Hydraulic Engineering Prof. Zaher Kuhail Eng. Tamer Eshtaw i
Hydraulic EngineeringHydraulic
Engineering
Prof. Zaher Kuhail
Eng. Tamer Eshtawi
Prof. Zaher Kuhail
Eng. Tamer Eshtawi
Lecture 12
Water Pump
Safety systems on pipelines to avoid (water hummer)
• Pump Inertia
• Bypass Reflex Valve
• Surge Tanks
• Discharge Tanks
• Reflex Valve
Water Pump• Water pumps are devices
designed to convert mechanical energy to hydraulic energy. They are used to move water from lower points to higher points with a required discharge and pressure head. This chapter will deal with the basic hydraulic concepts of water pumps.
Pump Classification
• Turbo-hydraulic (kinetic) pumpsCentrifugal pumps (radial-flow pumps)Propeller pumps (axial-flow pumps)Jet pumps (mixed-flow pumps)
• Positive-displacement pumps Screw pumpsReciprocating pumps
Centrifugal pumps (radial-flow pumps)
Propeller pumps (axial-flow pumps)
Centrifugal Pump Impeller; which is the rotating part of
the centrifugal pump .
Casing; which is an air-tight passage surrounding the impeller
Suction Pipe with a Foot-valve and a Strainer
Delivery Pipe
The Shaft
The Motor
Hydraulic Analysis of Pumps and Piping Systems
H t
hd
H s
tat
h s
H m
s
H m
d
Datum pump center line
h fs
h f
d
Case 1
H s
tat
H m
dH
ms
hd
H t
h s
Datum pump center line
h f
d
h f
s
Case 2
• hs (static suction head): it is the difference in elevation between the suction liquid level and the centerline of the pump impeller.
• hd (static discharge head): it is the difference in elevation between the discharge liquid level and the centerline of the pump impeller.
• Hstat (static head): it is the difference (or sum) in elevation between the static discharge and the static suction heads, .
• Hms (manometric suction head): it is the suction gage reading (if a manometer is installed just at the inlet of the pump, then Hms is the height to which the water will rise in the manometer).
• Hmd (manometric discharge head): it is the discharge gage reading (if a manometer is installed just at the outlet of the pump, then Hmd is the height to which the water will rise in the manometer).
• Hm (manometric head): it is the increase of pressure head generated by the pump, .
• Ht (total dynamic head): it is the total head delivered by the pump:
)2
(2
22
g
VH
g
VHH s
msd
mdt
)2
(2
22
g
VH
g
VHH s
msd
mdt
Case 1
Case 2
g
V
g
VHHH sd
msmdt 22
22
2 Case ,2
1 Case ,2
2
2
g
VhhhH
g
VhhhH
hhhH
SmSSfSmS
SmSSfSmS
mddfdmd
HP V
gZ
P V
gZt
d dd
s ss
2 2
2 2Or From Bernoulli
Pump Efficiency
p
o
i
t
i
Power output
Power input
P
P
Q H
P
•Motor which has an the efficiency
PQ H
it
p
•Which is the power input delivered from the motor to the pump
m
im P
P
which is the power input delivered to the motor .
•The overall efficiency of the motor-pump system o p m
Example 1Pump with suction pipe diameter of 100mm and delivery pipe diameter of 75mm, Q in the system is 15L/s. the manometeric suction head is 198 mm of mercury, where the manometeric discharge pressure is 0.95 bar. Motor power is 3.2 KW
S
SSd
ddt Z
g
V
γ
PZ
g
V
γ
PH
22
22
m 69.910.1980.95 bar 95.0γ
Pheadwater
d
m 5.21)(13.6 198.0γ
Ps
m 588.02/V 2d gm/s 39.3Vd
m 186.02/V 2s gm/s 91.1Vs
m...-...H t 9911588052201860699
Solution
3200t
m
o ρgQH
P
Pη
percent ..
...η 55550
23
99110150819
Efficiency