Chemical storage container and method for replacing its internal atmosphere with dry air

The invention claimed is: 1. A chemical storage container comprising: (1) an outer container having a top opening; (2) a chemical storage bag for storing a liquid chemical, disposed in the outer container; (3) an ejection member provided at the upper end of the chemical storage bag; and disposed in the top opening of the outer container; (4) a lid configured to close the top opening of the outer container and configured to cover the ejection member; (5) wherein the lid has a chemical nozzle for discharging the liquid chemical configured to extend through the interior of the ejection member and a pressurized gas supply nozzle for supplying a pressurized gas into the interior of the ejection member, (6) wherein the interior of the ejection member is divided into a chemical nozzle space through which the chemical nozzle is configured to extend and which is configured to communicate with the interior of the chemical storage bag, and a pressurized gas space which is configured to be filled with the pressurized gas, (7) wherein the ejection member has a through-hole is configured to connect the pressurized gas space to a pressurization space formed between the outer container and the chemical storage bag, (8) wherein the lid has a dry air supply opening for supplying dry air into the chemical nozzle space, and (9) wherein the ejection member is provided with an ejection member partition wall for dividing the interior of the ejection member into the chemical nozzle space and the pressurized gas space, and the lid is provided with a lid partition wall for dividing the interior of the ejection member into the chemical nozzle space and the pressurized gas space, and the ejection member partition wall and the lid partition wall are in contact with each other to divide the interior of the ejection member into the chemical nozzle space and the pressurized gas space. 2. The chemical storage container according to claim 1 , wherein the lid has a dry air discharge opening for discharging dry air from the pressurized gas space. 3. The chemical storage container according to claim 1 , wherein the lid is fixed by fixing means to a portion of the outer container, located around the top opening. 4. The chemical storage container according to claim 2 , wherein a chemical nozzle connecter, a pressurized gas supply nozzle connecter, a dry air supply opening connecter and a dry air discharge opening connecter are coupled to the chemical nozzle, the pressurized gas supply nozzle, the dry air supply opening and the dry air discharge opening, respectively, and wherein the chemical nozzle connecter, the pressurized gas supply nozzle connecter, the dry air supply opening connecter and the dry air discharge opening connecter are each equipped with an on-off valve. 5. The chemical storage container according to claim 1 , further comprising a receiver flange located around the periphery of the top opening, wherein the ejection member has a peripheral flange and the peripheral flange is configured to be mounted to the receiver flange. 6. The chemical storage container according to claim 5 , wherein the receiver flange has a shape that fits the shape of the ejection member. 7. The chemical storage container according to claim 5 , wherein the receiver flange has a recess in the upper surface and the peripheral flange has a protrusion that fits the recess of the receiver flange. 8. The chemical storage container according to claim 1 , wherein the lid partition wall is in contact with an inner surface of the ejection member partition wall. 9. A method for replacing the internal atmosphere of a chemical storage container with dry air, comprising the steps of: preparing a chemical storage container comprising: an outer container having a top opening; and a chemical storage bag for storing a liquid chemical, disposed in the outer container and having an ejection member provided at the upper end of the chemical storage bag, wherein the ejection member is disposed in the top opening of the outer container, wherein a lid which closes the top opening of the outer container is provided such that it covers the ejection member, wherein the lid is provided with a chemical nozzle for discharging the liquid chemical and which extends through the interior of the ejection member, and a pressurized gas supply nozzle for supplying a pressurized gas into the interior of the ejection member, wherein the interior of the ejection member is divided into a chemical nozzle space through which the chemical nozzle extends and which communicates with the interior of the chemical storage bag, and a pressurized gas space which is to be filled with the pressurized gas, wherein the ejection member has a through-hole which connects the pressurized gas space to a pressurization space formed between the outer container and the chemical storage bag, wherein the lid has a dry air supply opening for supplying dry air into the chemical nozzle space, and wherein the ejection member is provided with an ejection member partition wall for dividing the interior of the ejection member into the chemical nozzle space and the pressurized gas space, and the lid is provided with a lid partition wall for dividing the interior of the ejection member into the chemical nozzle space and the pressurized gas space, and the ejection member partition wall and the lid partition wall are in contact with each other to divide the interior of the ejection member into the chemical nozzle space and the pressurized gas space; supplying dry air into the chemical storage bag from the dry air supply opening of the chemical storage container; and discharging the dry air in the chemical storage bag to the outside via the chemical nozzle. 10. The method according to claim 9 , further comprising the steps of: supplying dry air from the pressurized gas supply nozzle of the chemical storage container into the pressurization space between the outer container and the chemical storage bag; and discharging the dry air in the pressurization space to the outside via the pressurized gas space and the dry air discharge opening provided in the lid. 11. The method according to claim 9 , wherein the dew point in the chemical storage bag is decreased and controlled in the range of −50° C. to −70° C. by supplying dry air into the chemical storage bag and by discharging the dry air in the chemical storage bag to the outside. 12. The method according to claim 10 , wherein the dew point in the chemical storage bag is decreased and controlled in the range of −50° C. to −70° C. by supplying dry air into the chemical storage bag and by and discharging the dry air in the chemical storage bag to the outside, and wherein the dew point in the pressurization space is decreased and controlled in the range of −50° C. to −70° C. by supplying dry air into the pressurization space and by discharging the dry air in the pressurization space to the outside.