(c) Venturi-type flowmeter shown in Figure 5 is used to obtain the flowrate of oil inside a conduit. The diameter of the venturi, d is one third of the pipe diameter, D. The pipe diameter D is 6 cm, pressure difference reading AP, is 25 kPa, discharge coefficient Ca, is 0.98, Bis the ratio of venturi diameter to pipe diameter and oil specific gravity, SG is 0.95. i) Calculate the volume flowrate of oil inside the conduit. ii) Determine the mass flowrate of oil inside the conduit. iii) Explain why the discharge coefficient Ca, for the ventury meter is higher compared to the nozzle meter.
(c) Venturi-type flowmeter shown in Figure 5 is used to obtain the flowrate of oil inside a conduit. The diameter of the venturi, d is one third of the pipe diameter, D. The pipe diameter D is 6 cm, pressure difference reading AP, is 25 kPa, discharge coefficient Ca, is 0.98, Bis the ratio of venturi diameter to pipe diameter and oil specific gravity, SG is 0.95. i) Calculate the volume flowrate of oil inside the conduit. ii) Determine the mass flowrate of oil inside the conduit. iii) Explain why the discharge coefficient Ca, for the ventury meter is higher compared to the nozzle meter.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:(c) Venturi-type flowmeter shown in Figure 5 is used to obtain the flowrate of oil inside a
conduit. The diameter of the venturi, d is one third of the pipe diameter, D. The pipe
diameter D is 6 cm, pressure difference reading AP, is 25 kPa, discharge coefficient Ca, is
0.98, Bis the ratio of venturi diameter to pipe diameter and oil specific gravity, SG is 0.95.
i)
Calculate the volume flowrate of oil inside the conduit.
ii)
Determine the mass flowrate of oil inside the conduit.
iii)
Explain why the discharge coefficient Ca, for the ventury meter is higher compared
to the nozzle meter.
2(P – P.)
V.
ventury
AP
oil
d
Figure 5
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