7faults; causes and remedies – Flowserve M-series PolyChem User Manual

USER INSTRUCTIONS PolyChem M-SERIES ENGLISH 71569218 07-11

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7

FAULTS; CAUSES AND REMEDIES

The following is a guide to troubleshooting problems with Flowserve PolyChem pumps. Common problems are
analyzed and solutions offered. Obviously, it is impossible to cover every possible scenario. If a problem
exists that is not covered by one of the examples, then refer to one of the books listed in section 10 Additional
sources of information or contact a Flowserve sales engineer or distributor/representative for assistance.

FAULT SYMPTOM

Pump not reaching design flow rate

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Pump not reaching design head (TDH)

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No discharge or flow with pump running

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Pump operates for short period, then loses prime



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Excessive noise from wet end

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Excessive noise from power end

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Pump exhibits increased or higher than anticipated power consumption

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Pump exhibits decreased or lower than anticipated power consumption

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PROBABLE CAUSES

POSSIBLE REMEDIES

   

Insufficient NPSH. (Noise may not

be present.)

Recalculate NPSH available. It must be greater than the NPSH required by
pump at desired flow. If not, redesign suction piping, holding number of
elbows and number of planes to a minimum to avoid adverse flow rotation as
it approaches the impeller.

  

 System head greater than

anticipated.

Reduce system head by increasing pipe size and/or reducing number of
fittings. Increase impeller diameter. (nb: Increasing impeller diameter
may require use of a larger motor.)

  

Entrained air. Air leak from

atmosphere on suction side.

1. Check suction line gaskets and threads for tightness.
2. If vortex formation is observed in suction tank, install vortex breaker.
3. Check for minimum submergence

 

Entrained gas from process.

Process generated gases may require larger pumps.

 

 Speed too low.

Check motor speed against design speed.

  

Direction of rotation wrong.

After confirming wrong rotation, reverse any two of three leads on a three
phase motor. The pump should be disassembled and inspected before it
is restarted.

 

 Impeller too small.

Replace with proper diameter impeller. (NOTE: Increasing impeller
diameter may require use of a larger motor.)

  

Plugged impeller, suction line or
casing which may be due to a
product or large solids.

1. Reduce length of fiber when possible.
2. Reduce solids in the process fluid when possible.
3. Consider larger pump.

 



Wet end parts (casing, bearing
holder, impeller, containment shell)
worn, corroded or missing.

Replace part or parts.

 

 Not properly primed.

Repeat priming operation, recheck instructions. If pump has run dry,
disassemble and inspect the pump before operation.

  Impeller rubbing.

Check wet end bearings for wear.

 

 Damaged bushings pump shaft,

thrust bearings or impeller.

Replace damaged parts.



Abnormal fluid rotation due to

complex suction piping.

Redesign suction piping, holding the number of elbows and planes to a
minimum to avoid adverse fluid rotation as it approaches the impeller.

 

 Magnetic coupling decoupled due to

excessive temperature or excessive
horsepower requirements.

1.

Check process temperature to verify it’s within operating limits of
pump.

2. Check horsepower required by the process to verify it is within the

operating limits of the coupling size.

3. Replacement of the magnet assemblies may be necessary if the

magnets overheated and were permanently damaged. A static torque
test of the magnetic coupling may be necessary. Contact your
Flowserve representative for details.

  Inner magnet rubbing shell.

Check for damaged or worn pump shaft and bushings.