Water (at 30 C/ with a discharge of 200 1/s flows through a 400-mm, 100 m gálvanized pipe (ɛ = 0.16 mm) in the system shown below from right to left and there is a pump (E) in the system. in other to calculate the minor losses, assume the following in the figure, A is a diffuser (K = 4.5), C is a Check valve (open); E is the Pump: F represents three (3- for redundnacy) ANGLE valves (open). The elbows in the system are 90° threaded elbows and the tees (B and D) are threaded (through flow). For the entrance minor loss from the RIGHT tank, assume K = 2.5. [Hint: see appropriate table values provided in Exam for K values not provided] The flow is fully turbulent. The elevation difference is 60 m as shown. Answer the questions below. %3D

Water (at 30 C/ with a discharge of 200 1/s flows through a 400-mm, 100 m gálvanized pipe (ɛ = 0.16 mm) in the system shown below from right to left and there is a pump (E) in the system. in other to calculate the minor losses, assume the following in the figure, A is a diffuser (K = 4.5), C is a Check valve (open); E is the Pump: F represents three (3- for redundnacy) ANGLE valves (open). The elbows in the system are 90° threaded elbows and the tees (B and D) are threaded (through flow). For the entrance minor loss from the RIGHT tank, assume K = 2.5. [Hint: see appropriate table values provided in Exam for K values not provided] The flow is fully turbulent. The elevation difference is 60 m as shown. Answer the questions below. %3D

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Basic Terminologies

Terminology is a systematic study for the implementation of the terms or words and their correspondence within their respective domain of human activity in the case of multilingual (more than 2) or bilingual (2) languages. Terminology is defined as the study of concepts, conceptual related phrases or expressions, and lexicography, on the other hand, is the discipline used to study any type of word and its meaning. Technical ventures and institutes create and gather their resources or word collection also known as a Glossary.

Common Units Of Pressure

Pressure is something that we experience in daily life but fail to recognize it as our body is so accustomed to it. For example, the atmospheric air applies pressure on our body, but we don’t feel it as we are exposed to it since birth and our body is habitual to it. When we write using a pen, we need to apply some pressure over the pen to make it start writing. But these are our day-to-day activity which we fail to recognize

Question

Water (at 30 C with a discharge of 200 1/s flows through a 400-mm, 100 m galvanized iron
pipe (ɛ = 0.16 mm) in the system shown below from right to left and there is a pump (E) in the system.
In other to calculate the minor losses, assume the following in the figure, A is a diffuser (K = 4.5), C is a
Check valve (open); E is the Pump; F represents three (3- for redundnacy) ANGLE valves (open). The
elbows in the system are 90° threaded elbows and the tees (B and D) are threaded (through flow). For
the entrance minor loss from the RIGHT tank, assume K = 2.5. [Hint: see appropriate table values
provided in Exam for K values not provided]
The flow is fully turbulent. The elevation difference is 60 m as shown.
Answer the questions below.
60m
B
a) [10] What is the velocity of the flow [m/s] in the system?
[m/s]
Velocity of flow in the Pipe =
b) [15] Determine the friction factor for the flow in the system
Friction factortfor the flow in the Pipe =0. 000 16
c) [15| Determine the minor headloss [m] for the flow in the system
on
Minor headloss Pípe =
[m]
d) [20] Determine the friction headloss [m] for the flow in the system
Friction headloss Pipe =
[m]
e) [20] Determine the head supplied by the pump, E [m] to the flow
Fread of Pump =
0 115 f the pump in the system has an efficiency of 78%, determine the power (kW} supplied to the pump?
[m]
Power Supplied to Pump =
[kW
CVEG 4303P01
Water Rooo

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