The turbine at C draws a power P kW. If the intake B has a diameter of de mm. The pressure at the intake B is Ps kPa and the velocity of the water (density 1kg/L) at that point is v (m/s). d3 (mm) dĄ(mm) The frictional losses between A and B are At neglected, and the exit A has a diameter of da B1 mm. Consider the data in the table to M = last two digits of your student ID da(mm) = M + 150 P (kPa) = M + 380 P (kW) = 0.5M + 68.5 d (mm) = M + 400 v (m/s) = 0.1M + 4 a- Calculate the velocity at the exit A b- Calculate the discharge at the exit A c- Calculate the turbine head

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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The turbine at C draws a power P kW. If the
intake B has a diameter of de mm. The pressure
dg(mm)
dĄ(mm)
at the intake B is Ps kPa and the velocity of the
water (density = 1kg/L) at that point is v (m/s).
The frictional losses between A and B are
At
neglected, and the exit A has a diameter of da
B1
mm. Consider the data in the table to
M = last two digits of your student ID
P (kW) = 0.5M + 68.5
da(mm) = M + 150
dp (mm) %3D М + 400
PB (kPa) = M + 380
v (m/s) = 0.1M + 4
a- Calculate the velocity at the exit A
b- Calculate the discharge at the exit A
c- Calculate the turbine head
d- Calculate the pressure at A
m=13
Transcribed Image Text:The turbine at C draws a power P kW. If the intake B has a diameter of de mm. The pressure dg(mm) dĄ(mm) at the intake B is Ps kPa and the velocity of the water (density = 1kg/L) at that point is v (m/s). The frictional losses between A and B are At neglected, and the exit A has a diameter of da B1 mm. Consider the data in the table to M = last two digits of your student ID P (kW) = 0.5M + 68.5 da(mm) = M + 150 dp (mm) %3D М + 400 PB (kPa) = M + 380 v (m/s) = 0.1M + 4 a- Calculate the velocity at the exit A b- Calculate the discharge at the exit A c- Calculate the turbine head d- Calculate the pressure at A m=13
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