1. Condition Based Diagnostic Techniques for Predictive Maintenance- A key of Success to Paper Industryby
Sanjay Tyagi, B. P. Thapliyal, R. M. Mathur and A. K. Ray
Central Pulp and Paper Research Institute, Saharanpur

2. Purpose of Maintenance of Industry
Fundamental purpose of maintenance in any process industry is to provide the required capacity for production at the lowest cost.
Should be regarded as a RELIABILITY function , not as a REPAIR function

3. Objective of the Maintenance
To achieve the correct level of operational reliability and best possible personal safety at minimum cost

4. Cost of Maintenance in Few Industries
S. No.
Industries
Maintenance cost (% of total sales) 1.
Pharmaceuticals Industry
16 % 2.
Car manufacturing 4% 3.
Chemical Industry 6% 4.
Engine manufacturing 7% 5.
Casting/Forging 8% 6.
Paper Manufacturing
10% 7.
Steel Industry
15% 8.
Electronics 2%

5. Classification of Maintenance
Preventive Maintenance
Breakdown Maintenance or corrective breakdown
Time based Maintenance (TBM)
Condition bases Maintenance

6. Corrective or Break Down Maintenance (Run to breakdown)
It covers the measures carried out in order to correct or repair faults after they have occurred.
Referred as “repair work” in everyday language.
If industry running too many in expensive machines where process duplicates , less of production is not significant as spares machines can take care off production.
In case of process industries like paper if large unduplicated process machine run to breakdown it severely affected production.

7. Time Based Preventive Maintenance
Plant management decides to take some actions with the aim of preventing failure occurring or at least reducing the chance of failure.
Maintenance on fixed or duty basis
Opportunity Maintenance
Design out maintenance
Management Policy

8. Experience has shown that in a vast majority of cases, above time based maintenance is UNECONOMICAL.
Instead of the reducing failure rate of the machine by replacing wear parts regularly, the opposite often happens.
Reliability of newly serviced machine is reduced temporarily by the interference.

9. As the actual failure pattern for each individual machine cannot be predicted, an individual approach is therefore needed.
Here role of ON-CONDITION maintenance comes

10. On - Condition Maintenance
Each machine is considered individually by making fixed interval condition measurement to obtain a quantitative value of the ‘health’ of the machine.
In this way servicing is only allowed when measurements show it is necessary.
Basis is that most mechanical components give some warning of their impending failure.

11. Predictive Maintenance
Predictive maintenance technique use sensing instruments to determine health in much the same way a doctor uses medical instruments to determine human health
Instead of stethoscope, blood pressure , X-rays , ECG etc, Predictive maintenance use technologies like Thermography , vibration analysis , oil analysis , ultrasonic measurements to gain early warning in order to plan corrective action.

12. Why condition based diagnostic techniques for predictive maintenance preferred ?
Only 11-17% of failure are time or age related.
On average 83 – 89 % of failure are random.

14. Today’s Maintenance is too Costly
65% of maintenance performed is corrective
30 % of maintenance is preventive of which
60% is unnecessary
5% is predictive

15. Use of condition based Predictive maintenance has dramatically reduces non- value added maintenance by eliminating the need of unnecessarily shutdown of the equipment for maintenance checks

16. Principle of Condition Monitoring

17. Some techniques of Condition based Predictive Maintenance
Thermography: infrared imaging to detect abnormal temperature or hot spots.
Vibration monitoring: accelerometer instruments can be used to detect abnormal or high vibration particularly in bearings.
Oil Analysis: Analysis of oil can detect the deterioration or breaking down of an internal equipment part.
Ultrasonic measurement: Use of ultrasonic technologies to detect leaks or blockages on utility system.

18. Vibration Monitoring
Best known technique for rotating machines such as pumps, air compressor steam turbine etc.
All machines to have some level of small vibration
Increase in the level of vibration is the indication of some mechanical fault in machine.

19. Vibration analysis uses accelerometer instruments to detect these vibration movements .
Results can be plotted (magnitude v/s frequency) using a mathematical representation called Fast Fourier's Transform (FFT). Which highlight the level of vibration and identifies which frequencies they are present in.

20. Relation Between Vibration and Mechanical Component
Typical vibration analysis FFT plot (magnitude vs. frequency)

22. Vibration analysis plot contain multiple fault frequencies
Analyst needs a detailed knowledge of the operating characteristics of the equipment (such as number of fan blades , RPMs, pulley ratios, bearing types etc)

23. Following type of problems can be determined using vibration analysis
Unbalance of rotary components
Mechanical looseness
Misalignment of drive system , shafts etc.
Belt deflection
Bearing deterioration and gear wear

24. Machine Condition and Vibration Spectrum
Cited from Technical Associate Co. USA

25. Machine Condition and Vibration Spectrum
Cited from Technical Associate Co. USA

26. Machine Condition and Vibration Spectrum
Cited from Technical Associate Co. USA

27. Pressure Fluctuation Analysis of Pump

28. Pressure Fluctuation Analysis of Pump

29. Pressure Fluctuation Analysis of Pump

30. Thermal Imaging or Thermography
Thermography is a temperature profiling of surface or point based on IR Technique
It is based on the principle that every object units certain amount of IR energy and the intensity of this IR radiation is a function of temperature.

31. Thermal imaging is used primarily on electrical panels to identify loose connection but now it is use in other applications .
Checking for blockages in pipes.
Carrying out heat survey in plants.
Mill drive train misalignment
Leakages from steam traps.
Misaligned pumps.

32. What is Thermography?
The term "Thermography" refers to the capturing of thermal patterns and data emitted by an object with the use of an infrared imaging and measurement camera.
An image is then produced with the camera that can give you data that is otherwise unattainable.

33. Infrared Zoon
Wavelength 8 to 14 μm

34. What is Infrared?
Infrared light is not visible to the naked eye because infrared wavelengths are too high on the electromagnetic spectrum.
The wave lengths are longer than those of visible light and shorter than those of radio waves. This part of the electromagnetic spectrum is what we perceive as heat or “heat radiation”.
Infrared is mostly associated with “hot spots”, but did you know that ANYTHING above absolute zero emits infrared heat?

35.                                                                                                                                                          
INFRARED CAMERA

36. Hot Connector Diagnostics

39. Thermal Image of Compressor

40. Use of Thermography in Maintenance
Monitoring of temperature and thermal patterns on
Pumps
Motors
Bearings
Pulleys
Fans
Drives
Conveyors etc while equipment is on line and running under full load.

41. Condition Monitoring
Industrial pumps are known to work continuously for many hours. If a pump stops working or starts to wear, this can cost a factory much needed time.
Using an IR camera to monitor the temperature of these type pumps, a maintenance worker can spot troubled pumps BEFORE the failure and address with little or no down time - saving you time and money.

43. Thermal imge of Plastic moulding showing uneven cooling

44. Thermal Image of Ball Bearing

45. Disadvantages Advantage of Thermography
It is non destructive and non contact type technique
It gives fast, reliable and accurate measurements.
Capable of catching moving targets in real time
Large surface area can be scanned
Measurement in areas inaccessible for hazardous for other methods
Disadvantages
Duality cameras are expensive having + 2 or worsen accuracy
Ability to only measure surface areas. Unable to detect the inside temperature

46. Leakage from a steam trap
Application of Thermography to Paper Industry
Steam Traps
Leakage from a steam trap

47. Determination of liquid level
Liquid Storage Tank
Determination of liquid level

48. Pulley System
Hot drive belts

49. Web Process
In this web process, you can easily see the non-uniformity of the sheet along the right side

51. Motor Coupling
Thermal image showing high temperature rise in motor bearing due to misaligned pump

52. Thermal image of paper roll showing moisture variation

53. Tribology based Diagnosis Technology or Lubricant Analysis
Tribology:- Branch of science dealing with lubricants and friction in rolling system.
Tribology based diagnosis technology (Lubricant analysis) is now becoming one of the major methods for maintenance engineering.

54. Oil Lubricant analysis
Lubrication Program Followed in Industry
Time based
Oil Lubricant analysis

55. Lubricant Analysis
Lubricant analysis indicates when an lubricant change out is required.
Allows condition based approach to lubricant change would super cede the change frequency based on running hours.
High Iron content indicating wear and tear ( may require further investigation of equipment)
Breakdown in oil additives
High water content
Change in viscosity levels.

56. Damage process of machine and lubrication system diagnosis
Tribology based diagnosis technique give prediction regarding machine wear out much earlier as compared to other predictive maintenance techniques.
Damage process of machine and lubrication system diagnosis

57. Ultrasonic Measurement
What is ultrasonic detection?
Sounds above 20 kHz are ultrasonic
Ultrasonic detectors convert ultrasound to
audible sounds.
Ultra sonic inspection can measure efficiency
and overall health of your production equipments.
Most versatile maintenance technology available.

59. Ultrasonic measurement instruments translate high frequency sounds produce by steam or air leaks into the audible range which can be heard through headphones and can be visualized on meter on display.

66. Use of Ultrasonic Testing for Steam Traps
Steam traps are temperature and condensate sensitive devices that open or closes automatically to allow condensate passes to drain.
Steam traps can fail open (in this case both steam and condensate passes to drain)
Steam traps fail closed (this result in internal build up of condensate in steam line)
The fail open steam trap can be detected by the ultrasonic frequencies present from the steam and condensate continuously leaking through the trap.
Failed closed trap can be detected by the absence of ultrasonic frequencies at the trap.

67. Acoustic Emission
This is relatively new technique for the detecting the initiation of cracks in machine structures.
As crack is initiated propagated through material, a stress pulse is generated and transmitted through a material, a stress pulse is generated and transmitted through the material as stress wave.
A transducer mounted on the surface, will detect the disturbance and produce on electric out put.
The source of the wave or location of the crack can be found by using three or more transducers.

68. The transducers detect high frequencies of 200 kHZ or more
The transducers detect high frequencies of 200 kHZ or more. Counters with a threshold limit register a count each time the signal level exceed the threshold values. Several other parameters like rise time, event duration etc. are also used for analysis
Acoustic emission has been successfully used in a number of applications testing of pressure vessels, detection of leaks, cavitations detection, corrosion fatigue crack detection, seal failure detection , detection of damage in rolling .

69. Conclusions
A diagnostic condition – based model can be used for predictive maintenance of equipments and plants in paper industry
Condition monitoring based maintenance may be component of total maintenance system,, involving use of other maintenance strategies as well. It is also to be a part of manufacturing system for machine and production control.

70. Predictive maintenance is widely accepted approach to the maintenance strategy for paper mills. The benefits of PdM can be extended to promotes a proactive approach to maintenance. Not only in maintenance, this approach also useful as energy conservation measure for plants.
The above strategy would lead to economic benefits and avoidance of unscheduled breakdowns and safety especially for large capacity high speed machines.

71. THANKS