A pressure vessel has an internal volume of 0.5 m³ at atmospheric pressure (1.013 bar). It is desired to test the vessel at 300 bar by pumping water into it. The estimated variation in the change of the empty volume of the vessel due to pressurization to 300 bar is 6 percent. Assuming the bulk modulus of elasticity of water as 2 GPa, the mass of water to be pumped into the vessel to attain the desired
A pressure vessel has an internal volume of 0.5 m³ at atmospheric pressure (1.013 bar). It is desired to test the vessel at 300 bar by pumping water into it. The estimated variation in the change of the empty volume of the vessel due to pressurization to 300 bar is 6 percent. Assuming the bulk modulus of elasticity of water as 2 GPa, the mass of water to be pumped into the vessel to attain the desired
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![A pressure vessel has an internal volume of 0.5 m³ at atmospheric
pressure (1.013 bar). It is desired to test the vessel at 300 bar by
pumping water into it. The estimated variation in the change of the
empty volume of the vessel due to pressurization to 300 bar is 6
percent. Assuming the bulk modulus of elasticity of water as 2 GPa.
the mass of water to be pumped into the vessel to attain the desired
pressure level is
kg. (Rounded to one decimal point)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa540c210-4428-4ae8-b6ff-0b2b9d2d29d2%2F0fbdc102-8ed1-4270-9dc9-364c5e0a8928%2Fiq61z4q_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A pressure vessel has an internal volume of 0.5 m³ at atmospheric
pressure (1.013 bar). It is desired to test the vessel at 300 bar by
pumping water into it. The estimated variation in the change of the
empty volume of the vessel due to pressurization to 300 bar is 6
percent. Assuming the bulk modulus of elasticity of water as 2 GPa.
the mass of water to be pumped into the vessel to attain the desired
pressure level is
kg. (Rounded to one decimal point)
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