Q3: Oxygen at 200 bar is to be stored in a steel vessel at 20°C. The vessel is cylindrical shape and have a length of 1.25m and the diameter is 30cm. Assuming the Oxygen is a perfect gas, calculate the mass of Oxygen that can be stored in the vessel. The vessel is protected against excessive pressure by a fusible plug which melt if the temperature rises too high. At what temperature must the plug melt to limit the pressure in vessel to 250 bar? Take the molar mass of Oxygen is 32 kg/kmol.
Q3: Oxygen at 200 bar is to be stored in a steel vessel at 20°C. The vessel is cylindrical shape and have a length of 1.25m and the diameter is 30cm. Assuming the Oxygen is a perfect gas, calculate the mass of Oxygen that can be stored in the vessel. The vessel is protected against excessive pressure by a fusible plug which melt if the temperature rises too high. At what temperature must the plug melt to limit the pressure in vessel to 250 bar? Take the molar mass of Oxygen is 32 kg/kmol.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Q3: Oxygen at 200 bar is to be stored in a steel vessel at 20°C. The vessel is cylindrical shape and
have a length of 1.25m and the diameter is 30cm. Assuming the Oxygen is a perfect gas, calculate
the mass of Oxygen that can be stored in the vessel. The vessel is protected against excessive
pressure by a fusible plug which melt if the temperature rises too high. At what temperature must
the plug melt to limit the pressure in vessel to 250 bar? Take the molar mass of Oxygen is 32
kg/kmol.
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