記のように一酸化炭素ガス濃度が20〜25体積%になった浸炭用ガスを導入させた処理炉2内に、LNGやLPG等の炭化水素ガスを導入させる等によって処理炉2内におけるカーボンポテンシャルを温度と鋼種によって決定される飽和値近くまで高める場合、カーボンポテンシャルを適切に制御することが困難であり、処理炉2内におけるカーボンポテンシャルが飽和値を越えて高くなりすぎ、煤が発生する等の問題があった。   However, the inside of the processing furnace 2 by introducing hydrocarbon gas such as LNG or LPG into the processing furnace 2 into which the carburizing gas having a carbon monoxide gas concentration of 20 to 25% by volume is introduced as described above. When the carbon potential in the furnace is increased to near the saturation value determined by the temperature and steel type, it is difficult to properly control the carbon potential, the carbon potential in the processing furnace 2 becomes too high above the saturation value, There were problems such as occurrence.

また、従来においても、上記の浸炭用ガスにおける一酸化炭素ガス濃度を高めると、処理材1に対する浸炭速度が向上することが分かっており、近年においては、処理材1を浸炭処理するにあたり、上記の原料ガスにおける空気に代え、二酸化炭素ガスや酸素ガスを用い、一酸化炭素ガスの濃度が高くなった浸炭用ガスを得ることが検討されている。   In addition, it has been known that when the carbon monoxide gas concentration in the carburizing gas is increased, the carburizing speed of the processing material 1 is improved. In recent years, the carburizing treatment of the processing material 1 is performed as described above. It has been studied to obtain a carburizing gas in which the concentration of carbon monoxide gas is increased by using carbon dioxide gas or oxygen gas instead of air in the raw material gas.

ここで、上記の原料ガスにおける空気に代えて二酸化炭素ガスを用いた場合、炭化水素ガスと二酸化炭素ガスとの反応が吸熱反応であるため、上記のように外周側に設けた加熱装置3bで加熱させるだけでは、上記の触媒層3aが十分に加熱されず、この触媒層3a内における触媒の一部の温度が低下し、このように温度が低下した部分において、反応が十分に進みにくくなって煤が発生し、この煤が触媒層3aに詰まり、浸炭用ガスを安定して製造することができなくなるという問題があった。   Here, when carbon dioxide gas is used instead of the air in the raw material gas, the reaction between the hydrocarbon gas and the carbon dioxide gas is an endothermic reaction, and therefore the heating device 3b provided on the outer peripheral side as described above. Only by heating, the catalyst layer 3a is not sufficiently heated, the temperature of a part of the catalyst in the catalyst layer 3a is lowered, and the reaction does not proceed sufficiently in the portion where the temperature is lowered. There was a problem that soot was generated and the soot was clogged in the catalyst layer 3a, and the carburizing gas could not be produced stably.

このため、近年においては、炭化水素ガスと二酸化炭素ガスと酸素ガスとを爆発混合気範囲外で混合させた原料ガスを用いるようにしたもの(例えば、特許文献1参照。)や、炭化水素ガスと二酸化炭素ガスと酸素等とを混合させた原料ガスをニッケル触媒層に導入して反応させる前に、予熱器によって原料ガスを炭化水素の熱分解温度以下の温度に加熱するようにしたもの等(例えば、特許文献2〜4参照。)が提案されている。   For this reason, in recent years, a raw material gas obtained by mixing hydrocarbon gas, carbon dioxide gas, and oxygen gas outside the explosive gas mixture range (for example, see Patent Document 1), or hydrocarbon gas is used. Before the raw material gas mixed with carbon dioxide gas and oxygen is introduced into the nickel catalyst layer and reacted, the raw material gas is heated to a temperature lower than the thermal decomposition temperature of hydrocarbons, etc. (For example, refer to Patent Documents 2 to 4.).

しかし、上記のようにした場合においても、一酸化炭素ガスの濃度が高くなった浸炭用ガスを安定して製造することができず、また装置が複雑になる等の問題があった。   However, even in the case described above, there is a problem that the carburizing gas having a high concentration of carbon monoxide gas cannot be stably produced and the apparatus becomes complicated.

また、上記のような一酸化炭素ガスの濃度が高い浸炭用ガスを製造するのにはコストが高くつき、常に一酸化炭素ガス濃度が高い浸炭用ガスを用いて処理材を浸炭処理するようにした場合、ランニングコストが非常に高くつくという問題もあった。
特開2000−256824号公報 特開2001−152312号公報 特開2001−152313号公報 特開2001−152314号公報
In addition, it is expensive to produce a carburizing gas having a high carbon monoxide gas concentration as described above, and the carburizing gas is always carburized using a carburizing gas having a high carbon monoxide gas concentration. In this case, there is a problem that the running cost is very high.
JP 2000-256824 A JP 2001-1531 2 A JP 2001-152313 A JP 2001-152314 A

この発明は、鋼材部品等の処理材を浸炭処理する場合における上記のような様々な問題を解決することを課題とするものであり、高速で安定した浸炭処理が行えるようにすると共に、高速で浸炭処理するのに用いる一酸化炭素の濃度が高い浸炭用ガスを効率よく安定して製造できるようにすることを課題とするものである。   An object of the present invention is to solve the above-mentioned various problems in the case of carburizing a treatment material such as a steel material part, so that a stable carburizing process can be performed at a high speed and at a high speed. An object of the present invention is to enable efficient and stable production of a carburizing gas having a high concentration of carbon monoxide used for carburizing treatment.

この発明における浸炭処理装置においては、上記のような課題を解決するため、処理材を浸炭処理する処理炉内に一酸化炭素ガスを含む浸炭用ガスを供給し、加熱,浸炭,拡散の工程を経て処理材を浸炭処理する浸炭処理装置において、上記の処理炉に、触媒層が内管と外管との間に設けられると共にこの内管と外管とにそれぞれ加熱装置が設けられた浸炭用ガス製造装置を取り付け、少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスを上記の浸炭用ガス製造装置に供給する第1原料ガス供給装置と、少なくとも炭化水素ガスと空気とを混合させた第2原料ガスを上記の浸炭用ガス製造装置に供給する第2原料ガス供給装置と、上記の浸炭用ガス製造装置に供給する原料ガスを上記の第1原料ガス供給装置と第2原料ガス供給装置との間で切り換える切換装置とを設けた。 In the carburizing apparatus according to the present invention, in order to solve the above-described problems , a carburizing gas containing carbon monoxide gas is supplied into a processing furnace for carburizing the processing material, and heating, carburizing, and diffusion steps are performed. In the carburizing treatment apparatus for carburizing the treatment material, the carburizing furnace in which the catalyst layer is provided between the inner pipe and the outer pipe and the heating device is provided in each of the inner pipe and the outer pipe. A gas production device is attached, a first raw material gas supply device for supplying the carburizing gas production device with a first raw material gas in which at least a hydrocarbon gas and carbon dioxide gas are mixed, and at least a hydrocarbon gas and air A second raw material gas supply device for supplying the mixed second raw material gas to the carburizing gas production device, a raw material gas to be supplied to the carburizing gas production device, and the first raw material gas supply device and the second Raw material It provided a switching device for switching between the supply device.

そして、上記の浸炭処理装置においては、浸炭時には上記の第1原料ガス供給装置から浸炭用ガス製造装置に少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスを供給させる一方、浸炭時以外には上記の第2原料ガス供給装置から浸炭用ガス製造装置に少なくとも炭化水素ガスと空気とを混合させた第2原料ガスを供給させることができる。In the carburizing apparatus, the carburizing gas is supplied from the first raw material gas supply device to the carburizing gas production device with the first raw material gas mixed with at least hydrocarbon gas and carbon dioxide gas. Except for this time, the second raw material gas in which at least a hydrocarbon gas and air are mixed can be supplied from the second raw material gas supply device to the carburizing gas production device.

また、上記の触媒層に使用する触媒としては、一般に使用されているNi触媒や、Rh,Pt等の貴金属触媒を用いることができ、上記の原料ガスを、触媒層を通して効率よく反応させるためには、Rh,Pt等の貴金属触媒を用いることが好ましい。   Moreover, as a catalyst used for said catalyst layer, generally used Ni catalyst and noble metal catalysts such as Rh, Pt can be used. In order to efficiently react the above raw material gas through the catalyst layer. Is preferably a noble metal catalyst such as Rh or Pt.

この発明における浸炭処理装置においては、処理炉に取り付ける浸炭用ガス製造装置において、上記のように触媒層を内管と外管との間に設け、この内管と外管とをそれぞれ加熱装置によって加熱させるようにしたため、触媒層全体が内管と外管とを通して十分に加熱されるようになる。 In the carburizing apparatus according to the present invention, in the carburizing gas manufacturing apparatus attached to the processing furnace, the catalyst layer is provided between the inner tube and the outer tube as described above, and the inner tube and the outer tube are respectively heated by the heating device. Since the heating is performed, the entire catalyst layer is sufficiently heated through the inner tube and the outer tube.

このため、上記の第1原料ガス供給装置から少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスを上記の浸炭用ガス製造装置に供給して、一酸化炭素ガス濃度が高い浸炭用ガスを製造する場合に、触媒層の一部の温度が低下して煤が発生するのが防止され、触媒層に煤が詰まるということがなく、一酸化炭素ガス濃度が高い浸炭用ガスを効率よく安定して製造できるようになる。 For this reason, the first raw material gas in which at least hydrocarbon gas and carbon dioxide gas are mixed from the first raw material gas supply device is supplied to the carburizing gas production device, and the carburization having a high carbon monoxide gas concentration is performed. When producing a gas for use, carburizing gas having a high carbon monoxide gas concentration can be prevented from preventing generation of soot due to a decrease in the temperature of a part of the catalyst layer, so that the catalyst layer is not clogged with soot. It becomes possible to manufacture efficiently and stably.

この結果、この発明における浸炭処理装置においては、上記の浸炭用ガス製造装置により、上記のようにして一酸化炭素ガス濃度が高い浸炭用ガスを製造し、一酸化炭素ガス濃度が高い浸炭用ガスを処理炉内に安定して供給することができ、鋼材部品等の処理材を高速で安定して浸炭処理できるようになる。 As a result , in the carburizing apparatus according to the present invention, the carburizing gas manufacturing apparatus produces the carburizing gas having a high carbon monoxide gas concentration as described above, and the carburizing gas having a high carbon monoxide gas concentration. Can be stably supplied into the processing furnace, and processing materials such as steel parts can be stably carburized at high speed.

また、この発明における浸炭処理装置においては、少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスを上記の浸炭用ガス製造装置に供給する第1原料ガス供給装置と、少なくとも炭化水素ガスと空気とを混合させた第2原料ガスを上記の浸炭用ガス製造装置に供給する第2原料ガス供給装置と、上記の浸炭用ガス製造装置に供給する原料ガスを上記の第1原料ガス供給装置と第2原料ガス供給装置との間で切り換える切換装置とを設けたため、第1原料ガス供給装置から少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスをこの浸炭用ガス製造装置に供給して浸炭用ガスを生成すると、一酸化炭素ガスの濃度が高くなった浸炭用ガスが得られるようになり、例えば、炭化水素ガスとしてメタンガスを用い、このメタンガスと二酸化炭素ガスとを混合させた第1原料ガスを浸炭用ガス製造装置に供給して浸炭用ガスを生成した場合には、一酸化炭素ガス濃度が約50体積%になった浸炭速度の最も速い浸炭用ガスが得られるようになる。 In the carburizing apparatus according to the present invention , a first raw material gas supply device that supplies a first raw material gas in which at least a hydrocarbon gas and a carbon dioxide gas are mixed to the carburizing gas production device, and at least a hydrocarbon. A second raw material gas supply device for supplying a second raw material gas obtained by mixing gas and air to the carburizing gas production device, and a raw material gas supplied to the carburizing gas production device as described above. Since the switching device for switching between the supply device and the second raw material gas supply device is provided , the first raw material gas obtained by mixing at least hydrocarbon gas and carbon dioxide gas from the first raw material gas supply device is used for this carburization. When a carburizing gas is generated by supplying it to a gas production device, a carburizing gas having a high concentration of carbon monoxide gas can be obtained. For example, methane gas is used as a hydrocarbon gas. When the first raw material gas in which the methane gas and the carbon dioxide gas are mixed is supplied to the carburizing gas production apparatus to generate the carburizing gas, the carbon monoxide gas concentration is about 50% by volume. The carburizing gas having the fastest carburizing speed can be obtained.

一方、上記の第2原料ガス供給装置から少なくとも炭化水素ガスと空気とを混合させた第2原料ガスを浸炭用ガス製造装置に供給して浸炭用ガスを生成すると、空気中には窒素ガスが多く含まれているため、得られた浸炭用ガス中における一酸化炭素ガス濃度が低くなり、例えば、炭化水素ガスとしてメタンガスを用い、このメタンガスと空気とを混合させた第2原料ガスを浸炭用ガス製造装置に供給して浸炭用ガスを生成した場合には、一酸化炭素ガス濃度が約20体積%になった浸炭用ガスが得られるようになる。   On the other hand, when the second raw material gas obtained by mixing at least hydrocarbon gas and air from the second raw material gas supply device is supplied to the carburizing gas production device to generate the carburizing gas, nitrogen gas is generated in the air. Because it is contained in a large amount, the carbon monoxide gas concentration in the obtained carburizing gas is reduced. For example, methane gas is used as the hydrocarbon gas, and the second raw material gas obtained by mixing this methane gas and air is used for carburizing. When the carburizing gas is generated by supplying it to the gas production apparatus, the carburizing gas having a carbon monoxide gas concentration of about 20% by volume can be obtained.

そして、上記のような浸炭処理装置を用いて、処理材を処理炉内で浸炭処理するにあたっては、浸炭用ガス製造装置に供給する原料ガスを、上記の切換装置によって第1原料ガス供給装置と第2原料ガス供給装置との間で切り換えるようにし、浸炭時には上記の第1原料ガス供給装置から浸炭用ガス製造装置に第1原料ガスを供給して一酸化炭素ガス濃度の高い浸炭用ガスを生成し、この一酸化炭素ガス濃度の高い浸炭用ガスを処理炉に供給する一方、浸炭時以外には、上記の第2原料ガス供給装置から浸炭用ガス製造装置に第2原料ガスを供給して一酸化炭素ガス濃度が低い浸炭用ガスを生成し、この一酸化炭素ガス濃度が低い浸炭用ガスを処理炉に供給することができる。   And when carburizing the processing material in the processing furnace using the carburizing apparatus as described above, the raw material gas supplied to the carburizing gas manufacturing apparatus is changed to the first raw material gas supply apparatus by the switching device. The first raw material gas is supplied from the first raw material gas supply device to the carburizing gas production device so that the carburizing gas having a high carbon monoxide gas concentration is generated. The carburizing gas having a high carbon monoxide gas concentration is generated and supplied to the processing furnace, while the second raw material gas is supplied from the second raw material gas supply device to the carburizing gas production device except during carburizing. Thus, a carburizing gas having a low carbon monoxide gas concentration can be generated, and the carburizing gas having a low carbon monoxide gas concentration can be supplied to the processing furnace.

このようにすると、浸炭時には、一酸化炭素ガス濃度の高い浸炭用ガスが処理炉に供給されて、処理材に対する浸炭速度が速まり、処理時間が短縮されると共に、浸炭時以外には、一酸化炭素ガス濃度の低い浸炭用ガスが処理炉に供給されるようになり、常に一酸化炭素濃度の高い浸炭用ガスを供給する場合に比べて、ランニングコストも大幅に低減されるようになる。   In this way, at the time of carburizing, a carburizing gas with a high carbon monoxide gas concentration is supplied to the processing furnace, the carburizing speed of the processing material is increased, the processing time is shortened, and at the time other than carburizing, A carburizing gas having a low carbon oxide gas concentration is supplied to the processing furnace, and the running cost is greatly reduced as compared with a case where a carburizing gas having a high carbon monoxide concentration is always supplied.

以下、この発明の実施形態に係る浸炭処理装置に用いる浸炭用ガス製造装置及び浸炭処理装置を添付図面に基づいて具体的に説明する。なお、この発明に係る浸炭処理装置は下記の実施形態に示すものに限定されず、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 carburizing gas production apparatus and a carburizing apparatus used in a carburizing apparatus according to an embodiment of the present invention will be specifically described with reference to the accompanying drawings. Note that the carburizing apparatus according to the present invention is not 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.

(実施形態1)
この実施形態における浸炭用ガス製造装置10においては、図2に示すように、内管11と外管12との間に、Rh,Pt等の貴金属触媒を充填させた触媒層13を設けている。
(Embodiment 1)
In the carburizing gas production apparatus 10 in this embodiment, as shown in FIG. 2, a catalyst layer 13 filled with a noble metal catalyst such as Rh or Pt is provided between the inner tube 11 and the outer tube 12. .

そして、上記の内管11の内部に、この内管11を加熱させる電熱ヒーターからなる加熱装置14を設けると共に、上記の外管12の外周側に断熱材を用いた外装体15を設け、この外装体15と外管12との間に、外管12を加熱させる電熱ヒーターからなる加熱装置16を設けている。   And while providing the heating apparatus 14 which consists of an electric heater which heats this inner pipe | tube 11 inside said inner pipe | tube 11, the exterior body 15 using a heat insulating material is provided in the outer peripheral side of said outer pipe | tube 12, Between the exterior body 15 and the outer tube 12, a heating device 16 including an electric heater for heating the outer tube 12 is provided.

ここで、この実施形態の浸炭用ガス製造装置10によって一酸化炭素ガス濃度の高い浸炭用ガスGbを製造するにあたっては、上記の各加熱装置14,16を加熱させて、内管11と外管12との間に設けた触媒層13を加熱させると共に、外管12に設けた原料ガス供給口17から、少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた原料ガスGaを内管11と外管12との間に通して上記のように加熱された触媒層13に導くようにする。   Here, in producing the carburizing gas Gb having a high carbon monoxide gas concentration by the carburizing gas production apparatus 10 of this embodiment, the heating apparatuses 14 and 16 are heated to produce the inner pipe 11 and the outer pipe. The catalyst layer 13 provided between the inner tube 11 and the outer tube 12 is heated from the source gas supply port 17 provided in the outer tube 12, and at least the hydrocarbon gas and the carbon dioxide gas are mixed with the inner tube 11 and the outer tube 12. It leads to the catalyst layer 13 heated as described above through the pipe 12.

そして、上記のように加熱された触媒層13において上記の原料ガスGaを反応させ、一酸化炭素と水素とを含む浸炭用ガスGbを生成し、この浸炭用ガスGbを外管12に設けた排出管18を通して浸炭処理を行う処理炉(図示せず)内に供給するようにしている。   Then, the raw material gas Ga is reacted in the catalyst layer 13 heated as described above to generate a carburizing gas Gb containing carbon monoxide and hydrogen, and the carburizing gas Gb is provided in the outer tube 12. It is made to supply in the processing furnace (not shown) which performs a carburizing process through the discharge pipe 18. FIG.

ここで、この実施形態の浸炭用ガス製造装置においては、上記のように内管11と外管12との両方に加熱装置14,16を設け、各加熱装置14,16により内管11と外管12とを通して触媒層13を加熱させるようにしているため、触媒層13が十分に加熱されるようになり、上記のように少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた原料ガスGaを、この触媒層13を通して反応させる場合に、触媒層13の一部の温度が低下するのが防止され、煤が発生して触媒層13に詰まるということがなく、一酸化炭素ガス濃度が高くなった浸炭用ガスGbを効率よく安定して製造できるようになる。   Here, in the carburizing gas production apparatus of this embodiment, the heating devices 14 and 16 are provided in both the inner tube 11 and the outer tube 12 as described above, and the inner tube 11 and the outer tube are respectively provided by the heating devices 14 and 16. Since the catalyst layer 13 is heated through the pipe 12, the catalyst layer 13 is sufficiently heated, and the raw material gas Ga in which at least the hydrocarbon gas and the carbon dioxide gas are mixed as described above. When the reaction is performed through the catalyst layer 13, the temperature of a part of the catalyst layer 13 is prevented from decreasing, so that no soot is generated and the catalyst layer 13 is not clogged, and the carbon monoxide gas concentration is increased. The carburizing gas Gb can be produced efficiently and stably.

なお、この実施形態の浸炭用ガス製造装置においては、上記の各加熱装置14,16に電熱ヒーターを用いるようにしたが、各加熱装置14,16の種類は特に限定されず、バーナー等の公知の加熱装置を用いることができる。   In the carburizing gas production apparatus of this embodiment, an electric heater is used for each of the heating devices 14 and 16, but the type of the heating devices 14 and 16 is not particularly limited, and a known burner or the like is known. The heating device can be used.

次に、上記の実施形態における浸炭用ガス製造装置のように内管と外管との両方を加熱装置によって加熱させるようにした実施例のものと、外管だけを加熱装置によって加熱させるようにした比較例のものとを比較し、この実施例のものにおいては、原料ガスが触媒層において十分に反応されて煤の発生が抑制され、一酸化炭素の濃度が高くなった浸炭用ガスが効率よく製造されるようになることを明らかにする。   Next, as in the carburizing gas production apparatus in the above embodiment, both the inner tube and the outer tube are heated by the heating device, and only the outer tube is heated by the heating device. In this example, the carburizing gas in which the raw material gas is sufficiently reacted in the catalyst layer to suppress the generation of soot and the concentration of carbon monoxide is increased is efficient. Reveal that it will be well manufactured.

ここで、原料ガスとしては、13A都市ガスと二酸化炭素とを1:1.25の体積比で混合させたものを用い、実施例のものにおいては、内管と外管との両方を各加熱装置により加熱させて、外管温度が1000℃、内管温度が960℃になるようにする一方、比較例のものにおいては、加熱装置により外管だけを加熱させて、外管温度が1000℃になるようにした。   Here, as the raw material gas, a mixture of 13A city gas and carbon dioxide in a volume ratio of 1: 1.25 is used, and in the example, both the inner tube and the outer tube are heated. While the outer tube temperature is 1000 ° C. and the inner tube temperature is 960 ° C. by heating by the apparatus, in the comparative example, only the outer tube is heated by the heating device, and the outer tube temperature is 1000 ° C. I tried to become.

そして、触媒層を通して生成される浸炭用ガスの量を3m3 /hと5m3 /hとにした場合において、それぞれ生成された浸炭用ガス中に含まれる各ガス成分の割合(vol%)を求め、その結果を下記の表1に示した。 Then, when the amount of carburizing gas generated through the catalyst layer is 3 m 3 / h and 5 m 3 / h, the ratio (vol%) of each gas component contained in the generated carburizing gas, respectively. The results are shown in Table 1 below.

Figure 0004180492
Figure 0004180492

この結果から明らかなように、内管と外管との両方をそれぞれ加熱装置によって加熱させるようにした実施例のものにおいては、加熱装置により外管だけを加熱させるようにした比較例のものに比べて、生成した浸炭用ガス中に含まれるCO2 やCH4 の割合が大きく低下しており、上記の原料ガスが触媒層において十分に反応されて煤の発生が抑制され、一酸化炭素の濃度が高い浸炭用ガスを効率よく製造することができた。 As is clear from this result, in the example in which both the inner tube and the outer tube are heated by the heating device, the comparative example in which only the outer tube is heated by the heating device is used. In comparison, the ratio of CO 2 and CH 4 contained in the generated carburizing gas is greatly reduced, and the above raw material gas is sufficiently reacted in the catalyst layer to suppress the generation of soot, and the carbon monoxide High concentration carburizing gas could be produced efficiently.

(実施形態2)
この実施形態に係る浸炭処理装置においては、図3に示すように、処理炉2の炉壁2aを挿通するようにして浸炭用ガス製造装置10を取り付け、この処理炉2内に処理材(図示せず)を導入し、上記の浸炭用ガス製造装置10によって製造した浸炭用ガスをこの処理炉2内に供給し、この処理炉2内において処理材を加熱させる加熱工程と、このように加熱された処理材に炭素を付与して浸炭させる浸炭工程と、このように処理材に付与された炭素を処理材の内部に拡散させる拡散工程と、このように炭素が内部に拡散された処理材の温度を下げる降温工程とを行うようにしている。
(Embodiment 2)
In the carburizing apparatus according to this embodiment, as shown in FIG. 3, the carburizing gas manufacturing apparatus 10 is attached so as to pass through the furnace wall 2 a of the processing furnace 2, and the processing material (see FIG. A heating step of supplying the carburizing gas produced by the carburizing gas production apparatus 10 to the inside of the processing furnace 2 and heating the processing material in the processing furnace 2, and thus heating. A carburizing step in which carbon is imparted to the treated material and carburized, a diffusion step in which the carbon imparted to the treated material is diffused into the treated material, and a treated material in which carbon is diffused in the interior in this way And a temperature lowering step for lowering the temperature.

ここで、この実施形態においては、浸炭用ガス製造装置10として、上記の実施形態1に示したものと実質的に同様のものを用いるようにしており、内管11と外管12との間に、Rh,Pt等の貴金属触媒を充填させた触媒層13を設けている。   Here, in this embodiment, as the carburizing gas production apparatus 10, a device substantially similar to that shown in the first embodiment is used, and between the inner tube 11 and the outer tube 12. Further, a catalyst layer 13 filled with a noble metal catalyst such as Rh or Pt is provided.

そして、上記の内管11の内部に、この内管11を加熱させる電熱ヒーターからなる加熱装置14を設けると共に、上記の外管12の外周側に断熱材を用いた外装体15を設け、この外装体15と外管12との間に、外管12を加熱させる電熱ヒーターからなる加熱装置16を設けている。   And while providing the heating apparatus 14 which consists of an electric heater which heats this inner pipe | tube 11 inside said inner pipe | tube 11, the exterior body 15 using a heat insulating material is provided in the outer peripheral side of said outer pipe | tube 12, Between the exterior body 15 and the outer tube 12, a heating device 16 including an electric heater for heating the outer tube 12 is provided.

ここで、この実施形態においては、上記の浸炭用ガス製造装置10に原料ガスを供給するにあたり、第1電磁弁21aが設けられた第1ガス供給管21を通して導かれたLNGやLPG等の炭化水素ガスと、第2電磁弁22aが設けられた二酸化炭素ガス供給管22を通して導かれた二酸化炭素ガスとを第1ガスミキサー23により混合させるようにする一方、第3電磁弁24aが設けられた第2ガス供給管24を通して導かれたLNGやLPG等の炭化水素ガスと、第4電磁弁25aが設けられた空気供給管25を通して導かれた空気とを第2ガスミキサー26により混合させるようにしている。   Here, in this embodiment, when supplying the raw material gas to the carburizing gas production apparatus 10 described above, carbonization of LNG, LPG or the like led through the first gas supply pipe 21 provided with the first electromagnetic valve 21a. Hydrogen gas and carbon dioxide gas guided through the carbon dioxide gas supply pipe 22 provided with the second electromagnetic valve 22a are mixed by the first gas mixer 23, while the third electromagnetic valve 24a is provided. A hydrocarbon gas such as LNG or LPG guided through the second gas supply pipe 24 and the air guided through the air supply pipe 25 provided with the fourth electromagnetic valve 25a are mixed by the second gas mixer 26. ing.

そして、上記の第1ガスミキサー23によって混合させた炭化水素ガスと二酸化炭素ガスとからなる第1原料ガス、或いは上記の第2ガスミキサー26によって混合させた炭化水素ガスと空気とからなる第2原料ガスを、上記の浸炭用ガス製造装置10における外管12に設けられた原料ガス供給口17から上記の触媒層13に導くと共に、この触媒層13を上記の各加熱装置14,16によって加熱させ、この触媒層13において上記の第1又は第2の原料ガスを反応させるようにしている。   Then, a first source gas composed of hydrocarbon gas and carbon dioxide gas mixed by the first gas mixer 23 or a second gas composed of hydrocarbon gas and air mixed by the second gas mixer 26. The source gas is guided to the catalyst layer 13 from the source gas supply port 17 provided in the outer tube 12 in the carburizing gas production apparatus 10 and the catalyst layer 13 is heated by the heating devices 14 and 16. In the catalyst layer 13, the first or second source gas is reacted.

ここで、上記の第1ガスミキサー23によって混合させた炭化水素ガスと二酸化炭素ガスとからなる第1原料ガスを触媒層13において反応させて、一酸化炭素ガスを含む浸炭用ガスを生成すると、前記のように一酸化炭素ガス濃度が50体積%程度になった一酸化炭素ガス濃度の高い浸炭用ガスが得られるようになる。   Here, when the first raw material gas composed of the hydrocarbon gas and the carbon dioxide gas mixed by the first gas mixer 23 is reacted in the catalyst layer 13 to generate a carburizing gas containing carbon monoxide gas, As described above, a carburizing gas having a high carbon monoxide gas concentration having a carbon monoxide gas concentration of about 50% by volume can be obtained.

一方、上記の第2ガスミキサー26によって混合させた炭化水素ガスと空気とからなる第2原料ガスを触媒層13において反応させて、一酸化炭素ガスを含む浸炭用ガスを生成すると、空気中に窒素ガスが多く含まれているため、前記のように一酸化炭素ガス濃度が20体積%程度になった一酸化炭素ガス濃度の低い浸炭用ガスが得られるようになる。   On the other hand, when the second raw material gas composed of the hydrocarbon gas and air mixed by the second gas mixer 26 is reacted in the catalyst layer 13 to generate a carburizing gas containing carbon monoxide gas, Since a large amount of nitrogen gas is contained, a carburizing gas having a low carbon monoxide gas concentration having a carbon monoxide gas concentration of about 20% by volume as described above can be obtained.

なお、炭化水素ガスとして、例えばブタンガスを用い、このブタンガスと二酸化炭素ガスとからなる第1原料ガスを触媒層13において反応させると、その反応式は、
10+4CO=8CO+5H
となり、一酸化炭素ガス濃度が高くなりすぎるため、この場合には、浸炭用ガスにおける一酸化炭素ガス濃度を調整するため、図示していないが、例えば、上記の第1ガスミキサー23に空気や酸素ガスを供給させることができる。
For example, butane gas is used as the hydrocarbon gas, and when the first source gas composed of this butane gas and carbon dioxide gas is reacted in the catalyst layer 13, the reaction formula is
C 4 H 10 + 4CO 2 = 8CO + 5H 2
Since the carbon monoxide gas concentration becomes too high, in this case, for adjusting the carbon monoxide gas concentration in the carburizing gas, although not shown in the drawing, for example, air or Oxygen gas can be supplied.

そして、この実施形態における浸炭処理装置において、鋼材部品等の処理材を浸炭処理するにあたっては、処理炉2内に処理材を導入し、この処理炉2内において処理材を加熱させる工程においては、上記の第1電磁弁21aと第2電磁弁22aとを閉じる一方、上記の第3電磁弁24aと第4電磁弁25aとを開け、上記の第2ガス供給管24と空気供給管25とを通して炭化水素ガスと空気とを第2ガスミキサー26に導いて混合させるようにする。   And in the carburizing apparatus in this embodiment, when carburizing the processing material such as steel parts, the processing material is introduced into the processing furnace 2, and the processing material is heated in the processing furnace 2, While the first electromagnetic valve 21a and the second electromagnetic valve 22a are closed, the third electromagnetic valve 24a and the fourth electromagnetic valve 25a are opened, and the second gas supply pipe 24 and the air supply pipe 25 are passed through. Hydrocarbon gas and air are led to the second gas mixer 26 to be mixed.

そして、このように炭化水素ガスと空気とを混合させた第2原料ガスを、浸炭用ガス製造装置10における上記の触媒層13において反応させて、一酸化炭素ガス濃度が20体積%程度になった一酸化炭素ガス濃度の低い浸炭用ガスを生成し、この浸炭用ガスを上記の外管12に設けた供給口19を通して処理炉2内に供給し、上記の処理材を所定の温度まで加熱させる。   Then, the second raw material gas in which the hydrocarbon gas and the air are mixed in this manner is reacted in the catalyst layer 13 in the carburizing gas production apparatus 10 so that the carbon monoxide gas concentration becomes about 20% by volume. A carburizing gas having a low carbon monoxide gas concentration is generated, and the carburizing gas is supplied into the processing furnace 2 through the supply port 19 provided in the outer pipe 12, and the processing material is heated to a predetermined temperature. Let

次いで、このように加熱された処理材に炭素を付与して浸炭させる浸炭工程においては、上記の第3電磁弁24aと第4電磁弁25aとを閉じる一方、上記の第1電磁弁21aと第2電磁弁22aとを開け、上記の第1ガス供給管21と二酸化炭素ガス供給管22とを通して炭化水素ガスと二酸化炭素ガスとを第1ガスミキサー23に導いて混合させるようにする。   Next, in the carburizing step in which carbon is added to the treated material thus carburized, the third electromagnetic valve 24a and the fourth electromagnetic valve 25a are closed, while the first electromagnetic valve 21a and the first electromagnetic valve 21a are closed. 2 Open the electromagnetic valve 22a and guide the hydrocarbon gas and carbon dioxide gas through the first gas supply pipe 21 and the carbon dioxide gas supply pipe 22 to the first gas mixer 23 for mixing.

そして、このように炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスを、浸炭用ガス製造装置10における上記の触媒層13において反応させて、一酸化炭素ガス濃度が50体積%程度になった一酸化炭素ガス濃度の高い浸炭用ガスを生成し、この浸炭用ガスを上記の外管12に設けた供給口19を通して処理炉2内に供給し、上記の処理材に炭素を付与して浸炭させる。   Then, the first raw material gas in which the hydrocarbon gas and the carbon dioxide gas are mixed in this manner is reacted in the catalyst layer 13 in the carburizing gas production apparatus 10 so that the carbon monoxide gas concentration is about 50% by volume. A carburizing gas having a high carbon monoxide gas concentration is generated, and this carburizing gas is supplied into the processing furnace 2 through the supply port 19 provided in the outer pipe 12 to impart carbon to the processing material. And carburize.

また、このように処理材に炭素を付与して浸炭させた後は、上記の第1電磁弁21aと第2電磁弁22aとを閉じる一方、上記の第3電磁弁24aと第4電磁弁25aとを開け、上記の加熱工程の場合と同様に、炭化水素ガスと空気とを混合させた第2原料ガスを、浸炭用ガス製造装置10における上記の触媒層13において反応させて、一酸化炭素ガス濃度が20体積%程度になった一酸化炭素ガス濃度の低い浸炭用ガスを生成し、この浸炭用ガスを上記の外管12に設けた供給口19を通して処理炉2内に供給し、上記のように処理材に付与された炭素を処理材の内部に拡散させる拡散工程と、このように炭素が内部に拡散された処理材の温度を下げる降温工程とを行うようにする。   In addition, after carbon is applied to the treatment material and carburized in this manner, the first electromagnetic valve 21a and the second electromagnetic valve 22a are closed, while the third electromagnetic valve 24a and the fourth electromagnetic valve 25a are closed. In the same manner as in the heating step described above, the second raw material gas in which hydrocarbon gas and air are mixed is reacted in the catalyst layer 13 in the carburizing gas production apparatus 10 to produce carbon monoxide. A carburizing gas having a low carbon monoxide gas concentration having a gas concentration of about 20% by volume is generated, and the carburizing gas is supplied into the processing furnace 2 through the supply port 19 provided in the outer pipe 12. Thus, a diffusion step of diffusing carbon imparted to the treatment material into the inside of the treatment material and a temperature lowering step of lowering the temperature of the treatment material in which carbon is diffused inside are performed.

ここで、鋼材部品等の処理材に対して、例えば0.9mmの有効浸炭深さを得るにあたって、上記の浸炭工程において、一酸化炭素ガス濃度が20体積%程度になった一酸化炭素ガス濃度の低い浸炭用ガスを処理炉2内に供給するようにした場合、浸炭工程と拡散工程とに要する合計時間が300分程度になるのに対して、上記の浸炭工程において一酸化炭素ガス濃度が50体積%程度になった一酸化炭素ガス濃度の高い浸炭用ガスを処理炉2内に供給するようにした場合、浸炭工程と拡散工程とに要する合計時間が180分程度になり、浸炭処理時間が大幅に短縮されるようになる。   Here, in obtaining the effective carburization depth of, for example, 0.9 mm for the processing material such as steel parts, the carbon monoxide gas concentration in which the carbon monoxide gas concentration is about 20% by volume in the carburization step described above. When a low carburizing gas is supplied into the processing furnace 2, the total time required for the carburizing step and the diffusion step is about 300 minutes, whereas in the carburizing step, the carbon monoxide gas concentration is When the carburizing gas having a high carbon monoxide gas concentration of about 50% by volume is supplied into the processing furnace 2, the total time required for the carburizing step and the diffusion step is about 180 minutes, and the carburizing time Will be greatly shortened.

また、上記のように浸炭工程において、一酸化炭素ガス濃度が50体積%程度になった一酸化炭素ガス濃度の高い浸炭用ガスを処理炉2内に供給すると、処理炉2内のカーボンポテンシャルを適切に制御することが容易に行え、カーボンポテンシャルが高くなりすぎて煤が発生するのを防止できるようになる。   Further, in the carburizing process as described above, when a carburizing gas having a high carbon monoxide gas concentration having a carbon monoxide gas concentration of about 50% by volume is supplied into the processing furnace 2, the carbon potential in the processing furnace 2 is increased. Appropriate control can be easily performed, and the carbon potential can be prevented from becoming too high to generate soot.

さらに、上記のように浸炭工程においてのみ、処理炉2内に一酸化炭素ガス濃度の高い浸炭用ガスを処理炉2内に供給させ、浸炭工程以外の工程においては、処理炉2内に一酸化炭素ガス濃度の低い浸炭用ガスを供給させるようにすると、一酸化炭素ガス濃度の高い浸炭用ガスの量が少なくてすみ、常に高い一酸化炭素ガス濃度の浸炭用ガスを供給する場合に比べて、ランニングコストが大幅に低減される。   Further, as described above, only in the carburizing process, a carburizing gas having a high carbon monoxide gas concentration is supplied into the processing furnace 2, and in the processes other than the carburizing process, monoxide is oxidized in the processing furnace 2. If a carburizing gas with a low carbon gas concentration is supplied, the amount of carburizing gas with a high carbon monoxide gas concentration can be reduced, compared to the case of supplying a carburizing gas with a high carbon monoxide gas concentration at all times. , Running costs are greatly reduced.

処理材を浸炭処理するのに使用する従来の浸炭処理装置を示した概略説明図である。It is the schematic explanatory drawing which showed the conventional carburizing processing apparatus used in carburizing a process material. この発明の実施形態に係る浸炭処理装置に用いる浸炭用ガス製造装置を示した概略説明図である。It is the schematic explanatory drawing which showed the carburizing gas manufacturing apparatus used for the carburizing processing apparatus which concerns on embodiment of this invention. この発明の一実施形態に係る浸炭処理装置を示した部分説明図である。It is the partial explanatory view showing the carburizing processing device concerning one embodiment of this invention.

符号の説明Explanation of symbols

1 処理材
2 処理炉
2a 炉壁
10 浸炭用ガス製造装置
11 内管
12 外管
13 触媒層
14 加熱装置
15 外装体
16 加熱装置
17 原料ガス供給口
18 排出管
19 供給口
21 第1ガス供給管
21a 第1電磁弁
22 二酸化炭素ガス供給管
22a 第2電磁弁
23 第1ガスミキサー
24 第2ガス供給管
24a 第3電磁弁
25 空気供給管
25a 第4電磁弁
26 第2ガスミキサー
Ga 原料ガス
Gb 浸炭用ガス
DESCRIPTION OF SYMBOLS 1 Processing material 2 Processing furnace 2a Furnace wall 10 Carburizing gas manufacturing apparatus 11 Inner pipe 12 Outer pipe 13 Catalyst layer 14 Heating apparatus 15 Exterior body 16 Heating apparatus 17 Raw material gas supply port 18 Exhaust pipe 19 Supply port 21 First gas supply pipe 21a 1st solenoid valve 22 Carbon dioxide gas supply pipe 22a 2nd solenoid valve 23 1st gas mixer 24 2nd gas supply pipe 24a 3rd solenoid valve 25 Air supply pipe 25a 4th solenoid valve 26 2nd gas mixer Ga Source gas Gb Carburizing gas

Claims (3)

処理材を浸炭処理する処理炉内に一酸化炭素ガスを含む浸炭用ガスを供給し、加熱,浸炭,拡散の工程を経て処理材を浸炭処理する浸炭処理装置において、上記の処理炉に、触媒層が内管と外管との間に設けられると共にこの内管と外管とにそれぞれ加熱装置が設けられた浸炭用ガス製造装置を取り付け、少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスを上記の浸炭用ガス製造装置に供給する第1原料ガス供給装置と、少なくとも炭化水素ガスと空気とを混合させた第2原料ガスを上記の浸炭用ガス製造装置に供給する第2原料ガス供給装置と、上記の浸炭用ガス製造装置に供給する原料ガスを上記の第1原料ガス供給装置と第2原料ガス供給装置との間で切り換える切換装置とを設けたことを特徴とする浸炭処理装置。In a carburizing apparatus for supplying a carburizing gas containing carbon monoxide gas into a processing furnace for carburizing the processing material, and carburizing the processing material through the steps of heating, carburizing, and diffusion, the above-mentioned processing furnace includes a catalyst. A layer is provided between the inner tube and the outer tube, and a carburizing gas production device provided with a heating device is attached to each of the inner tube and the outer tube, and at least hydrocarbon gas and carbon dioxide gas are mixed. A first raw material gas supply device for supplying the first raw material gas to the carburizing gas production device, and a second raw material gas obtained by mixing at least a hydrocarbon gas and air to the carburizing gas production device. 2. A raw material gas supply device and a switching device for switching the raw material gas supplied to the carburizing gas production device between the first raw material gas supply device and the second raw material gas supply device. Carburizing treatment equipment . 請求項1に記載した浸炭処理装置において、浸炭時には上記の第1原料ガス供給装置から浸炭用ガス製造装置に少なくとも炭化水素ガスと二酸化炭素ガスとを混合させた第1原料ガスを供給する一方、浸炭時以外には上記の第2原料ガス供給装置から浸炭用ガス製造装置に少なくとも炭化水素ガスと空気とを混合させた第2原料ガスを供給することを特徴とする浸炭処理装置。In the carburizing apparatus according to claim 1, while carburizing, while supplying the first raw material gas mixed at least hydrocarbon gas and carbon dioxide gas from the first raw material gas supply device to the carburizing gas production device, A carburizing apparatus characterized by supplying a second raw material gas in which at least a hydrocarbon gas and air are mixed from the second raw material gas supply device to the carburizing gas production device except during carburizing. 請求項1又は請求項2に記載した浸炭処理装置において、上記の浸炭用ガス製造装置における触媒層の触媒に貴金属触媒を用いたことを特徴とする浸炭処理装置。The carburizing apparatus according to claim 1 or 2, wherein a noble metal catalyst is used as a catalyst of the catalyst layer in the carburizing gas production apparatus.
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