The bathroom plumbing of a building consists of 1.5-cm-diameter copper pipes with threaded connectors, as shown in Fig. 2. (a) If the gage pressure at the inlet of the system is 200 kPa during a shower and the toilet reservoir is full (no flow in that branch), write a Matlab code to determine the flow rate of water through the shower head, friction factor, velocity and Reynolds number. (b) Determine the effect of flushing of the toilet on the flow rate through the shower head. Take the loss coefficients of the shower head and the reservoir to be 12 and 14, respectively. i. ii. iii. iv. the volume flow rate (V₁, V₂ and V3) through each of the parallel pipes. the velocities (V1, V2 and V3) through each of the pipes. the Reynolds numbers (Re₁, Re₂ and Re3) through each of the pipes. the friction factor (f₁, f2 and f3) through each of the pipes.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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The bathroom plumbing of a building consists of 1.5-cm-diameter copper pipes with
threaded connectors, as shown in Fig. 2.
(a) If the gage pressure at the inlet of the system is 200 kPa during a shower and the toilet
reservoir is full (no flow in that branch), write a Matlab code to determine the flow rate
of water through the shower head, friction factor, velocity and Reynolds number.
(b) Determine the effect of flushing of the toilet on the flow rate through the shower head.
Take the loss coefficients of the shower head and the reservoir to be 12 and 14, respectively.
i.
ii.
iii.
iv.
the volume flow rate (V₁, V₂ and V3) through each of the parallel pipes.
the velocities (V₁, V₂ and V3) through each of the pipes.
the Reynolds numbers (Re₁, Re₂ and Re3) through each of the pipes.
the friction factor (f₁, f2 and f3) through each of the pipes.
Transcribed Image Text:The bathroom plumbing of a building consists of 1.5-cm-diameter copper pipes with threaded connectors, as shown in Fig. 2. (a) If the gage pressure at the inlet of the system is 200 kPa during a shower and the toilet reservoir is full (no flow in that branch), write a Matlab code to determine the flow rate of water through the shower head, friction factor, velocity and Reynolds number. (b) Determine the effect of flushing of the toilet on the flow rate through the shower head. Take the loss coefficients of the shower head and the reservoir to be 12 and 14, respectively. i. ii. iii. iv. the volume flow rate (V₁, V₂ and V3) through each of the parallel pipes. the velocities (V₁, V₂ and V3) through each of the pipes. the Reynolds numbers (Re₁, Re₂ and Re3) through each of the pipes. the friction factor (f₁, f2 and f3) through each of the pipes.
Cold
water
(1)]
5 m
Toilet reservoir
with float
K₁ = 14
(3)
O
Shower head
K₁ = 12
2
4 m
2 m
H
Globe valve,
fully open
K₁ = 10
1 m
K₁ =2
K₁ = 10
×
K₁ = 0.9
Transcribed Image Text:Cold water (1)] 5 m Toilet reservoir with float K₁ = 14 (3) O Shower head K₁ = 12 2 4 m 2 m H Globe valve, fully open K₁ = 10 1 m K₁ =2 K₁ = 10 × K₁ = 0.9
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