PRODUCTION SAFETY SYSTEMS
Bandung | January 12 – 15, 2015 | Fee at Proposal
Bandung | May 04 – 07, 2015 | Fee at Proposal
The course presents the safety systems for production in oil and gas. The course covers the related standard such as API 500 series and API RC 14 C and their related standards. The course starts with the understanding of hazard and risk. The related philosophies and principles are then discussed. The protection concepts of apparatus and their codes are then presented. It then followed by the subsurface safety concepts, design and analysis. The course then presents the safety valve devices and the related specification break analysis.
The objectives of the course are to:
- Understand hazard
- Understand flammability and combustible
- Understand risk reduction
- Understand the hazardous area classification
- Understand the standards
- Understand the schematic diagram
- Understand the safety pressure specification break in P&ID
- Know the safety analysis chart
- Know the pressure safety valve requirement
- Know safety system
Outline
Day 1
- Hazardous Area Classification
- Standard API 500
- Flammable and Combustible
- Risk Reduction Principle
- Design philosophy and selection of equipment/apparatus
- Protection concept d, e, n, I, p,
- Explosion Proof Apparatus
Day 2
- Component codes
- Subsurface Safety API 14C
- Safety analysis
- Safety system design
- Process component analysis
- Safety Analysis Table & Safety Analysis Checklist
- Emergency Support Systems
Day 3
- Other Support Systems
- Testing and Reporting Procedures.
- SAFE Chart Development and Analysis
- Emergency Shutdown Devices
- Fire and Gas Detectors
- Liquid Containment Systems
Day 4
- Subsurface Safety Devices
- Pressure Safety Valves
- Safety Shutdown Valves
- Piping Pressure Specification Break
Instructor
Ir.Endra Joelianto, Ph.D.
is an expert in control engineering and industrial automation. His outstanding research is: Hybrid Control Systems, Discrete Event Control Systems, Petri Nets Analysis and Application on PLC, Robust and Advanced PID Controller and its implementation on PLC, DCS, Fieldbus, Industrial automation and Advanced Control System Designs. He received first degree (Ir.) in Engineering Physics in 1990 from Department of Engineering Physics, ITB and Doctor of Philosofy (PhD.) in Control Engineering in 2001 from Department of Engineering, The Australian National University, Canberra, Australia. He is Head of Intelligent Control and Automation Laboratory and Coordinator of PLC Research Group for research and training, Engineering Physics Study Program and Instrumentation and Control Research Division, Institut Teknologi Bandung. He was Director of Schneider-OMRON PLC Training Center, Maranatha Christian University, Bandung. He is the chairman of National Student Competition on PLC Programming held regularly since 2007 in ITB. He serves as instructor either for public or for in-house training on instrumentation and process control to universities, industries, petrochemical or oil and gas companies, such as: PT. NGL Arun, PT. NGL Bontang, PT. Pupuk Iskandar Muda, PT. Pupuk Kalimantan Timur, PT. Pupuk Kujang, PT. Semen Padang, PT. Semen Gresik, PT. Semen Cibinong, PT. Indocement, PT. Semen Tigaroda Perkasa, PT. Exspan Nusantara, PERTAMINA, British Petroleoum, Maxus, Gulf, PT. Chevron Geothermal, PT. Chevron Pacific Indonesia, PetroChina, ConoccoPhilip, PT. Nusa Halmahera Minerals, Unocal, PJB, Immanuel Hospital, LIPI-Bandung, LAPI-ITB, PT. Indonesia Power, Total Indonesie, Star Energy, CNOOC Ses, Premier Oil, Pearl Oil, MEDCO, etc. He has delivered more than 150 professional training programs on Instrumentation and Control. He also serves as instrumentation and control design and consultant, PT. INALUM, PT. Badak NGL, Ministry of Energy and Mineral Resources Indonesia.