Water -Bo C CC14 D 2B.9 Analysis of a capillary flow meter. Determine the rate of flow (in lb/hr) through the capillary flow meter shown in Fig. 2B.9. The fluid flowing in the inclined tube is water at 20°C, and the manometer fluid is carbon tetrachloride (CCI,) with density 1.594 g/cm³. The capillary diameter is 0.010 in. Note: Measurements of H and I are sufficient to calculate the flow rate; need not be measured. Why? -L= 120"- T H=1.0" .-10 h = L sin 0 14. F E Fig. 2B.9 A capillary flow meter.
Water -Bo C CC14 D 2B.9 Analysis of a capillary flow meter. Determine the rate of flow (in lb/hr) through the capillary flow meter shown in Fig. 2B.9. The fluid flowing in the inclined tube is water at 20°C, and the manometer fluid is carbon tetrachloride (CCI,) with density 1.594 g/cm³. The capillary diameter is 0.010 in. Note: Measurements of H and I are sufficient to calculate the flow rate; need not be measured. Why? -L= 120"- T H=1.0" .-10 h = L sin 0 14. F E Fig. 2B.9 A capillary flow meter.
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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Transcribed Image Text:Water
-Bo
ck
CC14
D
2B.9 Analysis of a capillary flow meter. Determine the rate of flow (in lb/hr) through the capillary
flow meter shown in Fig. 2B.9. The fluid flowing in the inclined tube is water at 20°C, and
the manometer fluid is carbon tetrachloride (CCI) with density 1.594 g/cm³. The capillary
diameter is 0.010 in. Note: Measurements of H and L are sufficient to calculate the flow rate; 8
need not be measured. Why?
L= 120":
T
H = 1.0"
-10:-
h = L sin 0
E
Fig. 2B.9 A capillary flow meter.
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