The open U-tube manometer according to Figure 2.2-.4a (Geancopical Book) is used to measure the absolute pressure pa in a tank filled with gas. Pressure pb is atmospheric pressure, which is 754 mm Hg. The liquid (A) in the manometer is water that has a density of ρA = 1000 kg / m3, and the liquid (B) is a compound with a density of ρB = 2.10 kg / m3. The reading of R is 1,915 m. Calculate pa in psia and kPa using equations 2.2-13 in a Geancopical book. Pressure in tank = Answer kPa. = Answer psia.
The open U-tube manometer according to Figure 2.2-.4a (Geancopical Book) is used to measure the absolute pressure pa in a tank filled with gas. Pressure pb is atmospheric pressure, which is 754 mm Hg. The liquid (A) in the manometer is water that has a density of ρA = 1000 kg / m3, and the liquid (B) is a compound with a density of ρB = 2.10 kg / m3. The reading of R is 1,915 m. Calculate pa in psia and kPa using equations 2.2-13 in a Geancopical book. Pressure in tank = Answer kPa. = Answer psia.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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The open U-tube manometer according to Figure 2.2-.4a (Geancopical Book) is used to measure the absolute pressure pa in a tank filled with gas. Pressure pb is atmospheric pressure, which is 754 mm Hg. The liquid (A) in the manometer is water that has a density of ρA = 1000 kg / m3, and the liquid (B) is a compound with a density of ρB = 2.10 kg / m3. The reading of R is 1,915 m. Calculate pa in psia and kPa using equations 2.2-13 in a Geancopical book. Pressure in tank = Answer kPa. = Answer psia.
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