Advanced Instrumentation and Process Control Course: Difference between revisions

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===3.0 Control Valve Selection & Sizing===
===3.0 Control Valve Selection & Sizing===
*3.1  Control valve body types
*3.2  Flow characteristics
*3.3  Actuators & accessories
*3.4  Valve noise
*3.5  Valve selection guidelines
*3.6  Valve flow coefficient
*3.7  Valve sizing equations


3.1 Control valve body types
===4.0 Automatic Control & Tuning Techniques===
*4.1  Control principles
*4.2  Process characteristics
*4.3 Control actions
*4.4 Control modes
*4.5  Tuning calculations
*4.6  Tuning simulation


3.2  Flow characteristics
===5.0 DCS Fundamentals & Configuration===
 
*5.1  Evolution & development
3.3  Actuators & accessories
*5.2  Hardware requirements
 
*5.3  Software requirements
3.4  Valve noise
*5.4  Network requirements
 
*5.5  Configuration techniques
3.5  Valve selection guidelines
 
3.6  Valve flow coefficient
 
3.7  Valve sizing equations
 
4.0    Automatic Control & Tuning Techniques
 
4.1  Control principles
 
4.2  Process characteristics
 
4.3  Control actions
 
4.4  Control modes
 
4.5  Tuning calculations
 
4.6  Tuning simulation
 
5.0   DCS Fundamentals & Configuration
 
5.1  Evolution & development
 
5.2  Hardware requirements
 
5.3  Software requirements
 
5.4  Network requirements
 
5.5  Configuration techniques
 
6.0      Engineering Documentation
 
   
 
 
TARGET PARTICIPANTS


===6.0 Engineering Documentation===
   
   
==TARGET PARTICIPANTS==


The course is open to holders of a Bachelor’s Degree in Mechanical, Electrical, Electronics, Industrial or Chemical Engineering; as well as to instructors of technical schools and industrial technicians. Knowledge of the basics of Instrumentation and Process Control is a prerequisite to the program.
The course is open to holders of a Bachelor’s Degree in Mechanical, Electrical, Electronics, Industrial or Chemical Engineering; as well as to instructors of technical schools and industrial technicians. Knowledge of the basics of Instrumentation and Process Control is a prerequisite to the program.


==TRAINING METHODOLOGY==
TRAINING METHODOLOGY
 


The lecture-discussion method will be used and sufficiently supplemented by laboratory and simulation work, which is the hands-on portion of the program. The resource persons will supervise individual and group exercises closely.
The lecture-discussion method will be used and sufficiently supplemented by laboratory and simulation work, which is the hands-on portion of the program. The resource persons will supervise individual and group exercises closely.


==VENUE==
VENUE


Sessions will be conducted at the Low-Cost Automation (LCA) Rooms of UPISSI.


Sessions will be conducted at the Low-Cost Automation (LCA) Rooms of UPISSI.
[[Category: ISSI Seminar]][[Category: Seminar]][[Category: Training]]

Latest revision as of 11:39, 23 April 2010

Description

Enables participants to design, implement and maintain process control systems; understand and control process parameters; and configure control systems with appropriate hardware and software.

Schedule

Apr. 24 – May 29 9:00 AM – 4:30 PM (5 Saturdays)

Fee

P9,000

COURSE OBJECTIVES

After the course, the participants will be able to:

  • Select the type of level and flow measurement, as well as the control valve applicable to a process situation.
  • Perform calculations required in level measurements, orifice sizing, control valve sizing and controller tuning.
  • Understand the application, hardware and software requirements and basic configuration techniques in distributed control systems (DCS).

COURSE CONTENT

The course has a total of 30 hours and will cover the following topics.

1.0 Level Measurements & Calculations

  • 1.1 Methods of level measurement
  • 1.2 Operation, application & installation
  • 1.3 Selection of measurement method
  • 1.4 Level measurement calculations

2.0Flowmeter Selection & Orifice Sizing

  • 2.1 Flow measurement methods
  • 2.2 Operation, application & installation
  • 2.3 Selection of measurement method
  • 2.4 Orifice sizing calculations

3.0 Control Valve Selection & Sizing

  • 3.1 Control valve body types
  • 3.2 Flow characteristics
  • 3.3 Actuators & accessories
  • 3.4 Valve noise
  • 3.5 Valve selection guidelines
  • 3.6 Valve flow coefficient
  • 3.7 Valve sizing equations

4.0 Automatic Control & Tuning Techniques

  • 4.1 Control principles
  • 4.2 Process characteristics
  • 4.3 Control actions
  • 4.4 Control modes
  • 4.5 Tuning calculations
  • 4.6 Tuning simulation

5.0 DCS Fundamentals & Configuration

  • 5.1 Evolution & development
  • 5.2 Hardware requirements
  • 5.3 Software requirements
  • 5.4 Network requirements
  • 5.5 Configuration techniques

6.0 Engineering Documentation

TARGET PARTICIPANTS

The course is open to holders of a Bachelor’s Degree in Mechanical, Electrical, Electronics, Industrial or Chemical Engineering; as well as to instructors of technical schools and industrial technicians. Knowledge of the basics of Instrumentation and Process Control is a prerequisite to the program.

TRAINING METHODOLOGY

The lecture-discussion method will be used and sufficiently supplemented by laboratory and simulation work, which is the hands-on portion of the program. The resource persons will supervise individual and group exercises closely.

VENUE

Sessions will be conducted at the Low-Cost Automation (LCA) Rooms of UPISSI.