Example 14.5. Comparison of the Reversible Work for a Batch Process with That of a Flow Process Operating under the Same Conditions Five cubic feet of an ideal gas at 100°F are to be compressed adiabatically from 1 atm to 10 atm. The equation of state to use for the gas is pV 1.40 = constant. Two options exist for the compression: a. Compression in a horizontal cylinder with a piston b. Compression in a rotary compressor Calculate the reversible work required for the two alternate processes.

Example 14.5. Comparison of the Reversible Work for a Batch Process with That of a Flow Process Operating under the Same Conditions Five cubic feet of an ideal gas at 100°F are to be compressed adiabatically from 1 atm to 10 atm. The equation of state to use for the gas is pV 1.40 = constant. Two options exist for the compression: a. Compression in a horizontal cylinder with a piston b. Compression in a rotary compressor Calculate the reversible work required for the two alternate processes.

Elements Of Electromagnetics

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ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Applied Fluid Mechanics

A fluid is a substance that is continuously deformed by the application of shear stress. The rate of deformation of a fluid depends on its viscosity. The fluid tries to flow when it interacts with some other system.

Question

Example 14.5. Comparison of the Reversible Work for a Batch Process with That of a
Flow Process Operating under the Same Conditions
Five cubic feet of an ideal gas at 100°F are to be compressed adiabatically from 1 atm to 10
atm. The equation of state to use for the gas is pV 1.40 = constant. Two options exist for the
compression:
a. Compression in a horizontal cylinder with a piston
b. Compression in a rotary compressor
Calculate the reversible work required for the two alternate processes.

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