Method for analyzing nitrogen in metal sample, apparatus for analyzing nitrogen in metal sample, method for adjusting nitrogen concentration in molten steel, and method for manufacturing steel

1 . A method for analyzing nitrogen in a metal sample containing a nitrogen component, the method comprising: performing impulse heating on the metal sample in an argon atmosphere to melt the metal sample and gasify the nitrogen component, and determining the amount of nitrogen gas present in the argon gas by using a gas discharge optical emission method. 2 . The method for analyzing nitrogen in a metal sample according to claim 1 , wherein the gas discharge optical emission method uses optical emission of the nitrogen gas at one or more of wavelengths 337 nm, 357 nm, 380 nm, and 406 nm. 3 . The method for analyzing nitrogen in a metal sample according to claim 1 , wherein, an emission intensity of nitrogen gas is corrected in accordance with an emission intensity of argon gas that is determined either at the same time as determining the emission intensity of the nitrogen gas, using the argon gas that contains the nitrogen gas, or using only flowing argon gas when not determining the emission intensity of the nitrogen gas. 4 . The method for analyzing nitrogen in a metal sample according to claim 3 , wherein, optical emission of the argon gas at one or more of wavelengths 697 nm, 727 nm, 751 nm, 764 nm, 772 nm, 795 nm, 801 nm, 812 nm, and 826 nm is used. 5 . An apparatus for analyzing nitrogen in a metal sample containing a nitrogen component, the apparatus comprising: an impulse furnace in which the metal sample is melted in an argon gas atmosphere to gasify the nitrogen component; an argon gas feeding system through which argon gas is fed into the impulse furnace; a discharge optical emission system that induces the discharge optical emission of nitrogen gas generated in the impulse furnace and of argon gas in the impulse furnace by using a gas discharge optical emission method; and a photometrical analysis system that determines the intensity of emission induced by the discharge optical emission system to determine nitrogen content in the metal sample. 6 . The apparatus for analyzing nitrogen in a metal sample according to claim 5 , wherein the photometrical analysis system further includes a device that determines emission intensity of the argon gas. 7 . The apparatus for analyzing nitrogen in a metal sample according to claim 5 , the apparatus further comprising a carbon dioxide measuring device of an infrared absorption type for determining carbon dioxide content between the impulse furnace and the discharge optical emission system. 8 . The apparatus for analyzing nitrogen in a metal sample according to claim 5 , the apparatus further comprising a buffer for diluting the nitrogen in the argon gas between the impulse furnace and the discharge optical emission system. 9 . The method for analyzing nitrogen in a metal sample according to claim 1 , wherein, when the nitrogen component is gasified by the impulse heating, the metal sample is heated to a temperature of 2500° C. or higher. 10 . A method for adjusting nitrogen concentration in molten steel, the method comprising: analyzing the nitrogen concentration of a sample of the molten steel by using the method for analyzing nitrogen in a metal sample according to claim 1 ; and determining treatment conditions for adjusting nitrogen concentration on the basis of the nitrogen analysis value obtained through the analyzing. 11 . A method for manufacturing steel, the method comprising manufacturing steel by performing continuous casting on molten steel whose nitrogen concentration has been adjusted by using the method for adjusting nitrogen concentration in molten steel according to claim 10 . 12 . The method for analyzing nitrogen in a metal sample according to claim 2 , wherein, an emission intensity of nitrogen gas is corrected in accordance with an emission intensity of argon gas that is determined either at the same time as determining the emission intensity of the nitrogen gas, using the argon gas that contains the nitrogen gas, or using only flowing argon gas when not determining the emission intensity of the nitrogen gas. 13 . The method for analyzing nitrogen in a metal sample according to claim 12 , wherein, optical emission of the argon gas at one or more of wavelengths 697 nm, 727 nm, 751 nm, 764 nm, 772 nm, 795 nm, 801 nm, 812 nm, and 826 nm is used. 14 . The method for analyzing nitrogen in a metal sample according to claim 3 , wherein, when the nitrogen component is gasified by the impulse heating, the metal sample is heated to a temperature of 2500° C. or higher. 15 . The apparatus for analyzing nitrogen in a metal sample according to claim 6 , the apparatus further comprising a carbon dioxide measuring device of an infrared absorption type for determining carbon dioxide content between the impulse furnace and the discharge optical emission system. 16 . The apparatus for analyzing nitrogen in a metal sample according to claim 6 , the apparatus further comprising a buffer for diluting the nitrogen in the argon gas between the impulse furnace and the discharge optical emission system. 17 . A method for adjusting nitrogen concentration in molten steel, the method comprising: analyzing the nitrogen concentration of a sample of the molten steel by using the method for analyzing nitrogen in a metal sample according to claim 3 ; and determining treatment conditions for adjusting nitrogen concentration on the basis of the nitrogen analysis value obtained through the analyzing. 18 . A method for adjusting nitrogen concentration in molten steel, the method comprising: analyzing the nitrogen concentration of a sample of the molten steel by using the method for analyzing nitrogen in a metal sample according to claim 9 ; and determining treatment conditions for adjusting nitrogen concentration on the basis of the nitrogen analysis value obtained through the analyzing. 19 . A method for manufacturing steel, the method comprising manufacturing steel by performing continuous casting on molten steel whose nitrogen concentration has been adjusted by using the method for adjusting nitrogen concentration in molten steel according to claim 17 . 20 . A method for manufacturing steel, the method comprising manufacturing steel by performing continuous casting on molten steel whose nitrogen concentration has been adjusted by using the method for adjusting nitrogen concentration in molten steel according to claim 18 .