An analyzer includes a reforming unit which reforms fuel containing an organic compound which contains carbon and hydrogen into a reformed gas containing hydrogen, a flame ionization detector which is connected to the reforming unit, and detects an ion generated by combusting the reformed gas suppli
An analyzer includes a reforming unit which reforms fuel containing an organic compound which contains carbon and hydrogen into a reformed gas containing hydrogen, a flame ionization detector which is connected to the reforming unit, and detects an ion generated by combusting the reformed gas supplied from the reforming unit and a sample gas, or ionizing a sample gas by reaction with the reformed gas supplied from the reforming unit, and outputs an output signal representing the ionic amount, and an analysis controller which analyzes the output signal from the flame ionization detector, and provides data capable of identifying a component contained in the sample gas.
대표청구항▼
What is claimed is: 1. An analyzer comprising: a reforming unit which reforms a fuel containing an organic compound, which contains carbon and hydrogen, into a reformed gas containing hydrogen; a flame ionization detector which is connected to the reforming unit, detects an ion generated by combini
What is claimed is: 1. An analyzer comprising: a reforming unit which reforms a fuel containing an organic compound, which contains carbon and hydrogen, into a reformed gas containing hydrogen; a flame ionization detector which is connected to the reforming unit, detects an ion generated by combining and combusting the reformed gas supplied from the reforming unit and a sample gas, or ionizing the sample gas by combining and reacting with the reformed gas supplied from the reforming unit, and outputs an output signal representing the ionic amount; and an analysis controller which analyzes the output signal from the flame ionization detector, and provides data configured to identify a component contained in the sample gas. 2. An analyzer according to claim 1, wherein the analysis controller controls an amount of at least one of the sample gas, the reformed gas, or the sample gas and the reformed gas, to be supplied to the flame ionization detector. 3. An analyzer according to claim 1, further comprising separating means for separating a component contained in the sample gas before the sample gas is supplied to the flame ionization detector. 4. An analyzer according to claim 1, further comprising a gas chromatography column which separates a component contained in the sample gas before the sample gas is supplied to the flame ionization detector. 5. An analyzer according to claim 1, further comprising: a fuel cell which is connected to the reforming unit, and generates power by using the reformed gas supplied from the reforming unit and oxygen; and a combustor which is connected to the fuel cell, and accelerates a combustion reaction of the reformed gas exhausted from the fuel cell. 6. An analyzer according to claim 1, further comprising: a fuel cell which is connected to the reforming unit, and generates power by using the reformed gas supplied from the reforming unit and oxygen; a CO reducer which reduces CO of the reformed gas before the sample gas is supplied to the fuel cell; separating means for separating a component contained in the sample gas before the sample gas is supplied to the flame ionization detector; a combustor which is connected to the fuel cell, and accelerates a combustion reaction of the reformed gas exhausted from the fuel cell; and heat transfer means for transferring, to the separating means, at least one of heat generated by the combustion reaction in the combustor, heat generated by the CO reducing reaction in the CO reducer, and heat generated by the power generation in the fuel cell. 7. An analyzer according to claim 1, further comprising: a fuel cell which is connected to the reforming unit, and generates power by using the reformed gas supplied from the reforming unit and oxygen; separating means for separating a component contained in the sample gas before the sample gas is supplied to the flame ionization detector; a combustor which is connected to the fuel cell, and accelerates a combustion reaction of the reformed gas exhausted from the fuel cell; a first heat conducting member which conducts, to the separating means, at least a part of heat generated by the combustion reaction in the combustor; and a second heat conducting member which conducts, to the separating means, at least a part of heat generated by the power generation in the fuel cell, and in which the analysis controller selects one of heat conduction by the first heat conducting member and heat conduction by the second heat conducting member in accordance with the component contained in the sample gas. 8. An analyzer according to claim 1, further comprising a hydrogen purifier which increases a hydrogen concentration in the reformed gas before being supplied to the flame ionization detector.
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이 특허에 인용된 특허 (3)
Keefer Bowie G. (4324 West 11th Ave. Vancouver CAX V6R 2M1), Extraction and concentration of a gas component.
Masaru Miyai JP; Kenji Takeda JP; Kaori Inoue JP; Masaaki Ishihara JP, Method for correcting the effect of a effect of a coexistent gas in a gas analysis and a gas analyzing apparatus using same.
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