Background: Water towers are elevated water storage construction that are built at a certain height to provide for sufficient water pressure to serve as potable water distribution units. Consider the following case and answer the questions below the image: Find: O Horse |-minor losses Cm) -major losses (m) Grven Muso = lc02 Ns Suzo = 998-2 kg Fpes ? NC - e= 0-0015 mm m2 D;= 2ocm House Abug gromd 田田 Yom. Val ue Unday gainel Velbo D2=10cm D=Yem Contradion Figure 3: Schematic diagram of water distribution unit More information provided: • The pipe is buried 1.5 [m] below the ground level. The mass flow rate as it comes out of the reservoir is 9.5 L/s. Any other distances not given in the problem statement and Figure 3 can be neglected as they are considered very small compared to other dimensions. What is the minor head loss in the system (in meters)? What is the major head loss in the system (in meters)? What is the required height (h) to have a pressure reaching the house (P howve" 350 |kPa]) ?

Background: Water towers are elevated water storage construction that are built at a certain height to provide for sufficient water pressure to serve as potable water distribution units. Consider the following case and answer the questions below the image: Find: O Horse |-minor losses Cm) -major losses (m) Grven Muso = lc02 Ns Suzo = 998-2 kg Fpes ? NC - e= 0-0015 mm m2 D;= 2ocm House Abug gromd 田田 Yom. Val ue Unday gainel Velbo D2=10cm D=Yem Contradion Figure 3: Schematic diagram of water distribution unit More information provided: • The pipe is buried 1.5 [m] below the ground level. The mass flow rate as it comes out of the reservoir is 9.5 L/s. Any other distances not given in the problem statement and Figure 3 can be neglected as they are considered very small compared to other dimensions. What is the minor head loss in the system (in meters)? What is the major head loss in the system (in meters)? What is the required height (h) to have a pressure reaching the house (P howve" 350 |kPa]) ?

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

Equilibrium and Support Reactions

Civil engineers deal with structures that are composed of several members connected or with individual members such as beams and columns. To analyze such structures, the condition of statics must be applied. Under the static condition, the members are considered to be in equilibrium under the action of forces, that is, the members are assumed to be having negligible velocity.

Question

solve for 2 and 3

Background: Water towers are elevated water storage construction that are built at a certain height to provide
for sufficient water pressure to serve as potable water distribution units. Consider the following case and
answer the questions below the image:
Reguired :
é Hose = 3s0Ka -h
Find:
|-minor bsses (m)
-major lases (m)
GRven:
Meno = lco2 Ns
Suzo = 998-2 k
D-locm Ppes ? PNC - e= 00015 mm
m2
Honse
- lam
gramd
印由
KYom.
Ball
Val ue
Unday
gainel
90° elbow
D2=10cm
Contra fion
Figure 3: Schematic diagram of water distribution unit
More information provided:
- The pipe is buried 1.5 [m] below the ground level.
The mass flow rate as it comes out of the reservoir is 9.5 L/s.
Any other distances not given in the problem statement and Figure 3 can be neglected as they are considered very
small compared to other dimensions.
What is the minor head loss in the system (in meters)?
What is the major head loss in the system (in meters)?
What is the required height (h) to have a pressure reaching the house (P howse- 350 [kPa]) ?

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