presenter: bobby evans, p.eng. · 2020. 1. 28. · typical centrifugal pump 8 2 4 7 5 6 1 3 1....
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![Page 1: PRESENTER: BOBBY EVANS, P.ENG. · 2020. 1. 28. · TYPICAL CENTRIFUGAL PUMP 8 2 4 7 5 6 1 3 1. Suction (Suction Pressure) 2. Impeller 3. Discharge (Discharge Pressure) 4. Stationary](https://reader031.vdocuments.site/reader031/viewer/2022012008/61211e1d629f37461c59bc9c/html5/thumbnails/1.jpg)
10 WAYS TO MURDER YOUR PUMP
PRESENTER: BOBBY EVANS, P.ENG.
![Page 2: PRESENTER: BOBBY EVANS, P.ENG. · 2020. 1. 28. · TYPICAL CENTRIFUGAL PUMP 8 2 4 7 5 6 1 3 1. Suction (Suction Pressure) 2. Impeller 3. Discharge (Discharge Pressure) 4. Stationary](https://reader031.vdocuments.site/reader031/viewer/2022012008/61211e1d629f37461c59bc9c/html5/thumbnails/2.jpg)
VICTIM: CENTRIFUGAL PUMPS
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TYPICAL CENTRIFUGAL PUMP
8
2 4 75
6
1
31. Suction (Suction Pressure)2. Impeller3. Discharge (Discharge Pressure)4. Stationary Casing & Rear Cover5. Rotating Shaft6. Packing / Mechanical Seal in Stuffing Box (Stuffing Box Pressure)7. Gland8. Radial & Thrust Bearings to Support the Shaft
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CRIME SCENE INVESTIGATION PERFORMANCE CURVE
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TYPICAL CENTRIFUGAL PUMP HYDRAULIC BALANCE
A - Suction (low P, low V)
B - Eye of Impeller (low P, low V)
C - Vanes of Impeller (increasing P, high V)
D - Volute (high P, low V)
E - Discharge (high P, low V)
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PUMP RELIABILITY – BEST PRACTICE
High Temperature
RiseLowFlow
Cavitation
LowerImpeller Life
DischargeRecirculation
Suction Recirculation
Low Bearing &Low Seal Life
Low Bearing &Low Seal Life
Cavitation% H
ead
% Flow
Pump Curve
BestEfficiency
Point
![Page 7: PRESENTER: BOBBY EVANS, P.ENG. · 2020. 1. 28. · TYPICAL CENTRIFUGAL PUMP 8 2 4 7 5 6 1 3 1. Suction (Suction Pressure) 2. Impeller 3. Discharge (Discharge Pressure) 4. Stationary](https://reader031.vdocuments.site/reader031/viewer/2022012008/61211e1d629f37461c59bc9c/html5/thumbnails/7.jpg)
EVIDENCE: DISCHARGE CAVITATION• Pitting on vane tips.• Fluid vaporizes due to low
pressure condition.• Vapour condenses on the surface
of the impeller like a mini implosion.
• Recirculation, operating near shut-off.
![Page 8: PRESENTER: BOBBY EVANS, P.ENG. · 2020. 1. 28. · TYPICAL CENTRIFUGAL PUMP 8 2 4 7 5 6 1 3 1. Suction (Suction Pressure) 2. Impeller 3. Discharge (Discharge Pressure) 4. Stationary](https://reader031.vdocuments.site/reader031/viewer/2022012008/61211e1d629f37461c59bc9c/html5/thumbnails/8.jpg)
EVIDENCE: SUCTION CAVITATION• Pitting on impeller vane –
suction side.• Fluid vaporizes due to low
suction pressure.• Vapour condenses on the
surface of the impeller like a mini implosion.
• Low suctions pressure, operating near run-out.
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EVIDENCE: SHAFT BREAKAGERadial Fatigue Break
• Total Dynamic Head Too High• Dead Head• Air Entrainment (Hydraulic Imbalance)• Mechanical Imbalance
Torsional Break (twisting)• Pump Lock-up• Reverse Rotation• Short Cycling
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#1 - STARVED TO DEATHInsufficient NPSHA
• Restricting the suction line• Lowing the fluid level in the supply source
Run Dry operation• Mechanical seal thermal shock• Poor cooling of rotating components - Thermal expansion
Lack of seal flushLack of lubricantIndicators
• Audible cavitation – collapse of vapour causing erosion on the impeller & cut water• Low suction gauge pressure
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#2 - WORK IT TO DEATHOperating outside the allowable operating range
• Hydraulic imbalance at runout• Cavitation• Vibration
Running into the motor service factorFrequent start/stop cycles
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#3 - BEAT TO DEATHAbrasives, Grit, Solids
• Clog or even break the pump• Shorten life of casing, impeller, seal, wear plate/rings.• Impeller imbalance• Efficiency reduction
Match materials for the process fluid• Hardened metal or rubberlined materials for abrasives
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#4 - TOO MUCH STRESSPump casing deflection
• Pipe strain to pump nozzles• Pumps do NOT support pipes/valves• Soft foot• Thermal expansion
Common Corrective Action• Expansion joints• Precision alignment
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#5 - MARRIAGEIt’s all about compatibility
• Efficient hydraulic selection• Incorrect style of pump• Chemically compatible• Proper sizing of the suction and
discharge pipe• Piping configuration
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#6 - DROWNINGWater in the oil
• Small amount of water in the bearing oil can drastically reduce bearing life.• Promote oil seal leaks
Seal Flush Water Management• Direct leakage away from the pump• Adjust packing leakage to a minimum (1 drop/sec)
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#7 - BOILED TO DEATH Operating at or near shutoff.
• Excessive recirculation• Increase internal temperature & pressure• Radial loads – shaft deflection, reduced bearing life.• Vibration, cavitation• High seal temperature
Potential Sources• Partially closed valve• Clogged discharge line• Upset system upstream
Pump Protection• Heat detection and shutdown protection• Discharge pressure monitoring & protection.• Pressure relief device
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#8 - POISONEDFluid Compatibility
• Pumps are designed to handle specific fluid properties.
• Fluid property changes can have a negative impact on the pump. Temperature, chemistry, density, viscosity.
Corrosive Environments• Chlorine rich environments, salt water
environment, submersible pumps• Heavy corrosion on pump casing & mating
surfaces• Corrosion fatigue
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#9 - SHAKE TO DEATHSources of Vibration
• Pump hydraulic selection• Machine imbalance• Resonance with natural frequency of the pipework
Mitigating Vibration• Operate pump near BEP• Proper installation – soft foot, alignment• Anchoring & grouting to a solid foundation• Piping support
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#10 - NEGLECTFollow O&M Manual maintenance inspectionsGet to know your pumpRecord anomalies and corrective actionsMonitor gauge readings, amp draw.Keep the lubricates clean and at proper levels