Take water density p = 998 kg/m° and dynamic viscosity u = 0.001 kg/(m.s). The total flow rate is 200 m/hr of water at 20°C. By using the pipes in series equations along with either the Moody chart or the Colebrook iteratively, determine (a) the flow rate in each pipe, and (b) the pressure drop across the system.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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(4) Three cast iron pipes are laid in parallel with the dimensions given in the table below:
Pipe
Length, m
Diameter, cm
1
800
12
600
8
3
900
10
Take water density p
998 kg/m and dynamic viscosity u = 0.001 kg/(m.s). The total flow
rate is 200 m'/hr of water at 20°C. By using the pipes in series equations along with either the
Moody chart or the Colebrook iteratively, determine
(a) the flow rate in each pipe, and
(b) the pressure drop across the system.
Transcribed Image Text:(4) Three cast iron pipes are laid in parallel with the dimensions given in the table below: Pipe Length, m Diameter, cm 1 800 12 600 8 3 900 10 Take water density p 998 kg/m and dynamic viscosity u = 0.001 kg/(m.s). The total flow rate is 200 m'/hr of water at 20°C. By using the pipes in series equations along with either the Moody chart or the Colebrook iteratively, determine (a) the flow rate in each pipe, and (b) the pressure drop across the system.
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