Problem 1 Water at 20°C flows with a flow rate of (50+X) Vs from a large reservoir to a small reservoir through a 150 mm diameter cast iron piping system as shown in Figure A. Considering surface roughness value as 0.26 mm and kinematic viscosity as 1.004 x 10-6m/s; determine the following: メ-8 1) Major and minor losses in the piping system 2) Elevation Z, in the larger reservoir DEGO Sharp edged Z=? Regular elbow 90 flanged entrance Zz=4.0 m (9+X) m Gate valve fully open Ke=1.00 (40+X) m (40+X) m Figure A
Problem 1 Water at 20°C flows with a flow rate of (50+X) Vs from a large reservoir to a small reservoir through a 150 mm diameter cast iron piping system as shown in Figure A. Considering surface roughness value as 0.26 mm and kinematic viscosity as 1.004 x 10-6m/s; determine the following: メ-8 1) Major and minor losses in the piping system 2) Elevation Z, in the larger reservoir DEGO Sharp edged Z=? Regular elbow 90 flanged entrance Zz=4.0 m (9+X) m Gate valve fully open Ke=1.00 (40+X) m (40+X) m Figure A
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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Transcribed Image Text:Problem 1
Water at 20°C flows with a flow rate of (50+X) Vs from a large reservoir to a small reservoir through
a 150 mm diameter cast iron piping system as shown in Figure A. Considering surface roughness
value as 0.26 mm and kinematic viscosity as 1.004 x 10-6m/s; determine the following:
メ-8
1) Major and minor losses in the piping system
2) Elevation Z, in the larger reservoir
DEGO
Sharp edged
Z=?
Regular elbow 90
flanged
entrance
Zz=4.0 m
(9+X) m
Gate valve fully
open
Ke=1.00
(40+X) m
(40+X) m
Figure A
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