To estimate the compressibility factor of gas-oil, a cylindrical test tube is provided, made of a ceramiC material. A certain volume of gas-oil is poured in the test tube, and a weight is placed over it to reduce its volume. From the obtained data, determine the gas-oil compressibility factor. Solution: K=1621.7 MPa. Data: - Test tube: interior diameter D=10 mm. Weight: m=6.5 kg. - Gas-oil: density (at 1 bar) =892 kg/m3; initial height H=200 mm; height reduction H=0.1 mm.

To estimate the compressibility factor of gas-oil, a cylindrical test tube is provided, made of a ceramiC material. A certain volume of gas-oil is poured in the test tube, and a weight is placed over it to reduce its volume. From the obtained data, determine the gas-oil compressibility factor. Solution: K=1621.7 MPa. Data: - Test tube: interior diameter D=10 mm. Weight: m=6.5 kg. - Gas-oil: density (at 1 bar) =892 kg/m3; initial height H=200 mm; height reduction H=0.1 mm.

Refrigeration and Air Conditioning Technology (MindTap Course List)

8th Edition

ISBN:9781305578296

Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Chapter11: Calibrating Instruments

Section: Chapter Questions

Problem 4RQ: Temperature-measuring instruments may be designed to measure the temperature of vapors, ________,...

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