Course Details

FUNDAMENTALS OF PROCESS CONTROL TRAINING

Location
London, UK
Date
From Date:  17-May-2021   To Date:     21-May-2021
Duration
5 Days
Language
English
Discipline
Instrumentations & Control Engineering
Introduction

This course should adequately pre-pare a prospective technician or serve as an introduction for a prospective engineer wishing to get a solid basic understanding of instrumentation and process control.

Basic Control Concepts, the basic concepts encountered in automatic process control. Some of the basic terminology is also presented.

Fundamental Process Control focuses on the fundamental nature of process control, which includes an extensive discussion on control methodologies.

Instrumentation and process control involve a wide range of technologies and sciences, and they are used in an unprecedented number of applications. Examples range from the control of heating, cooling, and hot water systems in homes and offices to chemical and automotive instrumentation and process control.

This course is designed to cover all aspects of industrial instrumentation, such as sensing a wide range of variables, the transmission and recording of the sensed signal, controllers for signal evaluation, and the control of the manufacturing process for a quality and uniform product.

Objective

Upon successful completion of this course, the delegates will be able to:

  • Explain the theory of process control
  • Identify all industrial process applications, control of process variables
  • Act safe and efficiently operate the process.
  • Recognize the most common variables controlled are pressure, level, temperature,
  • and flow.
  • Define many different methods used to control these processes, this monitoring and control is generically called process control. Level, pressure, temperature, and flow are all controlled in a similar fashion.
  • Discuss the difference between direct- and reverse-acting controllers.
  • Define common terms and symbols used in process control.
  • Describe the function of self-regulated and non-self-regulated processes."
  • Introduction to industrial instrumentation
  • Refresh knowledge of basic electricity, electronics and physics

Sensors and their use in the measurement of a wide variety of physical variables —such as level, pressure, flow, temperature, humidity, and mechanical measurements—are discussed in The use of regulators and actuators for controlling pressure, flow, and the control of the input variables to a process are discussed in Documentation as applied to instrumentation and control is introduced, together with standard symbols recommended by the Instrument Society of America (ISA) for use in instrumentation control diagrams.

Audience

This course is tailored for:

  • Electrical Operators, Technicians and Engineers.
  • Chemical Operators, technicians and Engineers
  • Managers, engineers, and technicians working in the field of instrumentation and process control.

It is anticipated that the prospective participant will have a basic understanding of mathematics, electricity, and physics.

Content

Chapter 1. Introduction and Review

1.1 Introduction

1.2 Process Control

1.3 De?nitions of the Elements in a Control Loop

1.4 Process Facility Considerations

1.5 Units and Standards

1.6 Instrument Parameters

 

Chapter 2. Basic Electrical Components

2.1 Introduction

2.2 Resistance

2.3 Capacitance

2.4 Inductance

 

Chapter 3. Documentation and Symbols

3.1 Introduction

3.2 System Documentation

3.3 Pipe and Identi?cation Diagrams

3.4 Functional Symbols

3.5 P and ID Drawings

 

Chapter 4. Process Control

4.1 Introduction

4.2 Basic Terms

4.3 Control Modes

4.4 Implementation of Control Loops

4.5 Digital Controllers

 

 Chapter 5. Pressure

5.1 Introduction

5.2 Basic Terms

5.3 Pressure Measurement

5.4 Pressure Formulas

5.5 Measuring Instruments

5.6 Application Considerations

 

Chapter 6. Level

6.1 Introduction

6.2 Level Formulas

6.3 Level Sensing Devices

6.4 Application Considerations

 

Chapter 7. Flow

7.1 Introduction

7.2 Basic Terms

7.3 Flow Formulas

7.4 Flow Measurement Instruments

7.5 Application Considerations

 

Chapter 8. Temperature and Heat

8.1 Introduction

8.2 Basic Terms

8.3 Temperature and Heat Formulas

8.4 Temperature Measuring Devices

8.5 Application Considerations

 

Chapter 9. Humidity, Density, Viscosity, and pH

9.1 Introduction

9.2 Humidity

9.3 Density and Speci?c Gravity

9.4 Viscosity

9.5 pH Measurements

 

Chapter 10. Actuators and Control

10.1 Introduction

10.2 Pressure Controllers

10.3 Flow Control Actuators

10.4 Power Control

10.5 Motors

10.6 Application Considerations

Certificate

TRAINIT ACADEMY will award an internationally recognized certificate(s) for each delegate on completion of training.

Methodology

The training course will be highly participatory and the course leader will present, guide and facilitate learning, using a range of methods including formal presentation, discussions, sector-specific case studies and exercises.  Above all, the course leader will make extensive use of real-life case examples in which he has been personally involved. You will also be encouraged to raise your own questions and to share in the development of the right answers using your own analysis and experiences.  Tests of multiple-choice type will be made available on daily basis to examine the effectiveness of delivering the course.

  • 30% Lectures
  • 30% Workshops and work presentation
  • 20% Case studies & Practical Exercises
  • 10% Role Play
  • 10% Videos, Software or Simulators (as applicable) & General Discussions
Fees
$6,150