3.2 Calculation design A = LXW Sport Area for 20 person it is 200 L/s Flow exhaust per area = A× 0.9 total exhaust flow = sport area for 20 person flow exhaust per area Q = V × Aduct AductLduct Wduct 4,665 15,791 Spell HL = (ƒ x² + + Σk) v² 5 elbow 90 degree 0.45 then the total K factor is 2.25 Kinematics viscosity = 1 × 10-5 m²/s Re = vxdequivelent pipe ν The friction factor is 0.03 = Aduct Apipe π × d² 4 We assume that the length pipe is 20 m pressure drop = Pair × g × H Pair 1.2 kg/m^3
3.2 Calculation design A = LXW Sport Area for 20 person it is 200 L/s Flow exhaust per area = A× 0.9 total exhaust flow = sport area for 20 person flow exhaust per area Q = V × Aduct AductLduct Wduct 4,665 15,791 Spell HL = (ƒ x² + + Σk) v² 5 elbow 90 degree 0.45 then the total K factor is 2.25 Kinematics viscosity = 1 × 10-5 m²/s Re = vxdequivelent pipe ν The friction factor is 0.03 = Aduct Apipe π × d² 4 We assume that the length pipe is 20 m pressure drop = Pair × g × H Pair 1.2 kg/m^3
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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i need a explanation about all formulas using in this picture and Where should I use each formula? In the duct please urgent..
Transcribed Image Text:3.2 Calculation design
A = LXW
Sport Area for 20 person it is 200 L/s
Flow exhaust per area = A× 0.9
total exhaust flow = sport area for 20
person flow exhaust per area
Q = V × Aduct
AductLduct Wduct
4,665
15,791
Spell
HL = (ƒ x² + + Σk) v²
5 elbow 90 degree 0.45 then the total K factor is 2.25
Kinematics viscosity = 1 × 10-5 m²/s
Re =
vxdequivelent pipe
ν
The friction factor is 0.03
=
Aduct Apipe π ×
d²
4
We assume that the length pipe is 20 m
pressure drop = Pair × g × H
Pair 1.2 kg/m^3
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