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6 - OGE - Oil & Gas - General/Miscellaneous
OGE 233 - Process Measurement & Control Technology
Code | Start Date | Duration | Venue | |
---|---|---|---|---|
OGE 233 | 21 October 2024 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 18 November 2024 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 16 December 2024 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 10 February 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 07 April 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 16 June 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 28 July 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 22 September 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 17 November 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 233 | 22 December 2025 | 5 Days | Istanbul | Registration Form Link |
Course Description
The control of processes in today’s oil, gas and chemical industries requires and needs accurate knowledge of process conditions and this, in turn, means the accurate measurement of those conditions. Without any measurement, there can be no control and no information as to the state of the process. A greater understanding of the measuring equipment and the instruments can develop and improve the performance of the operator and this, in turn, will improve plant performance. Better knowledge of how equipment is selected, how it is constructed, how it’s work helps an operator to identify the cause of problems and prevent their recurrence.
Course Objectives
- Understanding of the principles of operation of a range of sensors and transducers
- Learning about specification and designing of instrumentation systems for pressure, level, temperature and flow
- Identifying problems with instrumentation systems
- Understanding the concepts of Process Control
- Learning about PID control and developing the ability to ‘tune’ a process control system using PID control
- Understanding the difference between manual and automatic control
- Understanding of SIS safety instrumentation system
- Understanding of metering system
Who Should Attend?
- Maintenance Engineers
- Electronic Engineers and Technicians
- Chemical Engineers and Technicians
- Operations Engineers
- Process Operators
- Instrument and Process Control Technicians
Course Details/Schedule
Day 1
- Introduction and definition of process control
- Reduce Variability, Increase Efficiency, Ensure Safety
- Control Theory Basics
- Components of Control Loops
- Sensor and transducer
- Absolute and relative pressure
- Measurement Units
- Temperature Measurement
- Thermocouple
- Filled system
- Bimetallic element
- Thermometers
Day 2
- metering system
- Introduction to metering system
- Flow Measurement
- Measurement Units
- Flow Meter
- Coriolis Principle
- Head Flow Meters (Venturi Tube, Orifice Plate, Dall Flow Tube, Pitot Tube,)
- Rotameters (Variable Area Flowmeter, Glass Tubes, Metal Tubes)
- Turbine Flowmeters
- Positive displacement flowmeters
- Electromagnetic Flowmeter
- Ultrasonic Flow Equipment
- Vortex Flowmeters
Day 3
- Pressure and Level Measurement
- Level Indicators
- Hydrostatic Drive Meters
- Differential Pressure Gauges
- Radar Level Measurement
- Pressure Process Instruments
- Pressure Switches, Compact temperature switches, Level Switches Structure and Flow switches
- Position Transmitters
- Valve Types and Identification
- Pressure Relief Valve
- Solenoid Valves
Day 4
- Controller Algorithms
- Controller’s Tuning
- Controller Algorithms (Proportional, PI, and PID Control)
- Process Control Loops
- Single Control Loops and Examples
- Control Loops Types
- Multivariable Loops and Examples
- Feedforward Control (Open Control Loop)
- Feedforward Plus Feedback
- Cascade, Ratio and Batch Control
Day 5
- What Is a Safety Instrumented System?
- SIS system
- Installation, Commissioning, and Validation
- Operations and Maintenance
- Process Control VS. Safety Control
- Control and Safety Defined
- Separation of Control and Safety Systems
- Common Cause and Systematic /Functional Failures
- Protection Layers
- Alarm Systems
- Shutdown/Interlock/Instrumented Systems (Safety Instrumented Systems – SIS)