A pipeline connecting three tanks contains 10 standard long elbows, 5 globe valves that is half open, and 3 gates valve that is 1/4 open. The line is commercial steel pipe, 40 mm internal diameter, length 200 m. The properties of the fluid are: viscosity 0.99 mNm-2 s, density 998 kg/m3. Calculate the total pressure drop due to friction using velocity heads method when the flow rate is 4000 kg/h and f = 0.0032.
A pipeline connecting three tanks contains 10 standard long elbows, 5 globe valves that is half open, and 3 gates valve that is 1/4 open. The line is commercial steel pipe, 40 mm internal diameter, length 200 m. The properties of the fluid are: viscosity 0.99 mNm-2 s, density 998 kg/m3. Calculate the total pressure drop due to friction using velocity heads method when the flow rate is 4000 kg/h and f = 0.0032.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![A pipeline connecting three tanks contains
10 standard long elbows, 5 globe valves
that is half open, and 3 gates valve that is
1/4 open. The line is commercial steel pipe,
40 mm internal diameter, length 200
m. The properties of the fluid are: viscosity
0.99 mNm-2 s, density 998 kg/m3.
Calculate the total pressure drop due to
friction using velocity heads method when
the flow rate is 4000 kg/h and f = 0.0032.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdbe2b333-22ef-411d-960b-cc955ce99c1f%2Fed0da1e0-bab0-4668-933f-68aa55cdc5e3%2Fev12fn_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A pipeline connecting three tanks contains
10 standard long elbows, 5 globe valves
that is half open, and 3 gates valve that is
1/4 open. The line is commercial steel pipe,
40 mm internal diameter, length 200
m. The properties of the fluid are: viscosity
0.99 mNm-2 s, density 998 kg/m3.
Calculate the total pressure drop due to
friction using velocity heads method when
the flow rate is 4000 kg/h and f = 0.0032.
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