Optimizing Equipment Maintenance & Replacement Decisions
22-07-2024 - 26-07-2024 | 3800 | اسطنبول |
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Is your equipment (fixed or mobile) failing before planned replacement?
Are you unable to execute maintenance tasks because spare parts are not available?
Have you made significant investment in CBM methods and tools but struggle to realize the benefit?
Do you have lots of data from oil analyses but still struggling to accurately predict your equipment breakdowns?
Do you know how to determine optimum asset life?
Are you struggling to justify the economics of asset replacement?
Are you having difficulties in deciding whether to rebuild or replace your equipment to minimize the life cycle costs?
Do you need to optimize your emergency spare requirements?
If you answer YES to any of the above questions, this course is for you
Upon successful completion of this course, the delegates will be able to:
Focus on the techniques of optimization - the single most important thrust of this learning program. Whether the decision is about work-crew sizes, or the replacement of component-parts or entire equipment units, the concept of making the very best, most optimal, decision will be the principal concern of the training program
Equip the participating maintenance managers, planners and schedulers and engineers with the know-how to select the most appropriate analytical tools for their maintenance decision-making
Reflect the growing focus of industrial safety and the profusion of safety-related litigation - think of transportation accidents, chemical spills, and mining disasters - the program will show how safety objectives relate to the optimization models, and will underline the advantages of having a well-documented and rigorously-executed program of maintenance and replacement
Introduce the critical decision-making topics that can make a significant difference to the in-service time of equipment, to the costs related to doing maintenance too often or too seldom, and the optimization of asset utilization
Cover the classic need-to-know material in the area and to acquaint the participants with leading-edge and on-the-horizon approaches that they will encounter in the near future
This course is intended for engineers, professionals of plant operations, facility professionals, maintenance or reliability professionals who are responsible for maintaining and managing the physical equipment assets of a plant/facility. The ideal candidate for this course is an engineer, professional of plant operations, facility professional, maintenance or reliability professional who is responsible for maintaining and managing the physical equipment assets of a plant/facility. He or she represents large facilities and plants from industries such as oil and gas, petrochemical and fertilizer, pulp and paper, cement and ceramics, power generation and utilities, primary metals, and heavy manufacturing and facilities.
Day 1:
Physical Asset Management & Reliability Concepts
From Maintenance Management to Physical Asset Management
Reliability Improvement through Preventive Maintenance
Exercise in Analyzing Component Failure Data Using the Weibull Distribution
Day 2:
Dealing with Censored Data, the 3-Parameter Weibull, and the Kolomorgov-Smirnov Test
Reliability Improvement through Preventive Maintenance (continued)
Case Studies in Component Preventive Replacement
Day 3:
Spare parts provisioning
Case studies in spares provisioning
Group and individual exercises
Reliability Improvement through Inspection
Inspection Frequency and Depth for equipment in continuous operation
Day 4:
Health-Monitoring Procedures
Reliability Improvement through Asset Replacement
Aspects of Discounted Cash Flow Used in Capital Equipment Replacement Analysis
Economic Life of Capital Equipment
Day 5:
Case Studies in Capital Equipment Replacement
Group and individual exercises
Clinic: Hands-On Use of PC Software for Capital Equipment Replacement Analysis
Effective Use of Maintenance Resource
Organizational Structure, Crew Sizes, Workshop Resource Requirements
Case studies including balancing maintenance cost and reliability in an electrical generating station, establishing optimal mix of machines to have in a steel mill maintenance workshop, establishing shift patterns and maintenance crew sizes in a petrochemical plant
Maintenance Management Information Systems
A variety of methodologies will be used during the course that includes:
· (30%) Based on Case Studies
· (30%) Techniques
· (30%) Role Play
· (10%) Concepts
· Pre-test and Post-test
· Variety of Learning Methods
· Lectures
· Case Studies and Self Questionaires
· Group Work
· Discussion
· Presentation
This rate includes participant’s manual, Hand-Outs, buffet lunch, coffee/tea on arrival, morning & afternoon of each day.
Daily Course Timings:
08:00 - 08:20 Morning Coffee / Tea
08:20 - 10:00 First Session
10:00 - 10:20 Coffee / Tea / Snacks
10:20 - 12:20 Second Session
12:20 - 13:30 Lunch Break & Prayer Break
13:30 - 15:00 Last Session