1 / 39

Best Practices In Ultrasound Assisted Lubrication

Best Practices In Ultrasound Assisted Lubrication. Adrian Messer UE Systems, Inc. adrianm@uesystems.com. Lubrication Related Failures. The majority of premature bearing failures are lubrication related Under lubricated Over lubricated Wrong lubricant Lubricant contamination.

bertieh
Download Presentation

Best Practices In Ultrasound Assisted Lubrication

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Best Practices In Ultrasound Assisted Lubrication Adrian Messer UE Systems, Inc. adrianm@uesystems.com

  2. Lubrication Related Failures • The majority of premature bearing failures are lubrication related • Under lubricated • Over lubricated • Wrong lubricant • Lubricant contamination Source: "Pump Users Handbook: Life Extension” 2011 by Heinz Bloch

  3. Lubrication Related Failures? “as many as 60 to 80 percent of all bearing failures (catastrophic, functional and premature) are lubrication-related, whether it's poor lubricant selection, poor application, lubricant contamination or lubricant degradation1.” 1 Mark Barnes, “What Exactly is a Lubrication Failure?” Machinery Lubrication, formerly of Noria Corporation

  4. Ultrasound Assisted Lubrication In this presentation we will discuss: • What is Ultrasound Assisted Lubrication • Ultrasound Technology and Instruments • The advantages of Ultrasound • Procedures for Ultrasound Bearing Inspection and Lubrication

  5. Ultrasound Assisted Lubrication • Traditional lubrication programs include preventive procedures that include time-based lubrication. • Lubrication is performed at set timed intervals with a specified amount of grease applied

  6. Ultrasound Assisted Lubrication • The issue with time-based lubrication is, what if the bearing being lubricated has a sufficient amount of grease already and therefore DOES NOT need lubricant. This produces an inherent risk of Over-Lubrication.

  7. Ultrasound Assisted Lubrication • Another issue is the time-interval for lubrication. Is it correct? • What if some bearings require lubricant to be applied more frequently than assumed or what if the time interval can be stretched out?

  8. Ultrasound Assisted Lubrication • These issues do not preclude the need for standard preventive procedures such as calibrating grease guns, measures to ensure the correct lubricant is used for the correct application, etc… • The concept is to assist current lubrication procedures with the addition of ultrasound technology

  9. What is Ultrasound Assisted Lubrication? • Adding ultrasound monitoring to standard lubrication best practices can prevent potential over lubrication of bearings which can also lead to fewer bearing failures, extend motor and bearing life as well as lead to a decrease in the amount of lubricant used This will produce: • Savings in maintenance costs, lubricant, man-hours • And improved asset availability and reliability

  10. Infrared Start Failure Oil analysis Structure Borne Ultrasound Vibration Audible noise P P2 P1 Contact heat P3 P4 P5 Predictive Domain Fault Domain Proactive Domain P6 F LUBRICATION DOMAIN OPTIMIZING BEARING LIFE! (DMS & GREASE CADDY) EARLY WARNING OF BEARING FAILURE Max time for planning

  11. What is Ultrasound Assisted Lubrication? • Airborne & Structure-Borne Ultrasound instruments sense friction. • Trending associated amplitude levels and changes in sound quality of a bearing provide early indication of conditions such as lack of lubrication and prevent over-lubrication

  12. What is Ultrasound? • High frequency sounds that are above the range of human hearing • The ultrasonic range begins at 20 kHz • There are three Generic Divisions of Ultrasound: • Pulse/Echo • Power • Airborne/Structure Borne

  13. Ultrasound Advantages • Provides Earliest Warning of Failure • Isolates Signal • Quality of Bearing • Detects Lack of Lubrication • Finds defects not found in time based lube routes

  14. Ultrasound Advantages • Prevents Over Lubrication • Can Be Used on Slow Speed Bearings • Complements Other Technologies • Thermography • Vibration Analysis • Oil Analysis

  15. Ultrasound Applications • Bearings • Pumps (Cavitation) • Motors • Gears/Gearboxes • Valves • Steam Traps • Leak detection • Electrical Inspection

  16. How Ultrasound Instruments Work • Instruments based on airborne & structure borne ultrasound sense high frequency emissions produced by turbulence (from leaks), friction (in mechanical equipment) and ionization (generated by electrical emissions) • They translate these sounds down into the audible range through an electronic process called “Heterodyning” • Sound is measured by a decibel level that is indicated onboard the instrument

  17. How Ultrasound Instruments Work • The heterodyning feature enables users to hear the translated signals in headphones, record sound samples and analyze sounds through spectral analysis software. • Data from test results can also be viewed on a display panel

  18. Sounds Are Received Two Ways: -Through a contact module or wave guide -Through a scanning module

  19. Instruments used for Lubrication Programs • Digital instruments: • Set baselines • Log data • Record sound sample • Analyze Sounds • Download all data to Data Management Software dB Level

  20. Digital Instruments • Data Logging • Sound Recording • Data Management Software • Improved Record Keeping, Recording, Reporting • Spectral Analysis

  21. Analog Instruments Listen to heterodyned ultrasounds View intensity levels only (not dB)

  22. Analog Instruments Intensity Display

  23. Procedure • Use the digital instrument • Collect data • Record sounds • Download to Data Management Software

  24. Procedure • Review data • Create Trend Charts • Analyze Sound Samples of deviations

  25. Analyze Sounds For Differences Baseline Sound Sound Deviation

  26. Action Levels • 8 dB Lubrication • 12 dB Minor Damage-Microscopic Faults • 16 dB Damage-Visual Faults • 35+ dB Catastrophic Failure Imminent Severe Failure dB

  27. Procedure • After review of data • Sect bearings in need of action for either: • Repair • Lubrication

  28. Procedure • Assign analog ultrasound instrument to lube technicians • Instruct them to add enough lubricant to cause a drop in sound levels while observing the LED intensity indication • Add lubrication – Meter intensity levels drop • Use caution - Lubricate A little at atime

  29. Procedure • If bearing needs grease, dB will decrease as lubricant is applied • If bearing is already over lubricated, dB will start to increase while applying lubricant • If there is no change in dB, further action should be taken to see why there was no change, or bearing is in a failure mode that lubrication is not the solution

  30. Examples of Over Lubrication The biggest problem we find in bearings is that they are over greased. The maintenance man doing the greasing usually does not know how much grease is put into the bearing. In the past we just pumped a few strokes into the bearing and then said well that ought to do it. Usually that was too much grease and these pictures show the results of that style of greasing.

  31. Examples of Over Lubrication In the case of this motor there was no attention paid to how much grease was being put into the bearing. This motor actually had shielded bearings in it and there was no grease getting into the bearing, so it never cooled down and never got any quieter so they just continued to grease it. After a point, there was so much grease in it that the motor started to heat up. What did they do then? THEY GREASED IT SOME MORE.

  32. Ultrasound Assisted Lubrication Best Practices • Prioritize equipment based on an asset criticality list • Likelihood of a failure, runtime, cost to repair, consequences of a failure • Set up routes to collect ultrasound data including recording sound files • Once initial readings have been taken, a baseline is set

  33. Ultrasound Assisted Lubrication Best Practices • Once a baseline has been established, alarm levels are set • Data (dB) only is collected until an alarm has been reached • Ultrasound is used to lubricate points that are currently in a “low alarm” condition • Grease is applied until the dB returns to the normal level

  34. Ultrasound Assisted Lubrication Best Practices • For more critical assets, a follow up reading should be taken to ensure that the dB did not rise again after lubrication, or use a complementary technology for a “second opinion” • PM’s may need to be adjusted to reflect the use of ultrasound while greasing, frequency, type of lubricant, etc…

  35. Benefits of Ultrasound Assisted Lubrication • Identifies bearings in need of lubrication • Prevents over lubrication of bearings • Reduces the amount of grease kept in inventory • Reduces incidents of bearing failure • Reduced labor lubricating bearings • More effective PM’s • Improves asset availability

  36. Lubrication Examples

  37. Lubrication Examples

  38. Lubrication Examples

  39. Questions? Adrian Messer adrianm@uesystems.com (914)282-3504

More Related