ADVANCEED PROCESS CONTROL

BACKGROUND

PID Controller has been applied in major process industries worldwide since 1940. This controller is still the main controller in the process industries, although the hardware has changed from the stand analog/digital alone controller to distributed control systems (DCS) or programmable logic controller (PLC). The success of the PID controller relies on its simple algorithm but produces high control performances even for different application areas in industries. One main interesting feature of the PID controller is its ability to receive enhancement without any major changes in its basic algorithm form. Therefore the PID controller can be enhanced without replacing the controller itself.

To achieve enhancements, it requires additional process insight, which is developed through increased engineering analysis and effort. The additional effort can be richly rewarded because the enhancement can substantially improve control performance, reducing the integral errors and maximum deviation. The success of the enhancement depends on the quality of the engineering analysis: the accuracy of process insight and the application of the design principles.

In this training program, it will be discussed and covered the enhancement of the PID controller which is known as Advanced Process Control. This training is not similar to Process Control that covers PID algorithm and the well known tuning methods: Trial error, Ziegler-Nicholls and Cohen-Coon. However, Advanced Process Control covers material where that well known tuning methods fail to satisfy the required high performance for complex process control.

DESCRIPTION

Covers the principle of cascade, ratio, feed forward and advance industrial process control. Also provides the usually found advanced PID configuration in industrial systems. Methods for advanced PID controller configuration and tuning are also discussed.

OBJECTIVES

•  Understand the concept of advanced process control
• Understand Cascade, Ratio and Feed forward control
• Understand the concept of advanced PID controller
• Identify the requirement for open loop and closed loop stability
•  Understand the concept of advanced PID controller
•  Use advanced PID controller tuning
• Know the implementation of advanced PID controller and advanced tuning

COURSE   MATERIALS

1. Overview to process control
2. Overview to PID
3. Overview to PID Tuning
4. Performance of control system
5. Ratio control
6. Cascade control
7. Feedforward control
8. Advanced Types of PID Controller
9. Performance of Control Systems
10. Advanced PID Tuning
11. PID Auto-tuning
12. Optimal PID tuning
13. PID for Multi Input Multi Output Plant
14. Selector Control
15. Control for interacting process loops
16. Modeling and system identification
17. Model based control
18. Practice and cases study
19. Discussion

PARTICIPANT

Recommendation For Participants:

For practice session: each participant is recommended to bring notebook/laptop for softwares installation and practice session

The following category of professionals should attend:

•  Instrumentation Engineers & Technicians
• Design and Process Engineers
• Operation Engineer
•  Asset Manager Team members
•  Maintenance Manager/Superintendent & Supervisor
•  Everybody who are responsible to select, specify, design, operate, maintain, process instrumentation & control system

INSTRUCTUR

Ir. Iyus Rusmana, M.Eng / Tugino, S.T, M.T. and Team

PRICE

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