Advanced Troubleshooting Of Rotating Equipment
Course Description
This aims to convey the latest thinking and best practice of machinery vibration monitoring and analysis via lectures, case studies, video films, and friendly software and course activities. The course gives a detailed advanced treatment of the detection, location and diagnosis of faults in rotating and reciprocating machinery, using vibration analysis. Industrial case study examples are used throughout the course to emphasize key points and to underline the relevance and applicability of the topics being addressed.
The Training Course Will Highlight ?

The course will provide a refreshment of knowledge for existing condition monitoring practitioners, and it will provide a solid foundation for technologists moving into a machine monitoring and diagnostic role.

Training Objective

At the end of this seminar participants will:

  • Have a detailed understanding of advanced time and frequency analysis techniques
  • Have the knowledge to assess accurately machinery condition
  • Have acquired a knowledge of accurate diagnosis of anti friction bearings
  • Have acquired a knowledge of accurate evaluation of gear problems
  • Have acquired a knowledge of structural troubleshooting
  • Have acquired a knowledge of predicting remaining machine life

Target Audience

Mechanical Engineers, Schedule and Planning Engineers, Engineers and Technicians working in application and management of predictive maintenance, Designers and Production Managers and Engineers working in technical and design modification roles within industries, Maintenance, engineering and operations personnel involved in troubleshooting reliability, analysis, condition monitoring, and maintainability of rotating equipment and related systems

Training Methods

Daily Agenda

Vibration Signal Processing and Assessing Condition

  • Sampling, aliasing, digitizing
  •  Time, frequency and modal domains
  •  Time and frequency representation
  • Frequency domain instrumentation
  •  Fast Fourier transforms
  • Windowing
  • Filtering
  • Averaging
  • Amplitude scales
  • Transmission path effects
  •  Harmonic, periodic, random motion
  • Generated and excited frequencies
  • Frequencies caused by electronic phenomena
  •  Relationship between velocity, displacement and acceleration
  • Band selectable analysis and real time bandwidth
  • Speed and load adjusted sensitivity
  • Identifying imbalance bent shaft soft foot looseness horizontal, vertical, offset, and angular misalignment noise resonance rubs oil whirl
  • Case studies

Advanced Analytical Techniques

  • Principles of the envelope
  • Pulse trains and line spectra
  • Loaded element modulation
  • Definitions of the ceptrum
  • The autocorrelation function and coding the cepstrum
  • Comparison with spectrum and phase sensitivity.
  •  Transmission path effects.
  • Zoom cepstra and noise level effects.
  •  Dynamic range limitations and the effect of filter bandwidth
  •  Other demodulation techniques
  • Use of phase in diagnostics
  •  Case studies

Advanced Troubleshooting of Antifriction Bearings

  • Data collection and transducer selection
  •  Frequency calculation
  • Identifying (inner and outer race multiple defects defect severity nature of defect deep fatigue spalls shallow flaking frosting acid etching/corrosion fluting) defects
  • Defects on balls/rollers and cage
  •  Inadequate lubrication
  •  Looseness excessive internal clearance turning on the shaft loose in the housing
  •  Case studies

Advanced Troubleshooting of Gearboxes

  •  Transducer selection
  • Gear vibration theory
  • Gearmesh frequency harmonics and sub harmonics
  •  Hunting tooth frequency
  •  Planetary gears
  • Gear life expectancy
  •  Identifying eccentric gears out of round bent shaft loose worn misaligned backlash problems oscillating gears broken, cracked or chipped teeth
  • Case studies

Advanced Diagnostics and Structural Troubleshooting

  • Vibration control (transmissibility, excitation, design charts)
  • Fundamentals of isolator selection/damping applications
  • Structural supports considerations
  •  Critical shaft speeds
  • Vibration in ducts
  •  Vibrational control via structural modification
  • Electric motor analysis out of magnetic center broken rotor bars turn to turn shorts siren effect
  •  Steam turbines
  • Pumps, starvation and cavitation
  • Special tests startup/coast down bump tests noise recording
  •  Dual channel impact testing
  •  Modal analysis (natural frequency/mode shape/damping)
  • Startup/coast down testing
  •  Critical speeds/damping
  • Operational deflection shapes
  •  Case studies
Accreditation

CDGA attendance certificate will be issued to all attendees completing minimum of 80% of the total course duration.

Quick Enquiry

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Course Rounds : (5 -Days)


Code Date Venue Fees Register
ME110-01 22-06-2025 Dubai USD 5450
ME110-02 11-08-2025 Istanbul USD 5950
ME110-03 07-09-2025 Casablanca USD 5450
ME110-04 07-12-2025 Dubai USD 4950
Prices doesn't include VAT

UpComing Date


Details
  • Start date 22-06-2025
  • End date 26-06-2025

Venue
  • Country UAE
  • Venue Dubai

Quality Policy

 Providing services with a high quality that are satisfying the requirements
 Appling the specifications and legalizations to ensure the quality of service.
 Best utilization of resources for continually improving the business activities.

Technical Team

CDGA keen to selects highly technical instructors based on professional field experience

Strengths and capabilities

Since CDGA was established, it considered a training partner for world class oil & gas institution

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