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Rotating Equipment Reliability

Rotating Equipment Reliability Course

 

Download the Rotating Equipment Reliability Course PowerPoints today, 342 slides.

 

These Rotating Equipment Reliability course PowerPoints are a little different than most others. These 342 slides have a storyline that hopefully will entertain you as this course teaches you. The author wanted to make training fun for the rotating equipment engineer, specialist, and maintenance to do, and for him to write. So follow Alan (one of the company's rotating equipment maintenance supervisors) as he confronts the rotating equipment reliability problems in his operation. To help solve the downtime caused by the failure of equipment he gets help from his new maintenance manager, Bill. Bill becomes Alan's resource and coach as he addresses the rotating equipment problems in the operation.

 

 

Rotating Equipment Reliability Course

Maximize rotating equipment uptime and availability.

Rotating Equipment Reliability Training PowerPoint's (48hours)

Prod #:    PPT-465R-15M7-85B5

 

Rotating Equipment Reliability training course outline:

 

DAY 1 (96 Color PowerPoint slides)

Cause Of Rotating Equipment Failures.

 

DAY 2 (86 Color PowerPoint slides)

Rotating Equipment standards, condition monitoring and top-class maintenance.

 

DAY 3 (80 Color PowerPoint slides)

Rotating Equipment shafts, bearings and seals for reliability excellence, Maintenance for reliability.

 

DAY 4 (80 Color PowerPoint slides)

Improving Rotating Equipment reliability, reducing maintenance cost, sustaining Rotating Equipment integrity.

 

 

These 4 Rotating Equipment Reliability Training PowerPoint's will enable you to:

  • Deepen your understanding of the topic.
  • Adapt the presentation to your own needs.
  • Show the presentation in your own company.
  • Communicate the knowledge of Rotating Equipment Reliability to your colleagues in your organization

 

 

 

 

The content of these Rotating Equipment Reliability Courses is exactly what the plant and equipment maintenance personnel who attended the actual 4-day Rotating Equipment Reliability course. The courses are divided into an introduction stage and an advanced rotating equipment engineering stage. During the courses, you will cover, and come to better appreciate the important issues for achieving Rotating Equipment (RE) reliability. Industrial equipment machinery with rotating or reciprocating parts uses bearings and lubrication and is mounted onto a supporting structure. What you learn in the course to improve rotating equipment performance can be transferred and applied to all of them. You will be well on your way to becoming the company's rotating equipment specialist!

 

The purpose of the course is to train people in both the proper care of rotating equipment, and the use of the proper equipment management, maintenance systems, and methods to ensure they are reliable and stay reliable (which applies to any equipment by implication). At the end of the course, we wanted people to have a total perspective on the best practices needed to get great service, and a lifetime of high reliability, from their equipment.

 

2 days of Rotating Equipment Reliability are Introductory Courses, followed by 2 days of advanced topics.

 

Rotating Equipment Reliability Training - Day 1

Rotating Equipment Reliability D1 samples

Rotating Equipment Reliability Training - Day 2

Rotating Equipment Reliability D2 samples

Rotating Equipment Reliability Training - Day 3

Rotating Equipment Reliability D3 samples

Rotating Equipment Reliability Training - Day 4

Rotating Equipment Reliability D4 samples

 

 

(After purchase with the 'Add to Cart' button above, you immediately receive an email from PayLoadz with the download link.)

 

Price: US$59.95

(Total of 342 slides in 4 PPT files)

 

 

 

For individuals wanting independent study material and instructors wanting to use in class.

 

 

About the Instructor ...

Qualifications: Tradesman Fitter Machinist Professional Mechanical Engineer (1st Class Honors) Project Engineer Maintenance Engineer Master Business Administration Maintenance Manager

 

Engineering Work History: Nova Machinery – Manufacturer Press Brakes & Guillotines Mike Sondalini Bricklaying - Building Construction Swan Brewery – Beverage Riverton Engineering – Sheet Metal Fabrication Coogee Chemicals – Mining & Agricultural Chemicals Manufacture Lifetime Reliability Solutions – Lean, Maintenance & Asset Life-Cycle Risk Management Consulting

 

 

Rotating Equipment Reliability PowerPoint Samples

A sample of some topic headings found within. (342 PowerPoint Slides) …

 

 

DAY 1 of Rotating Equipment Reliability Seminar:

 

Rotating Equipment Reliability DAY 1

 

(96 PowerPoint Slides)

 

Day 1 - Rotating Equipment Reliability Sample 1

 

PLANT AND MACHINERY DOWNTIME COSTS

The True Cost of Failure
Where Profit is Lost in Business Processes
The Purpose of Business
Maintenance is an Economic Decision
Impact of Defects and Failures
Defect and Failure True (DAFT) Costs go Company-wide
Failure Costs Surge thru the Company
Separate the True Downtime Costs so you can see them for what they are
Calculating the True Downtime Costs

 

MACHINERY RISK MANAGEMENT

Understanding Risk and Its Consequences
Risk Calculations
The Shape of Risk
Risk Relationships
What Risk Means
Determine Your Acceptable Failure Domain
Maintenance is Used to Manage Risk
Benefits of Reducing Operating Risk

 

VARIATION, DEFECTS, AND FAILURES

Defects and Failures Enter Your Business Everyday
Normal Ways to Control Defects and Failures
Preventing Defects and Failures
The Trouble with Accepting a Defect
Defects Lead to Failures and High Costs
Act to Control the Defects and Risks
Problems, Defects, and Failures start with Variation
Effects of Process Condition Disruptions
Special and Common Cause Variation
Preventing Process Condition Disruptions

 

MACHINERY DESIGN ISSUES

The Unforgiving Nature of Machine Design
Activity 1 - Design Shaft Rotor and Material Selection
The Slow Destroyers
Good Process Control Prevents Rapid Internal Equipment Changes
Supporting Structure and Foundation Strength and Rigidity
Vibration Basics
Forced Vibration
Natural Frequency
Attenuation of Vibration
Dissipating Loads and Forces
Preventing Equipment Deformation
Preventing Deformation from Pipe Stress
Activity 2 - Soft Foot Case Study
Soft Foot Case Study
Soft Foot Distorts Motor Armature Air Gap

 

ROTATING MACHINERY PARTS FAILURE

Causes of Shaft Failures
Causes of Roller Bearing Failures
Calculating L10 Lifetime
Effects of Fluctuating Loads and Forces
Lubrication Contamination
Lubrication Contamination Control
Tell-tale Bearing Failure Signs
Causes of Contact Shaft Seal Failures

 

ROTATING MACHINERY RELIABILITY

The Payoff is Reliability, Availability, Maintainability, Safety (RAMS)
Equipment Degradation Cycle
Equipment Life Extension
Valuable Precision Maintenance
Rotating Equipment Precision Maintenance
Precision Maintenance of Rotating Equipment is …
Accuracy Controlled Enterprise (ACE) Procedures
Activity 3 - Develop an ACE procedure

 

 

 

 

DAY 2 of Rotating Equipment Reliability Seminar:

 

Rotating Equipment Reliability DAY 2

 

(86 PowerPoint Slides)

 

Day 2 - Rotating Equipment Reliability Sample 2

 

MECHANICAL EQUIPMENT AND MACHINERY STANDARDS

6 Mechanical Equipment Care Standards to Set, Use and Keep Using
Balanced Rotors and Balancing Standards
Rotating Equipment Balancing
Shaft Coupling Problems
Appropriate Key Length for Assembly
Coupling Bolts and Washers
Specification for Coupling Assembly
Burred Shaft5Either on end or next to bearing face
Activity 1 Balancing Case Study
Effects of Shaft Misalignment
Causes of Shaft Misalignment
Coupling Flexing Points Locations
Accuracy and Limits for Alignment
Precision Alignment Practice
. Pre-Alignment Checks
. Rough-In Alignment
. Precision Alignment
. Alignment Records
Off-line to Running (OL2R) Machine Movement
Case Study 2 – Important Factors when Doing Shaft Alignments

 

CONDITION MONITORING METHODS FOR ROTATING MACHINERY

Range and Choice of Condition Monitoring Methods
Condition Monitoring Degradation
Selecting Condition Monitoring using the Three Point Inspection Frequency
Machine Shape Deflection
VIBRATION ANALYSIS
Rotating Machinery Vibration
Causes of Vibration
Bearing Vibration Causes
ISO Standards for Vibration Evaluation
Allowable Vibration Severity
Vibratory Condition-Based Monitoring
Rotating Shaft Vibration Measurement
The Value of a Baseline Vibration Signature
Rotating Bearing Vibration Displays

 

TRIBOLOGY AND LUBRICATION ANALYSIS

Wear Particle Analysis
Analyzing Properties of Lubricants
Sustaining Lubricant Health
Lubricant Management Programs

 

THERMOGRAPHY ROTATING EQUIPMENT NON-DESTRUCTIVE TESTING

Radiography (X-Ray, Gamma Ray)
Magnetic Particle Inspections
Dye Penetrant Procedures
Ultrasonic Scanning (thickness, cracks, inclusions, etc)
rotating_machinery_management_D2.txt
Visual Inspections (human eyes, borescope, etc)
Performance Monitoring (human senses, temperature, pressure, pH, etc)

 

RELIABILITY AND MAINTENANCE STRATEGY MIX

The Six Purposes of Maintenance
Equipment Availability as a Function of Maintenance Costs
Asset Management & Business Performance
Reliability and Maintenance Best Practice Assessment
Plant and Equipment Life Cycle
When Operating Costs are Committed
Component & System Reliability Modeling
Reliability of Parts and Components
Reliability of Systems of Parts and Components (i.e. Machines)
Equipment Reliability Strategies
Failure Mode and Effects Analysis (FMEA)
Equipment Criticality
Rotating Equipment Maintenance Strategy PM - PdM - Replace - Breakdown Mix
Operator Driven Reliability
A Strategy for Equipment Reliability
Maintenance KPIs and Outcomes
Maintenance Quality Improvement
Use Visual Management for Feed Forward Control of Performance

 

 

 

 

DAY 3 of Rotating Equipment Reliability Seminar:

 

Rotating Equipment Reliability DAY 3

 

(80 PowerPoint Slides)

 

Day 3 - Rotating Equipment Reliability Sample 3

 

LUBRICATION SELECTION
Physics of Lubrication
Properties Of Lubricants and Additives
Purpose Of Grease Additives
Use Grease or Oil?
Dry Lubricant
Lubricant Operating Environment for Oils and Greases
Wear Debris Analysis
Lubricant Life-extension with Lubrication Management
PROCESS CONTAINMENT SEALS
Methods, Types, Designs, Process Effects
Process Containment Seal Design Overview
Sliding Lip Seals
Seal Failure Modes
Long-life Seal Conditions
Seal Selection Issues

TRANSMITTED VIBRATION PREVENTION AND ISOLATION
Basics of spring/damper systems
Forced Frequency and Natural Frequency
Passive Machinery Vibration Isolation

STRENGTH OF MATERIALS FOR SHAFTS AND ROTORS
Metallurgy - Stress and Stress Raisers
Stress Concentration Effect
Metal Fatigue
Metal Fatigue Control
Bending and Deflection of Shafts
Horizontal and Vertical Shaft Design
Combined Axial, Radial, and Torsional Loads
Controlling Axial, Radial, and Torsional Loads
Shaft & Equipment Assembly Considerations
Shaft Manufacture, Diameter, and Tolerance

BEARING DESIGN AND SELECTION - RADIAL AND AXIAL
Roller Bearing Loads – Max and Min
Bearing Overload
Roller Bearings and Plain Bearings – Uses and Limitations of Each
Bearing Lubrication Selection and Use
Value of Better Bearing Sealing
Bearing Housings and Construction

PRECISION MAINTENANCE
Explaining Precision Maintenance
Precision is a Serious Opportunity
Precision Standards to Set, Use, and Keep
What we Know about the Business Benefits of Precision Maintenance
Journey to 6 Sigma – Minimizing Variability
The Solution starts when Management set standards, then promote and enforce them
Typical Precision Maintenance Program Content
. Accurate Fits and Tolerance at Operating Temperature
. Impeccably Clean, Contaminant-Free Lubricant Life-long
. Distortion-Free Equipment for its Entire Life
. Forces and Loads into Rigid Mounts and Supports
. Laser Accurate Alignment of Shafts at Operating Temperature
. High-Quality Balancing of Rotating Parts
. Low Machine Vibration
. Correct Torques and Tensions in all Components
. Correct Tools in the Condition To-Do the Task Precisely
. Only In-specification Parts
. Failure Cause Removal to Increase Reliability
. A documented system to standardize work and use standards in a successful way
Improve Lubricant Condition
Alignment Tolerance Recommendation
Define Allowable Vibration Severity
Replace Unbalance with Balance
Correct Shaft and Hole Fits
Soft Foot
Using Precision Maintenance
. Creative Disassembly
. Creative Disassembly – Pre-shutdown of Equipment
. Creative Disassembly – At Shutdown
. Creative Disassembly – At Strip-down
Tell-tale Bearing Failure Signs
Set Standards for the Condition and Use of Tools and Equipment
Typical Standards for Precision Maintenance Program
Developing Precision Skills
3Ts of Failure Prevention
The Accuracy-Controlled Enterprise

 

 

 

 

DAY 4 of Rotating Equipment Reliability Seminar:

 

Rotating Equipment Reliability DAY 4

 

(80 PowerPoint Slides)

 

Day 4 - Rotating Equipment Reliability Sample 4

 

RISK REDUCTION STRATEGIES IN ROTATING MACHINERY DESIGN AND OPERATION

Understanding and Measuring Risk
Chance vs. Consequence Risk Reduction Methods
Applying Risk Reduction During Design
Understanding and Measuring Risk
What is a High Potential Incident?
The similarity between Safety Incidents and Equipment Failures
Applying Risk Reduction
Which Risk Reduction Methods are Best?
Risk Management Process

 

DESIGN AND OPERATING COSTS TOTALLY OPTIMISED RISK

Life Cycle Operating Cost
Failure Cost Impact Calculations
Design and Operating Costs Totally Optimized Risk (DOCTOR)
Life Cycle Risk Management Strategy

 

LIFTING LIFETIME RELIABILITY

Failure Mechanisms
Equipment Reliability Overview
Reliability Mathematics
Measuring Reliability for Components – Weibull Plot
Calculating The Reliability of Systems
Reliability of Series Systems (i.e. Machines)
Reliability of Parallel Systems (i.e. Machines)
Crow – AMSSA Reliability Growth Plotting
Reliability Implications for Maintenance
Failure Mode Effects Analysis (FMEA) Fundamentals
Failure Mode Effects Analysis
Reliability Centered Maintenance fundamentals
The RCM Process and Method
Choosing of Maintenance Type - Simplified RCM Method

 

ROOT CAUSE FAILURE ANALYSIS (RCFA)

 Root Cause Failure Analysis Process
. RCFA fundamentals
. Finding the Evidence and Proof
. Applying RCFA in the Workplace
How RCFA Contributes To Improvement
RCFA is Fundamentally about Finding the Cause Behind the Cause
Cause Behind the Cause - Latent Thoughts
The Real Cause?... Latent Values
The RCFA Process
Data Gathering Following an Incident
Data Analysis to Release Information
Extra Clues for Causes
Developing and Implementing Solutions
Operating and Maintenance Records for Reliability Improvement
Importance of Keeping Accurate Records and History
Making RCFA ‘Live’ in the Workplace
Cross-functional Teams
For the shop floor – The 5 Whys method
Operator and Maintainer Buy-in for Improvement
Activity 2 - RCFA Exercise

 

MANAGING ASSET INTEGRITY

Asset Management in a Nutshell
Rotating Equipment Asset Integrity
Control of Asset Integrity
Asset Integrity Means…
. Design Integrity
. Technical Integrity (mechanical integrity)
. Operating Integrity
Threats to Technical Integrity
Commonly Reported Areas of Inadequate Process Safety Programs
Rotating Equipment Startup Delays
Rotating Machinery Testing of Technical Integrity Assurance
Taking Integrity into Operations
Use Effective Asset Integrity Processes
Use Structured Review Audits
Structured Review Audit Objectives
Measuring and Rating Objectives
Machine Integrity Inspection Guide Notes
Example Model for a Plant Tour
Reciprocating Compressor Example
No Equipment Management Oversight

 

 

(After purchase with the 'Add to Cart' button above, you immediately receive an email from PayLoadz with the download link.)

 

Price: US$59.95

(Total of 342 slides in 4 PPT files)

 

 

 

For individuals wanting independent study material and instructors wanting to use in class.

 

 

 


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Please Contact BIN95 with any questions or comments.