BENTLY NEVADA TRAINING CENTERS IN EUROPE
ROTTERDAM
FLORENCE
NANTES
MADRID
MOSCOW
BERGEN
MANCHESTER
FRANKFURT
BUDAPEST
A single email address to contact
all European training centers:
NORWAY | Bergen
Ytrebygdveien 215
Blomsterdalen, 5258
+47 900 90 226
HUNGARY | Budapest
East Gate Business Park,
Akacos HRSZ: 0221/12 —2151 Fot
+36 27 565075
NETHERLANDS | Rotterdam
Delftechpark 26
2628 XH Delft
+31 1615641325
SPAIN | Madrid
Josefa Valcarcel, 26
Madrid, 28027
+34 91 587 06 67
UK | Manchester
22 Grimrod Place
Skelmersdale, WN8 9UU
+44 1695 380 013
RUSSIA | Moscow
10, Presnenskaya nab., bld. A, @. 10
Moscow 123112
+7 495 937 1111
FRANCE | Nantes
14 rue de la Haltinière
44 300 Nantes
+33 240 729 944
ITALY | Florence
Via Perfetti Ricasoli, 78
Firenze, 50127
+39 238 590 506
GERMANY | Frankfurt
Bleichstrasse 64-66
Frankfurt am Main 60313
+49 694 012 518 12
CONTENTS
8
Fundamentals of Vibration course
9
Systems and Instrumentation course
10-19
Machinery Diagnostics courses
20-22
ISO 18436 courses
A WORLDWIDE PARTNER
FOR OPERATIONAL EXCELLENCE
Bently Nevada provides customers with condition monitoring solutions and services, from design to operation and
expert diagnostics.
Bently Nevada provides technical training on Bently Nevada solutions delivered by our experienced Field Engineers.
You and your team will beneFt from comprehensive hands-on courses, starting at fundamentals to in-depth diag-
nostics on rotating machinery.
Bently Nevada technical training programs provide you and your team the knowledge and skills required to protect
and control your machinery and to optimize the performance of your equipment. Bently Nevada works with you to
build a training plan that is best adapted to your needs. Overall, it will maximize your return-on-investment by en-
suring machinery availability and reliability, by avoiding unplanned events and limiting disruption risks and costs.
POWER UP YOUR KNOWLEDGE
Bently Nevada training centers provide a full range of training in Bently Nevada solutions. These courses which, en-
compass all aspects from fundamentals to in-depth solution and diagnostics knowledge, are based on value-added
pillars.
TECHNICAL EXPERTISE with 22 experienced trainers. Our team combines pro-
duct installation, operation, maintenance or engineering experience with technical ex-
pertise, proven teaching skills and a commitment to knowledge transfer.
EXPERIENCE from our Bently Nevada Feld engineers and technical experts. With
more than 40 years of technical training experience, Bently Nevada has pioneered the
art of long-term skill development.
HANDS-ON WORKSHOP to guarantee operational excellence and to ensure
trainings combine theory and practice. Workshops include practice with 'live' monitors
and racks. Class sizes are kept small ensuring students get the most out of training.
CUSTOMIZED TRAINING to Ft with your needs and enhance your team’s perfor-
mance. With 15 modules in diJerent languages, you will Fnd the courses adapted to you
or your team’s role and experience (operators, managers, engineers…). A training curricu-
lum can be developed, including needs and gap analysis, objectives development and
skills based training solutions.
DIGITAL & UP-TO-DATE MATERIAL to optimize learning. Course content and
workshops are continually revised to re@ect latest technologies, experience and local
regulatory standards.
COMPREHENSIVE OFFERS to match your speciFc needs and what works the
best for you and your team: modular training at one of Bently Nevada training center or
at your site, coaching program or skills development program.
300
Attendees
8 800
Trainee Hours
98%
Net Promoter Score
94%
Customer
Satisfaction
Excellence is an ART won by training and habituation.
We ARE what we repeatedly DO.
Excellence then is not an act, but a HABIT.
Aristotle
MODULAR TRAINING
Provide your team with the right skills and knowledge, according to their proFle, to increase their motiva-tion, performance and productivity.
Our core curriculum includes 15 training modules with an emphasis on practice. The beneFts of training on real
equipment is instantaneous. In small groups, trainees learn both theory and practice, the “why” and the “how-to”.
Courses are adapted to your proFle.
COMPREHENSIVE TRAINING FOR YOUR NEEDS
INSTRUMENTATION
& MAINTENANCE OPERATOR
RELIABILITY &
DIAGNOSTIC EXPERTS
Fundamental of Vibration Fundamental of Vibration Fundamental of Vibration
3500 System
Operation & Mainenance
• System 1
• ADRE 408 DSPi/Sxp
Machinery
Diagnostics
• System 1
• ADRE 408 DSPi/Sxp
• Applied Diagnostics Workshop
• Advanced Electric Motors Workshop
• Reciprocating Compressors
• Advanced Machinery Dynamics
• Advanced Field Balancing
Bently Nevada works with you to develop a comprehensive Skills Development Program speciFcally designed to ad-
dress your needs. It will help you to build sustainable competencies and maximize your return on investment in con-
dition monitoring technologies.
The Frst step in our Skills Development Program is establishing a role-based competency matrix. This will be
achieved by combining your organization’s job descriptions with condition monitoring best practices from Bently
Nevada. The team will be assessed against a competency matrix speciFc to their role to identify skills and compe-
tency gaps. Based on the skills gaps identiFed, condition technologies deployed at site and operational constraints, a
roadmap to build sustainable competencies will be developed.
By using customized training content, our certiFed instructors will conduct training sessions at a Bently Nevada
training center or at your site. These power users equipped with plant-speciFc knowledge and advanced awareness
of the systems will be able to extract maximum beneFt from the systems deployed and improve the ROI.
SKILLS DEVELOPMENT PROGRAM
Bring your team to a higher conFdence and competence level with our customer-speciFc program, based
on proven technical competency matrix.
ANALYZING
Needs Analysis
Assessment Test
PREPARING
Course Design
Planning
TEACHING
Technical Training
On-site Coaching
QUALIFYING
Knowledge Test
Validation
CERTIFICATION
�
To evaluate trainee’s
knowledge level
�
To optimize course
�
To acquire required
skills
�
To check knowledge acquisition
COACHED PROGRAM
Empower employees by combining standard training and personalized on-site coaching to improve their conFdence, eRciency and operational excellence.
To get the most out of training, Bently Nevada set up the
coached program. Based on their knowledge, trainees will be
oriented to the appropriate training program and once complet-
ed, will beneFt from onsite coaching to leverage what they
have learned in classroom on their day-to-day job at site. This
program brings incremental value and conFdence to your engi-
neers.
Technical Training
Online Test
On-site Coaching
VIBFU
Duration
Audience
• Technicians with a limited experience on vibration
machinery.
• Technicians working on vibration control with
condition monitoring program.
• Engineers involved in condition monitoring.
• Technicians in preventive maintenance.
Program
Day 1
• Machinery Monitoring: history, beneFts, and strategies. Ty-
pically Monitored Machines and Considerations
• Basic Vibration Concepts: deFnition of vibration, understan-
ding relationships of vibration displacement, velocity, acce-
leration, units of amplitude and meaning of vibration ampli-
tude in analysis
• DeFning frequency, units of frequency, and meaning of fre-
quency in analysis, deFning phase and measuring relative
and absolute phase, understanding natural frequencies
Day 2
• Vibration Transducers: theory of accelerometer operation,
theory of Velomitor operation, theory of Proximity Trans-
ducer System operation
• Workshops identifying amplitude, frequency and phase
from timebase and spectrum plots. Workshops for trans-
ducer and monitoring systems for given machine scenarios
Objectives • Explain the reasons for vibration monitoring and maintenance strategies.
• Identify key components and describe vibration motion in a measurement plane.
• DeFne the parameters used to measure vibration motion and state the units used to express each parameter.
• Describe the principles of vibration transducer operation, the beneFts and disadvantages of each type, and typical scale
factor of output signal. Apply selection criteria to choose a useable vibration transducer for a speciFc machine vibration.
• Read values of amplitude, frequency, phase and recognize sources of vibration indicated by waveform and spectrum plots.
Learning path
Next steps
• System & Instrumen-
tation courses
• Machinery Diagnostic
courses
VIBFU
Prerequisites
New in condition monito-
ring and control of ma-
chinery
BENEFITS
2 days (14 hours)
Basics on measurement,
parameters, monitoring
approach and use of trans-
ducers
+
Fundamentals of Vibration
3500OM
Duration
Audience
Objectives
• Explain the role of the 3500 Monitoring System in machinery monitoring and protection.
• Identify installation conditions aJecting the correct operation of proximity transducer systems.
• Test monitor alarms and verify channel values in a radial vibration monitor.
• Use Bently Nevada propriety conFguration software to conFgure and/or reconFgure the 3500 monitor system.
• Troubleshoot the 3500 monitor system and associated transducers using software and hardware techniques.
• 3500 monitoring system users.
• Engineers involved in maintenance and
troubleshooting of the 3500 Monitoring System.
• Instrument technicians.
Program
Day 1
• Overview of 3500 Monitoring System
• 3300 Proximity Transducer System Operation
• 3500 Monitor System Support Components
• TDI/RIM Hardware Connections and Communications
• Power Supply, TDI/RIM and Keyphasor ConFguration
Day 2
• Radial Vibration
• Thrust Position
• Relays
Day 3
• 3500 System Utilities
• Troubleshooting 3500 System
• 3500/92 Communications Gateway (Optional)
• Data Acquisition/DDE Server Software (Optional)
• Reciprocating Compressors (Optional)
Optional: The last day focus can vary depending on audience
needs.
Learning path
Next steps
• SpeciFc courses
• Machinery
Diagnostics courses
3500OM
Prerequisites
• Fundamentals of
vibrations (VIBFU)
• Review of data acquisi-
tion CBT solution (Reference 168836-01-01)
BENEFITS
3 days (21 hours)
Practice workshops
with 'live' monitors and
racks .
+
3500 Operation & Maintenance
10 | [email protected]
S1C
Duration
Audience
• System 1 Platform Users.
• Reliability Engineers.
• Condition Monitoring Engineers.
• Engineers involved in Preventive Maintenance.
Program
Day 1
• System 1 Overview
• Viewing Information with System 1 Display
• Event Manager and Asset Active Alarm in System 1 Display
• Customizing Trend Plots
Day 2
• Vibration Signal Fundamentals
• Introduction to Plot Sessions and Plot Groups
• Working with Plot Session and Plot Groups
• Shaft Centerline Plots
• Plotting Dynamic Data and Using Collection Groups
Day 3
• Collecting Data in Transient Mode
• System 1 Asset Information Storage
• System 1 Administrative Tasks
System 1 version 16 and below
Objectives
• Use various System 1 software tools and plots to detect subtle changes in asset condition.
• Retrieve and display data in bar graphs and various plot formats.
• View alarms and events in the event manager.
• Enter observations and notes with the journal editor. Use DOCUVIEW* to create links to various reference documents.
• Create reports on monitored plant assets.
• Describe how our communication processors such as TDI or TDXnet™ collect transient data.
Learning path
Next steps
• SpeciFc courses
• Machinery
Diagnostics courses
S1C
Prerequisite
• Fundamentals of
vibrations (VIBFU)
• Review of data acquisi-
tion CBT solution (Reference 168836-01-01)
BENEFITS
3 days (21 hours)
Pratice workshops
on eRcient use of the
platform to support
decision making.
+
System 1 Classic
11 | [email protected]
S1P
Duration
Audience
Objectives
• Explain portable data measurement.
• Use the Scout or Vb instrument to collect data and then send to System 1 .
• Use the Status tab and Plots tab to analyze the collected data.
• Analyze faults and alarms.
• Manage access through the Security Manager.
• System 1 Platform Users.
• Reliability Engineers.
• Condition Monitoring Engineers.
• Engineers involved in Preventive Maintenance.
Program
• Installation
• Licensing ProFcy Historian and System 1 • Asset Building • Instrumentation
• Route Building
• SCOUT
• Data Collection – SCOUT 100/Vb Series
• Analyzing Collected Data
• Faults and Alarms
• 6 Pack and Individual Points (with optional Rack BuJered
Outputs)
• Database Manager
• Creating Templates
• Data Analysis and Diagnostics (Demo Database)
• Remote Communication
System 1 version 17 and above
Learning path
Next steps
• SpeciFc courses
• Machinery
Diagnostics courses
S1P
Prerequisite
• Fundamentals of
vibrations (VIBFU)
• Review of data acquisi-
tion CBT solution (Reference 168836-01-01)
BENEFITS
2 days (18 hours)
Pratice workshops at
each step of the course.
+
System 1 for Portables
12 | [email protected]
S1T
Duration
Audience
Objectives
• Connect to an Enterprise to view data. Check for alarms through event manager and create alarm plots of the latest events.
• Use status screens to Fnd bad actors and using alarm plots to look for trend and data correlations at train, machine and bea-
ring levels as well as point in alarm data.
• Use Quick plots to further investigate reason for alarm. Create a base line from Frst sample and overlay in spectra and time
base. Generate waterfall plots on points and dynamic data of interest, Quick report of the Fndings in a word document on at
least one machine problem.
• System 1 Platform Users.
• Reliability Engineers.
• Condition Monitoring Engineers.
• Engineers involved in Preventive Maintenance.
Program
• Overview
• Introduction to on-line systems and data collection
• Machine Building
• Creating_Templates
• Database_Manager
• Data Analysis and Diagnostics
• Transient_Data
• Steady State Data
• Alarms and Condition Monitoring
• Create Enterprise & setting preferences
• Notes, Plot Sets, Case History & Audit_Files
• NotiFcations_Presentation
• Condition Monitoring Based Variables and Alarms
System 1 version17 and above
Learning path
Next steps
• SpeciFc courses
• Machinery
Diagnostics courses
S1T
Prerequisite
• Fundamentals of
Vibration for Con-
tinuous Monitoring
(VIBFUCM)
BENEFITS
3 days (18 hours)
Pratice workshops at
each step of the course.
+
System 1 for TurboMachinery
13 | [email protected]
ADRE
Duration
Audience
Objectives
• ConFgure ADRE system to collect machinery data.
• Acquire data eJectively for real-time analysis.
• Display vibration and other data types using various plot types for machine condition analysis.
• Edit, document and store databases for future use.
• Adre 408 Users.
• Condition Monitoring Engineers.
• Engineers involved in Preventive Maintenance.
Program
Day 1
• Overview and Introduction
• Using the Front Panel
• Communication and Networking
• Vibration Fundamentals
• Planning Data Sampling
• Basic Sampling
Day 2
• Static Data Plotting
• Signal Processing
• Dynamic Data Plotting
• Advanced Sampling
Day 3
• Using the ADRE 408 Replay Card
• Collecting and replaying raw continuous data
• Sharing and Exporting Data
• Advanced Utilities
Learning path
Next steps
• SpeciFc courses
• Machinery
Diagnostics courses
ADRE
Prerequisites
• Fundamentals of
vibrations (VIBFU)
• Review of data acquisi-
tion CBT solution (Reference 168836-01-01)
BENEFITS
3 days (21 hours)
Advanced database
manipulation tools.
+
ADRE 408 DSPi/Sxp
14 | [email protected]
AEM
Duration
Audience
• AnomAlert and System 1 Platform Users.
• Electrical Maintenance Engineers and Technicians.
• Reliability Engineers.
• Condition Monitoring Engineers.
• Engineers involved in Predictive Maintenance.
Objectives
• Explain the purpose of Motor Current Signature Analysis (MCSA) and Advanced Transient Current Signature Analyses
(ATCSA).
• Describe how the motor and coupled machine design and behavior are re@ected in Current and Vibration Spectrum.
• Discuss the causes, eJects and indicators of the typical machine malfunctions; including recognition of problems such as
unbalance, misalignment, soft foot, rotor broken bars, bearing damage, eccentricity, stator problems.
Program
Day 1
• Introduction to Motor Current Signature Analysis (MCSA) and Advanced Transient Current Signature Analyses (ATCSA)
• Winding Harmonics, Principal Slot Harmonics
• Motor Speed Calculation using Principal Slot Harmonics of Motor Current Spectrum
• Workshop
Day 2
• Introduction to AnomAlert Toolkit measuring current spectrums and Scout data collector measuring vibration spectrums
• Workshop on Demonstration and Diagnostics of Motor Malfunctions such as Unbalance, Soft Foot, Rotor Broken Bars
• Using AnomAlert Toolkit and Scout data collector
Day 3
• Workshop on Demonstration and Diagnostics of Motor Malfunctions as Bearing Damage, Misalignment
• Using AnomAlert Toolkit and Scout data collector
Learning path
Next steps
• Machinery Diagnostics
(MDS)
• Machinery Applied
Diagnos%cs Workshops
AEM
BENEFITS
3 days (21 hours)
Practice Workshops on
eRcient use of the
AnomAlert and MCSA to
support decision making.
+ Prerequisites
• Fundamentals of
vibrations (VIBFU)
• Review of data acquisi-
tion CBT solution (Reference 168836-01-01)
Advanced Electric Motors
Predictive Maintenance Techniques
15 | [email protected]
RECIP
Duration
Audience
Objectives
• Describe the compression process and interpret vibration readings of reciprocating compressors.
• Relate reciprocating compressor components to various failure modes.
• Recognize and select plots used to assess the health of reciprocating compressors and interpret PV Plots.
• Calculate rod load conditions (reversal).
• Discover the full application and beneFts of rod position instead of rod drop measurements.
• Conduct a compressor vibration analysis.
• Engineers desiring to learn about reciprocating
compressor components and mechanics.
• Engineers willing to understand reciprocating com-
pressor performance theory.
• Engineers interpreting reciprocating compressor
vibration and analyzing malfunctions to diagnose
and optimize assets.
• Engineers involved in the design, acceptance testing
and maintenance of reciprocating machinery.
Program
• Basic Elements of Reciprocating Compressors
- Compressor overview
- Reciprocating compressors in industry
- Components and Nomenclature
- Lubrication Systems
- Compressors Types
• How to Monitor a Reciprocating Compressor
• Importance of Vibration and Pressure Measurements
• Which Plots are Used to Evaluate the Health of the Recipro-
cating Compressor
• Monitoring Strategies
• Reciprocating Compressor Diagnostics:
- Crosshead and Frame Vibration
- Pressure Monitoring and Diagnostics
- Rod Load and Rod Reversal
- Reciprocating Compressor Capacity Control and the
Impact on Vibration and Pressure Monitoring
- Rod Position and Rod Drop Analysis
- PV Analysis of Multistage Compressors
- Workshops and Presentation of Case Histories
Learning path
Next steps
RECIP
Prerequisites
• Interest in the
reciprocating
compressor monitoring
and maintenance
BENEFITS +
3 days (21 hours)
Hands-on workshops at
our Recip-kit and actual
case histories.
Reciprocating Compressor
Condition Monitoring & Diagnostics
16 | [email protected]
MD
Duration
Audience
Objectives
• Explain how the fundamentals of machine design and behavior are re@ected in the vibration measurements.
• Reduce machine vibration data into usable plot formats. Explain which plot formats are best to use in the diJerent stages
of machine diagnostics.
• Describe the causes, eJects and indicators of the typical machine malfunctions; including recognition of problems such as
unbalance, misalignment, rubs, shaft cracks and @uid induced instabilities.
• Engineers interpreting machine vibration and
position data to determine machine condition.
• Engineers involved in the design, acceptance
testing and maintenance of rotating machinery.
• Engineers desiring to learn about machinery
vibration diagnostic.
• Engineers and technicians.
Program
Day 1
• Introduction to Machinery Management & Diagnostics
• Phase Measurements
• Steady State Data Formats
Day 2
• Fundamental Synchronous Rotor Response
• Single Plane Balance Response
• Transient Data Formats
Day 3
• Plot Interpretation
• Multiplane Balance Response
• Partial Radial Rubs
Day 4
• Preloads and Radial Position Measurements
• Vibration Types and Resonances
• Fluid-Induced Instabilities
Day 5
• Shaft Crack Detection
• Case History Workshop
Learning path
Next steps
• Machinery Applied
Diagnostics
Workshops (ADW)
• Advanced Machinery
Dynamics (AMD)
MD
Prerequisites
• Fundamentals of
vibrations (VIBFU)
• Review of data acquisi-
tion CBT solution (Reference 168836-01-01)
BENEFITS
5 days (35 hours)
Provides the fundamen-
tals needed to make
conFdent operational
decisions.
+
Machinery Diagnostics
17 | [email protected]
ADW
Duration
Audience
Objectives
• Practice on real data from the Feld from diJerent rotating machines and learn about their typical malfunctions.
• Analyze actual machine case histories using System 1 or ADRE databases.
• Organize data in plot formats believed to be indicative of the machine fault.
• Present conclusions and make recommendations.
• Engineers and technicians involved in the analysis
and interpretation of vibration data.
• New machinery diagnosticians willing to gain
knowledge and conFdence.
• Experienced diagnostics people willing to gain addi-
tional insight needed to eRciently solve complex
machinery problems.
• Engineers and technicians.
Program
Covered Malfunctions
• Unbalance
• Lose parts
• Preload and misalignment
• Instability
• Shaft crack
• Rub
• Thermal unbalance
• Coupling lockup
• ESD...
Machinery Cases
• Steam turbines
• Gas turbines
• Motors
• Centrifugal compressors
• Generators
• Exciters
• Gearboxes
• Pumps
• Fans
Learning path
Next steps
• Advanced Machinery
Dynamics (AMD) ADW
Prerequisites
• Machinery Diagnostics
(MD)
BENEFITS
5 days (35 hours)
Customized training
according to equipment.
Be proFcient in using the
System 1* or ADRE systems.
+
Applied Diagnostics Workshops
18 | [email protected]
Objectives
• Extend knowledge on machinery diagnostic techniques and rotor dynamics for rotating machinery.
• Recognize, explain and account for eJects of complex rotor dynamics interaction of modes, mode shapes, thermal changes,
bearing design, torsional vibration and structural modes by using rotor modeling, actual machine data and case history.
• Use standard vibration diagnostic tools on machine-simulating rotor kits through demonstration.
• Analyze and discuss case histories that highlight the vibration documentation, analysis and machine malfunction corrective
techniques.
AMD
Duration
Audience
• Engineers desiring to advance their machinery vi-
bration diagnostics skills.
• Engineers involved in the design, acceptance testing
and maintenance of rotating machinery.
• Academic researchers and professors involved in
rotor dynamics.
• Post-graduate engineering participants.
Program
• Rotor Modeling as a Machinery Diagnostics Tool
• Bearing Design (Fluid bearings and Magnetic bearings)
• Diagnose and mitigation of Fluid Induced Instabilities
• Modal and Operating De@ection Shape Analysis
• Tortional vibrations measurements and analysis
• Rotor Model
• Anisotropy
• Shaft Cracks
• Signal processing
• Balancing Machines
• Rotor to Stator Rubs
• Gear forces Analysis
Learning path
Next steps
AMD
Prerequisites
• Machinery Diagnostics
(MD)
BENEFITS
5 days (35 hours)
For each theme, some
historic cases will be
used to show practice of
each technique.
+
In order to put theory into practice, this training includes real-life demonstrations and 25 case
Advanced Machinery Dynamics
19 | [email protected]
AFB
Duration
Audience
• Machinery diagnosticians.
• Startup engineers.
• Remote diagnostic center specialists.
Program
• Fundamentals
- Unbalance and other malfunctions with similar
symptoms.
- Making the decision, selecting the strategy.
- Ensuring the repeatability and minimizing non-
linearity.
- Trial weight calculations.
• Basic calculations and conventions
- Vector operations.
- Locating the position of unbalance.
- Finding angular location on a rotor.
• Single Plane Balancing with Workshop.
• Static/Couple Balancing with Workshop.
• In@uence Vector Method (multiplane) Balancing.
• Bently Balance – introduction and data acquisition process.
• Bently Balance – conFguration and importing data.
• Bently Balance – calculations and solution evaluation.
• Workshop: balancing in two planes, using Bently Balance*
• Relation between Static/Couple and In@uence Vector meth-
ods.
• Workshop: in@uence vectors - import, export, recalculation
between methods.
• Balancing for compromise conditions.
• Evaluation of balancing quality. Balancing report.
• Workshop/Examination – multiple planes balancing.
Objectives
• Conduct eJective balancing of machine trains in the Feld: calculation of trials, evaluation of results, decision making.
• Select strategy ensuring minimum disruption costs and proper data quality.
• Use calculation tools the most applicable to situation, evaluate inputs and outputs and recalculate between balancing
methods and data conventions.
• Get a deep understanding of balancing process allowing eJective supervision of solution weights installation and trouble-
shooting data integrity problems.
Learning path
Next steps
AFB
Prerequisites
• Machinery Diagnostics
(MD)
BENEFITS
5 days (35 hours)
Deep understanding of
balancing methods and
conFdence with hands-on
practice on test rotors.
+
Advanced Field Balancing
20 | [email protected]
CAT I
Duration
Audience
Objectives
• Understand the beneFts of performing condition monitoring and improving reliability.
• Learn how machines work and how vibration measurements assess the condition of the machine.
• Discover Fmax, resolution, averaging and other analyzer settings.
• Analyze vibration spectra and the basics of fault diagnosis.
• Set alarm limits (introduction).
• New vibration analysts.
• Engineers collecting vibration data.
• Engineers analyzing vibration data.
• Whoever wanting to develop skills in the Feld of
machine condition & vibration analysis.
• Whoever willing to get certiFed to international
standards (ISO-18436).
Program
• Maintenance practices
• Condition monitoring
• Principles of vibration
• Introduction to vibration measurement
• An introduction to the time wavefrom
• An introduction to the spectrum
• An introduction to forcing frquencies
• Explaining the diJerent vibration units
• A brief introduction to phase
• Data acquisition
• A quick review of data acquisition
• How do we measure vibration?
• Where to place the sensor on the machine
• Understanding axial, radial, vertical and horizontal readings
• A quick introduction to mounting the accelerometer and
surface preparation
• Naming conventions
• What are « routes » and how do you create them?
• Signal processing
• A quick tour of your analyzer
• Spectral averaging
• Vibration analysis
• The spectrum analysis process
• What is resonance—a quick introduction
• Diagnosing common fault conditions
• Setting alarm limits
Learning path
Next steps
• ISO 18436 Category II Intermediate Vibra-tion Analyst Certifica-tion (CAT II)
CAT I
Prerequisites
• 6 months of experience
is required for certiFca-
tion
BENEFITS
4 days (28 hours)
3D animations and soft-
ware simulations make
complex concept easier
to understand.
+
ISO CERTIFICATION
ISO 18436 Category I Basic Vibration Analyst
21 | [email protected]
CAT II
Duration
Audience
Objectives
• Understand how a well-designed program and a reliability centered maintenance approach improve the bottom line.
• Discover the condition monitoring technologies.
• Learn how machines work and how to select the correct measurement and the optimum settings.
• Analyze vibration spectra , time waveforms, enveloppe and phase measurements.
• Diagnose and learn how to balance and align a machine and correct a resonance condition.
• Engineers analyzing a range of fault conditions.
• Engineers willing to understand balancing and
alignment.
• Engineers desiring to learn about machinery
vibration diagnostic.
• Whoever willing to get certiFed to international
standards (ISO-18436).
Program
• Review of maintenance practices
• Review of condition monitoring technologies
• Principles of vibration: review of basics, waveform, spec-
trum (FFT), phase and orbits
• Understanding signals: modulation, beating, sum/diJerence
• Data acquisition
• Signal processing
• Vibration spectrum analysis
• An introduction to time waveform analysis
• An introduction to orbit analysis
• Phase analysis: bubble diagrams and ODS
• Enveloping (demodulation), shock pulse, spike energy
• Fault analysis
• Equipment testing and diagnostics including impact testing
(bump tests) and phasse analysis
• Corrective action
• Running a successful condition monitoring program
• Acceptance testing
• Review of ISO standards
Learning path
Next steps
• ISO 18436 Category III Advanced Vibra-tion Analyst Certifica-tion (CAT III)
CAT II
Prerequisites
• 18 months of expe-
rience is required for
certiFcation
BENEFITS
5 days (35 hours)
Competence in quality
data acquisition and
diagnosing common
machine faults.
+
ISO CERTIFICATION
ISO 18436 Category II Intermediate Vibration Analyst
22 | [email protected]
CAT III
Duration
Audience
Objectives
• Understand how a well-designed program and a reliability centered maintenance approach improve the bottom line.
• Discover the condition monitoring technologies.
• Analyze vibration spectra , time waveforms, enveloppe and phase measurements.
• Diagnose a wide range of fault conditions.
• Learn how to balance and align a machine, correct resonance conditions and employ isolation.
• Engineers conFdent in spectrum but willing to learn
about signal processing, time waveform and phase
analysis.
• Engineers involved in condition monitoring.
• Whoever willing to get certiFed to international
standards (ISO-18436).
Program
• Review of condition monitoring technologies and the ISO
standards
• Signal processing and data acquisition
• Time waveform analysis
• Phase analysis
• Dynamics (natural frequencies and resonance)
• Testing for natural frequencies
• Operating De@ection Shape (ODS) analysis
• Modal analysis and introduction to FEA
• Correcting resonances
• Rolling element bearing fault detection
• Journal bearing fault detection
• Electric motor testing
• Pumps, fans and compressors
• Gearbox fault detection
• Corrective action
• Running a successful condition monitoring program
• Acceptance testing
• Review of ISO standards
Learning path
Next steps
• ISO Category IV Master Analyst
CAT III
Prerequisites
• 36 months of expe-
rience is required for
certiFcation
• ISO Category II
BENEFITS
5 days (35 hours)
Developing knowledge
of machine dynamics.
+
ISO CERTIFICATION
ISO 18436 Category III Advanced Vibration Analyst
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Be conBdent in your employees’ competences
Bently Nevada can start working on deFning the competency matrix and set-
ting up the competence development plan to make sure your team is equipped
with all the knowledge and conFdence to eRciently manage your assets.
For more information, visit:
https://www.gemeasurement.com/services/bently-nevada-training
24 | [email protected]
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