Course Description

This practical and highly-interactive course includes various practical sessions and exercises. Theory learnt will be applied using our state-of-the-art simulators. The course presents a systematic approach to fault diagnosis and failure prevention in a broad range of machinery used in the Oil/Gas, Petrochemical and other process industries. The key approaches to preventive maintenance are demonstrated through both overview and the study of examples in metallurgical failure analysis, vibration analysis and a sequential approach to machinery troubleshooting and problem solving. Equipment failure events will be reviewed and participants are encouraged to bring to the course relevant assembly drawings or such components as failed bearings, gears, mechanical seals and similar machine elements for failure analysis and discussion.The course explores a systematic approach to successful failure analysis and troubleshooting, including the determination of goals, use of checklists and setting up a failure analysis team. By reference to specific case studies, especially dealing with centrifugal pumps, it will be shown that such a systematic program can lead to significant failure reductions in many types of machinery. Through examples dealing with pumps and compressors, guidance is given on vendor selection and methods for reliability review. A matrix approach to machinery troubleshooting uses illustrative examples in pumps, centrifugal compressors, blowers and fans, reciprocating compressors, engines and gas turbines. Next, a systematic approach to generalized machinery problem-solving is described in terms of situation analysis, cause analysis, action generation, decision making and planning for change. Finally, a highly effective root cause failure analysis (RCFA) method is explained in detail. At the end of the course, participants will gain an understanding of structured, resultsoriented root cause failure analysis methods for all types of machine components and entire machinery systems. Participants will also learn how parts fail, why they fail in a given mode and how to prevent failures. Participants will acquire a thorough understanding of making the best possible use of available failure statistics and how these can be used in a conscientiously applied comprehensive program of specifying, purchasing, installing, commissioning and operating machinery. link to course overview PDF

TRAINING METHODOLOGY

This interactive training course includes the following training methodologies as a percentage of the total tuition hours

30 % Lectures
20 % Workshops & Work Presentations
20 % Case Studies & Practical Exercises
30 % Videos, Software & Simulators

In an unlikely event, the course instructor may modify the above training methodology before or during the course for technical reasons.

VIRTUAL TRAINING (IF APPLICABLE)

If this course is delivered online as a Virtual Training, the following limitations will be applicable

Certificates	:	Only soft copy certificates will be issued to participants through Haward’s Portal. This includes Wallet Card Certificates if applicable
Training Materials	:	Only soft copy Training Materials (PDF format) will be issued to participant through the Virtual Training Platform
Training Methodology	:	80% of the program will be theory and 20% will be practical sessions, exercises, case studies, simulators or videos
Training Program	:	The training will be for 4 hours per day starting at 09:30 and ending at 13:30
H-STK Smart Training Kit	:	Not Applicable
Hands-on Practical Workshops	:	Not Applicable
Site Visit	:	Not Applicable
Simulators	:	Only software simulators will be used in the virtual courses. Hardware simulators are not applicable and will not be used in Virtual Training