Respuesta :
Answer:
flow rate is 8.0385 × [tex]x^{-4}[/tex] m³/s or 12.741 gpm
Explanation:
given data
12-nominal schedule 40 pipe
Reynolds number = 2000
to find out
What is the flow rate
solution
we know the diameter of 12-nominal schedule 40 pipe is
Diameter = 12.75 inch
D = 0.32385 m
and
dynamic viscosity of Turpentine is = 0.001375 Pa-s
and Density of Turpentine is 870 kg/m³
so
Reynolds number is express as
Re = [tex]\frac{\rho*V*D}{\mu}[/tex]
here ρ is density and D is diameter and V is velocity and µ is viscosity
so put here all value
2000 = [tex]\frac{870*V*0.3238}{0.001375}[/tex]
V = 9.7619 × [tex]x^{-3}[/tex] m/s
and
flow rate is
Q = V × A
here A is area and Q is flow rate
Q = 9.7619 × [tex]x^{-3}[/tex] × [tex]\frac{\pi }{4} * 0.3238^2[/tex]
Q = 8.0385 × [tex]x^{-4}[/tex] m³/s
so flow rate is 8.0385 × [tex]x^{-4}[/tex] m³/s or 12.741 gpm
