Jadwal Training Pelatihan Diklat Bimtek Seminar Workshop 2020

Training Operational Excellence in the Process Industry

Operational Excellence in the Process Industry (The Key to a Lean and Low-Risk Failure)

29 – 31 Januari 2015, Jogjakarta Plaza Hotel, Yogyakarta
10 – 12 Februari 2015, New Saphir Hotel, Yogyakarta
04 – 06 Maret 2015, Ibis Style Hotel, Yogyakarta
07 – 09 April 2015, Jogjakarta Plaza Hotel, Yogyakarta
12 – 14 Mei 2015, Jogjakarta Plaza Hotel, Yogyakarta
23 – 25 Juni 2015, Jogjakarta Plaza Hotel, Yogyakarta
01 – 03 Juli, Jogjakarta Plaza Hotel, Yogyakarta
04 – 06 Agustus 2015, Jogjakarta Plaza Hotel, Yogyakarta
08 – 10 September 2015, Jogjakarta Plaza Hotel, Yogyakarta
06 – 08 Oktober 2015, Jogjakarta Plaza Hotel, Yogyakarta
17 – 19 November 2015, Jogjakarta Plaza Hotel, Yogyakarta
08 – 10 Desember 2015, Jogjakarta Plaza Hotel, Yogyakarta

DESCRIPTION

This course presents the best practices from High Reliability Organizations (HROs) with respect to both excellence and safety. HRO is a term that refers to industries such as oil and gas, process, nuclear and aviation, where they possess a high degree of reliability despite their hazardous environment. It shows how organizations can learn from failures and near misses, as well as from other industries. Operational excellence will cover aspects of safety, risk, reliability, and quality management. This will include best practice at both strategic and operational levels, as well as in specific areas that relate to management skills, reliability and decision analysis, benchmarking, and information systems.

This course will feature:

Understanding of safety, risk and continuity of operations
Development of people management skills
Mastering techniques that can enhance plant reliability
How to conduct benchmarking and quality systems auditing
Applying decision analysis approaches

What are the Goals?

By the end of this course, participants will be able to:

Explain the benefits of acquiring best practices from HROs
Show how activities play a part in helping their organization perform at a higher level
Determine methods for generating and implementing effective performance metrics
Use a process improvement methodology back at work
Analyze critically the methodologies employed in the organization & implement improvements

Who is this Course for?

This course is highly recommended for all Operations, Maintenance, Reliability, Engineering and Technical Support staff. Also, this course is applicable to any person actively involved or contemplating safety, performance measurement, improvement and/or quality and reliability related activities.

This course is suitable to a wide range of professionals but will greatly benefit:

Operations & Process Professionals
Reliability & Safety Professionals
Other professionals involved in process improvement

Training Topics

Safety Systems and Risk Management

Safety first
Learning from failures
Analyzing near misses, incidents & accidents
Taxonomy of theories
Risk assessment, Choice of case studies
Types of recommendations

Continuity of Operations – Plant Systems Reliability

Coping with risks
Defining reliability and resilience
Reliability Centered Maintenance (RCM) techniques
Fault Tree Analysis (FTA)
Reliability Blok Diagram (RBD)
Practical examples and case studies

Case Studies from High Reliability Organizations (HROs)

Case from Aviation industry
Case from Process industry
Case from Oil and Gas industry
Case from Nuclear industry
Group work and group presentations

The Concept of Generic Lessons & Benchmarking

Attributes of the generic lessons
Best practice of learning from failures from different industries
Best practice can be learned from worst practice
The ten generic lessons and the three underpinning factors
What is benchmarking? History of benchmarking
Different methods of benchmarking and how they relate to each other

A Model of Learning and Unlearning Excellence

Adaptive organizational learning
Routine dynamics
The Decision-Making Grid (DMG) model
A framework for analyzing near-misses and failures
High severity with low frequency versus high severity with high frequency