Process Control & Instrumentation 16 Hour Masterclass

Process Control & Instrumentation 16 Hour Masterclass, available at $79.99, has an average rating of 4.6, with 334 lectures, 24 quizzes, based on 383 reviews, and has 2996 subscribers.

You will learn about Learn the essentials of process controls and PID controllers for a successful career in process industries Successfully draw the correct information from basic to advanced process control loops Master the intricate terminological details of process control (process variable, set point, error, offset, load disturbance…) Identify any process control loop and describe its main tasks and functionalities Describe the basic function and method of operation for the main control loop components (sensor, transmitter, controller, actuator, control valve…) Differentiate between feedback and feedforward control loops Explain the basic implementation process for each of the following types of control: Cascade, ratio, split range… Differentiate between On/Off, discrete, multi-step and continuous controllers Describe the basic mechanism, pros and cons of the following modes of control action: On/Off, Proportional (P), Integral (I), Derivative (D), PI, PID… Describe the general goal of PID controller tuning Apply the Ziegler Nicholls method to tune P, PI and PID controllers for optimum performance Understand control valves working principles for successful operation of your plant and piping systems Understand control valve construction details (bonnet, stem, disc, seat, packing, body, actuator, positioner…) Identify and know the principles of operation of common control valve actuators (diaphragm, piston, rack and pinion, scotch yoke) Dismantle and assemble various types of control valves and actuators using 3D and 2D models Understand how single acting and double acting pneumatic actuators work through graphics and 3D animations Know how to convert a single acting spring return actuator to a double acting actuator and vice versa Understand the concept of failure mode in control valves : Fail Open "FO", Fail Closed "FC", Fail As Is "FAI" Understand the concept of "Air-to-push-up" and Air-to-push-down" Understand the concept of "direct-acting" and "reverse-acting" Know how to convert a fail close actuator to a fail open actuator and vice versa Understand the concept of valve flow coefficient "Cv" and familiarize yourself with the various units Know how to determine flowrate and pressure drop through control valves for different valve lifts Know how to match the valve characteristics to the process Know how to construct the installation curve for a given control valve Understand the effect of selecting a control valve larger than necessary Understand the effect of differential pressure on the valve lift and actuator operation Differentiate between fast opening, linear and equal percentage valve characteristics Understand how valve positioners operate Know the different types of valve positioners (P/P, I/P, force balance, motion balance, digital…) Understand when a positioner should be fitted Understand the working principles of I/P converters and how they are used in control valves Understand the control of pressure in a pipe Understand the control of flow in a pipe Understand how self-acting pressure controls work and their applications Understand how self-acting temperature controls work and their applications Understand flow merging control Understand flow splitting control Understand centrifugal pump control systems (discharge throttling, variable speed drive, minimum flow…) Understand positive displacement pump control systems (recirculation pipe, variable speed drive, stroke adjustment…) Understand compressor control systems (capacity control, variable speed drive, anti-surge…) Understand heat exchanger control systems (direct control, bypass control, back pressure control…) Understand reactor temperature control systems Understand fired heater control systems Understand container and vessel control systems Understand electric motor control systems (ON / OFF actions) Know and understand the concept of Safety Instrumented Systems (SIS) Know and understand the concept of Alarm Systems and Interlocks Understand through extensive 3D animation the techniques and methods used in process industries to measure temperature, pressure, flow and level Put your knowledge to the test at the end of each section with a valuable technical quiz (420+ questions and solved problems) Get access to a set of valuable downloadable resources This course is ideal for individuals who are Personnel needing to learn the essentials of process control, PID controllers and instrumentation or Control, Process, Chemical and Design engineers & technicians or Instrumentation engineers & technicians or Maintenance engineers & technicians or Experienced personnel as a refresher course and to broaden their knowledge or Instructional designers and those involved in writing manuals and operational procedures or Anyone else with an interest in how process control and PID controllers should be designed, tuned and used in process industries It is particularly useful for Personnel needing to learn the essentials of process control, PID controllers and instrumentation or Control, Process, Chemical and Design engineers & technicians or Instrumentation engineers & technicians or Maintenance engineers & technicians or Experienced personnel as a refresher course and to broaden their knowledge or Instructional designers and those involved in writing manuals and operational procedures or Anyone else with an interest in how process control and PID controllers should be designed, tuned and used in process industries.

Enroll now: Process Control & Instrumentation 16 Hour Masterclass

Summary

Title: Process Control & Instrumentation 16 Hour Masterclass

Price: $79.99

Average Rating: 4.6

Number of Lectures: 334

Number of Quizzes: 24

Number of Published Lectures: 334

Number of Published Quizzes: 24

Number of Curriculum Items: 358

Number of Published Curriculum Objects: 358

Original Price: $129.99

Quality Status: approved

Status: Live

What You Will Learn

• Learn the essentials of process controls and PID controllers for a successful career in process industries
• Successfully draw the correct information from basic to advanced process control loops
• Master the intricate terminological details of process control (process variable, set point, error, offset, load disturbance…)
• Identify any process control loop and describe its main tasks and functionalities
• Describe the basic function and method of operation for the main control loop components (sensor, transmitter, controller, actuator, control valve…)
• Differentiate between feedback and feedforward control loops
• Explain the basic implementation process for each of the following types of control: Cascade, ratio, split range…
• Differentiate between On/Off, discrete, multi-step and continuous controllers
• Describe the basic mechanism, pros and cons of the following modes of control action: On/Off, Proportional (P), Integral (I), Derivative (D), PI, PID…
• Describe the general goal of PID controller tuning
• Apply the Ziegler Nicholls method to tune P, PI and PID controllers for optimum performance
• Understand control valves working principles for successful operation of your plant and piping systems
• Understand control valve construction details (bonnet, stem, disc, seat, packing, body, actuator, positioner…)
• Identify and know the principles of operation of common control valve actuators (diaphragm, piston, rack and pinion, scotch yoke)
• Dismantle and assemble various types of control valves and actuators using 3D and 2D models
• Understand how single acting and double acting pneumatic actuators work through graphics and 3D animations
• Know how to convert a single acting spring return actuator to a double acting actuator and vice versa
• Understand the concept of failure mode in control valves : Fail Open "FO", Fail Closed "FC", Fail As Is "FAI"
• Understand the concept of "Air-to-push-up" and Air-to-push-down"
• Understand the concept of "direct-acting" and "reverse-acting"
• Know how to convert a fail close actuator to a fail open actuator and vice versa
• Understand the concept of valve flow coefficient "Cv" and familiarize yourself with the various units
• Know how to determine flowrate and pressure drop through control valves for different valve lifts
• Know how to match the valve characteristics to the process
• Know how to construct the installation curve for a given control valve
• Understand the effect of selecting a control valve larger than necessary
• Understand the effect of differential pressure on the valve lift and actuator operation
• Differentiate between fast opening, linear and equal percentage valve characteristics
• Understand how valve positioners operate
• Know the different types of valve positioners (P/P, I/P, force balance, motion balance, digital…)
• Understand when a positioner should be fitted
• Understand the working principles of I/P converters and how they are used in control valves
• Understand the control of pressure in a pipe
• Understand the control of flow in a pipe
• Understand how self-acting pressure controls work and their applications
• Understand how self-acting temperature controls work and their applications
• Understand flow merging control
• Understand flow splitting control
• Understand centrifugal pump control systems (discharge throttling, variable speed drive, minimum flow…)
• Understand positive displacement pump control systems (recirculation pipe, variable speed drive, stroke adjustment…)
• Understand compressor control systems (capacity control, variable speed drive, anti-surge…)
• Understand heat exchanger control systems (direct control, bypass control, back pressure control…)
• Understand reactor temperature control systems
• Understand fired heater control systems
• Understand container and vessel control systems
• Understand electric motor control systems (ON / OFF actions)
• Know and understand the concept of Safety Instrumented Systems (SIS)
• Know and understand the concept of Alarm Systems and Interlocks
• Understand through extensive 3D animation the techniques and methods used in process industries to measure temperature, pressure, flow and level
• Put your knowledge to the test at the end of each section with a valuable technical quiz (420+ questions and solved problems)
• Get access to a set of valuable downloadable resources

Who Should Attend

• Personnel needing to learn the essentials of process control, PID controllers and instrumentation
• Control, Process, Chemical and Design engineers & technicians
• Instrumentation engineers & technicians
• Maintenance engineers & technicians
• Experienced personnel as a refresher course and to broaden their knowledge
• Instructional designers and those involved in writing manuals and operational procedures
• Anyone else with an interest in how process control and PID controllers should be designed, tuned and used in process industries

Target Audiences

• Personnel needing to learn the essentials of process control, PID controllers and instrumentation
• Control, Process, Chemical and Design engineers & technicians
• Instrumentation engineers & technicians
• Maintenance engineers & technicians
• Experienced personnel as a refresher course and to broaden their knowledge
• Instructional designers and those involved in writing manuals and operational procedures
• Anyone else with an interest in how process control and PID controllers should be designed, tuned and used in process industries