Method for producing nitrogen gas, method for separating gas and device for producing nitrogen gas

The invention claimed is: 1. A method for producing nitrogen gas from a raw material gas using a PSA system, the method comprising: using a second adsorbent, which is packed in an auxiliary adsorption tank provided in a line connecting two main adsorption tanks packed with a first adsorbent and has a faster oxygen adsorption rate than the first adsorbent, to reduce an oxygen concentration within a gas discharged from a main adsorption tank performing a depressurization equalization step, and then introducing the gas into a main adsorption tank performing a pressurization equalization step, wherein the line connecting the two main adsorption tanks is a line connecting either upstream sides of each of the main adsorption tanks, or an intermediate section of one main adsorption tank and an upstream side of the other main adsorption tank. 2. The method for producing nitrogen gas according claim 1 , wherein the first adsorbent packed in the main adsorption tanks is carbon molecular sieves. 3. The method for producing nitrogen gas according to claim 1 , wherein the second adsorbent packed in the auxiliary adsorption tank is carbon molecular sieves. 4. A method for producing nitrogen gas from a raw material gas using a PSA system, the method comprising: a pressure equalization step of connecting two main adsorption tanks, each packed with an adsorbent, via a line that connects either upstream sides of each of the main adsorption tanks or an intermediate section of one main adsorption tank and an upstream side of the other main adsorption tank, and using the line to achieve pressure equalization by discharging a gas from one main adsorption tank into the other main adsorption tank, wherein in the pressure equalization step, the gas discharged from one main adsorption tank is subjected to a reduction in oxygen concentration by oxygen removal means before entering the other main adsorption tank. 5. A method for separating gas, which uses a raw material gas containing an easily adsorbed component which adsorbs readily to a first adsorbent and a second adsorbent and a poorly adsorbed component which exhibits poor adsorption to the adsorbents, and recovers the easily adsorbed component and the poorly adsorbed component from the raw material gas, wherein the method comprises a pressure equalization step of connecting two main adsorption tanks, which are packed with the first adsorbent, via a line, and using the line to achieve pressure equalization by discharging a gas from one main adsorption tank into the other main adsorption tank, in the pressure equalization step, the gas discharged from one main adsorption tank is subjected to a reduction in the easily adsorbed component by the second adsorbent, which is packed in an auxiliary adsorption tank provided in the line and has a faster adsorption rate of the easily adsorbed component than the first adsorbent, and is then introduced into the other main adsorption tank, and the line connecting the two main adsorption tanks is a line connecting either upstream sides of each of the main adsorption tanks, or an intermediate section of one main adsorption tank and an upstream side of the other main adsorption tank. 6. A device for producing nitrogen gas from a raw material gas using a PSA system, the device comprising: a compressor which pressurizes the raw material gas, two main adsorption tanks packed with a first adsorbent, and an auxiliary adsorption tank which is provided in a line connecting the two main adsorption tanks and is packed with a second adsorbent for reducing an oxygen concentration within a gas, wherein an oxygen adsorption rate of the second adsorbent is faster than an oxygen adsorption rate of the first adsorbent, and the line connecting the two main adsorption tanks is a line connecting either upstream sides of each of the main adsorption tanks, or an intermediate section of one main adsorption tank and an upstream side of the other main adsorption tank. 7. The device for producing nitrogen gas according to claim 6 , wherein the first adsorbent packed in the main adsorption tanks is carbon molecular sieves. 8. The device for producing nitrogen gas according to claim 6 , wherein the second adsorbent packed in the auxiliary adsorption tank is carbon molecular sieves. 9. The method for producing nitrogen gas according to claim 4 , wherein the volume of the auxiliary adsorption tank is at least 1/40th but not more than ⅕th the volume of the main adsorption tanks. 10. The method for producing nitrogen gas according to claim 4 , wherein the volume of an auxiliary adsorption tank, inside which the oxygen removal means are packed, is at least 1/40th but not more than ⅕th the volume of the main adsorption tanks. 11. The method for separating gas according to claim 5 , wherein the volume of the auxiliary adsorption tank is at least 1/40th but not more than ⅕th the volume of the main adsorption tanks. 12. The device for producing nitrogen gas according to claim 6 , wherein the volume of the auxiliary adsorption tank is at least 1/40th but not more than ⅕th the volume of the main adsorption tanks.