Q2) What is the maximum flow rate through the pipe shown in blow if the elevation difference of the reservoir surfaces is 80 m. and pipe friction factor is 0.024. K1= 0.5 for the pipe entrance,K2=1.0 for exit and K3= 1.0 for valve as shown in fig. * Valve (K- 1.0) Water 15'C 2000 m 80-cm-dia. concrete pipe
Q2) What is the maximum flow rate through the pipe shown in blow if the elevation difference of the reservoir surfaces is 80 m. and pipe friction factor is 0.024. K1= 0.5 for the pipe entrance,K2=1.0 for exit and K3= 1.0 for valve as shown in fig. * Valve (K- 1.0) Water 15'C 2000 m 80-cm-dia. concrete pipe
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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![4 %YT |. In.
网IY:E0
Q2) What is the maximum flow
rate through the pipe shown in
blow if the elevation difference
of the reservoir surfaces is 80
m. and pipe friction factor is
0.024. K1= 0.5 for the pipe
entrance,K2=1.0 for exit and K3=
1.0 for valve as shown in fig. *
Valve (K= 1.0)
Water 15°C
2000 m
80-cm-dia.
concrete pipe
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Transcribed Image Text:4 %YT |. In.
网IY:E0
Q2) What is the maximum flow
rate through the pipe shown in
blow if the elevation difference
of the reservoir surfaces is 80
m. and pipe friction factor is
0.024. K1= 0.5 for the pipe
entrance,K2=1.0 for exit and K3=
1.0 for valve as shown in fig. *
Valve (K= 1.0)
Water 15°C
2000 m
80-cm-dia.
concrete pipe
1 Add file
Вack
Next
Clear form
Never submit passwords through Google Forms.
This form was created inside of University of
Diyala. Report Abuse
ter
II
>
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