pump basics
DESCRIPTION
Pump TypesPump ApplicationsSelectionMaintenanceTRANSCRIPT
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Pump Basics
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Centrifugal Pumps
From the Center of a Circle
RADIAL DIRECTIONTo the Outside of a Circle
A machine for moving fluid by accelerating the fluid RADIALLY outward.
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This machine consists of an IMPELLER rotating within a case (diffuser)
Liquid directed into the center of the rotating impeller is picked up by the impeller’s vanes and accelerated to a higher velocity by the rotation of the impeller and discharged by centrifugal force into the case (diffuser).
Centrifugal Pumps
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Centrifugal Pumps
A collection chamber in the casing converts much of the Kinetic Energy (energy due to velocity) into Head or Pressure.
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Pump Terminology
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Head is a term for expressing feet of water column Head can also be converted to pressure
"Head"
100 feet
43.3 PSI
Reservoir of Fluid
Pressure Gauge
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Conversion Factors Between Head and Pressure
Head (feet of liquid) =Pressure in PSI x 2.31 / Sp. Gr. Pressure in PSI = Head (in feet) x Sp. Gr. / 2.31 PSI is Pounds per Square Inch Sp. Gr. is Specific Gravity which for water is equal to
1 For a fluid more dense than water, Sp. Gr. is
greater than 1 For a fluid less dense than water, Sp. Gr. is less
than 1
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Head
Head and pressure are interchangeable terms provided that they are expressed in their correct units.
The conversion of all pressure terms into units of equivalent head simplifies most pump calculations.
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Diameter of the Impeller
Thickness of the impeller
Centrifugal Impellers
Thicker the Impeller- More Water Larger the DIAMETER - More Pressure Increase the Speed - More Water and Pressure
Impeller Vanes
“Eye of the Impeller”
Water Entrance
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Two Impellers in Series
Direction of Flow
Twice the pressure Same amount of water
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Multiple Impellers in Series
Placing impellers in series increases the amount of head produced
The head produced = # of impellers x head of one impeller
Direction of Flow Direction of Flow
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Pump Performance Curve A mapping or graphing of the pump's ability to produce head
and flow
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Pump Performance CurveStep #1, Horizontal Axis
The pump's flow rate is plotted on the horizontal axis ( X axis)
Usually expressed in Gallons per Minute
Pump Flow Rate
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Pump Performance CurveStep #2, Vertical Axis
Pump Flow Rate
The head the pump produces is plotted on the vertical axis (Y axis)
Usually express in Feet of Water
Hea
d
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Pump Performance CurveStep #3, Mapping the Flow and the Head
Pump Flow Rate
Most pump performance curves slope from left to right
Performance Curve
Hea
d
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Pump Performance CurveImportant Points
Shut-off Head is the maximum pressure or head the pump can produce
No flow is produced
Pump Flow Rate
Hea
d
Shut-off Head
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Pump Performance CurveImportant Points
Pump Flow Rate
Hea
d
Maximum Flow
Maximum Flow is the largest flow the pump can produce
No Head is produced
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System Performance Curves
System Performance Curve is a mapping of the head required to produce flow in a given system
A system includes all the pipe, fittings and devices the fluid must flow through, and represents the friction loss the fluid experiences
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System Performance CurveStep #1, Horizontal Axis
System Flow Rate
The System's flow rate in plotted on the horizontal axis ( X axis)
Usually expressed in Gallons per Minute
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System Performance CurveStep #2, Vertical Axis
Pump Flow Rate
The head the system requires is plotted on the vertical axis (Y axis)
Usually express in Feet of Water
Hea
d
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System Performance CurveStep #3, Curve Mapping
The friction loss is mapped onto the graph The amount of friction loss varies with flow through
the system
Hea
d
Pump Flow Rate
Friction Loss
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Hea
d
Pump Flow Rate
The point on the system curve that intersects the pump curve is known as the operating
point.
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Hea
d
Pump Flow Rate
Circulator 1
Circulator 2
Circulator 3
PUMP SELECTION
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Controlling Pump Performance
Changing the amount for friction loss or "Throttling the Pump" will change the pump's performance
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Hea
d
Pump Flow Rate
PUMP SELECTION
Valve Open
Valve Partially OpenValve Barely Open
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Piping Design EquationsHeuristics for Pipe Diameter
0.494
0.408
0.343
3
:
2.607
:
1.065
,,1000 /
, /
Liquids
wD
Gases
wD
D Diameter inchesw Mass Flowrate lb hr
Density lb ft
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Energy Loss in Piping NetworksIncompressible Fluids
2 21 2 1 2 2 1
3
2
2
144 12
, /
, /
, /
, 32.174 / s,
,
L
f
L
P P v v z z hg
Density lb ft
P Pressure lb in
v Velocity ft sec
g Gravitational Acceleration ftz Elevation fth Head loss ft
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2
4
22122
0.00259
,,
,
1 ,
L
K Qh
dQ Volumetric Flowrate gpmd Pipe Diameter in
K Sum of all fittings
LK f straight pipeD
dK Sudden enlargementd
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Friction Loss Factors for Fittings
Fitting K
Standard 90o Elbow 30fT
Standard 45o Elbow 16fT
Standard Tee20fT Run
60 fT Branch
Pipe Entrance 0.78
Pipe Exit 1.0
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Friction Loss Factors for ValvesValve K
Gate valve 8fT
Globe Valve 340fT
Swing Check Valve 100fT
Lift Check Valve 600fT
Ball Valve 3fT
2
2
29.9
V
V
dKC
C Valve Coefficient
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Fanning Diagram
f =16/Re
1f
4.0 * logD
2.28
1f
4.0 * logD
2.28 4.0 * log 4.67 D /Re f
1
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Energy Loss in Valves Function of valve type and valve
position The complex flow path through valves
can result in high head loss (of course, one of the purposes of a valve is to create head loss when it is not fully open)
Ev are the loss in terms of velocity heads
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