PLC/DCS-Based Advanced Process Control Implementation Tips



Published 7/2022
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.64 GB | Duration: 5h 49m
Maximize the effectiveness of control scheme design and implementation in DCS or PLC


What you’ll learn
Learn how to design and build batch and continuous control systems inside any DCS or PLC.
Learn how to create effective APC schemes in any DCS or PLC.
Mathematically compute the various tuning parameters and control parameters for the control schemes.
Learn how to raise output, boost profit margins, and improve key performance indicators while stabilizing the operation of the process.
Requirements
Courses in Industrial Advanced Process Control and Optimization, Primary Process Control and PID Tuning are prerequisites for this course since it is continuing to develop knowledge and skills based on the courses mentioned.
Description
his course covers the design of control schemes and implementation inside a DCS or PLC. The course covers how to design and implement various advanced control schemes using real plant examples. The course shows you how to conceptualize the design of APC schemes for maximizing production rates, minimizing utilities, developing schemes to improve the plant’s operating efficiencies, protecting equipment from overloading, and avoiding shutdowns. The course discusses how to build both standard and custom function blocks inside any DCS or PLC. This includes batch control, continuous control, and sequence control. The course takes specific examples of how to build complex and advanced control schemes using a variety of standard and custom blocks in the DCS or PLC.Learning Outcomes:At the end of this course, students will have the skills to design and build continuous and batch control schemes inside any DCS/PLC. They will have the ability to look at a process flow diagram or P&ID and based on operations goals and objectives, design and implement the appropriate control schemes inside any DCS or PLC. Students will also have the skills to mathematically compute the various tuning parameters and control parameters for the control schemes. The course teaches how to provide automation to stabilize the process operation, how to maximize production, minimize cheaper byproducts, minimize utilities, minimize environmental emissions, increase the profit margins and improve key performance indicators. You can develop many powerful APC schemes in any DCS or PLC with the knowledge from this course and achieve the goals and objectives of plant management. The following topics are covered in this course:Using PV transforms for linearizing nonlinear processesRatio control for pure mixing versus complex processesAdaptive tuning – as a function of PID OutputMedian temperature controller in a reactorAverage temperature controller in a distillation columnDistillation reflux mass balance controllerSignal validation for use in closed loop controlAnalyzer validation logicConstraint override control for limiting equipmentRate maximizer – with delta temperature and characterizer on the valveOnline heat balance controlMW power feedforward control schemeCross firing limiting controlLab update bias correctionOnline mass balance controller
Overview
Section 1: Rate Maximizer for complete plant
Lecture 1 Rate Maximizer for complete plant
Section 2: Rate Maximizer with heat exchanger pinch and valeve characterizer
Lecture 2 Rate Maximizer with heat exchanger pinch and valeve characterizer
Section 3: Rate Maximizer with fast constraint relief
Lecture 3 Rate Maximizer with fast constraint relief
Section 4: Online Hydrogen Mass Balance Controller
Lecture 4 Online Mass Balance Controller
Section 5: Online heat balance calculation for polymer rate control
Lecture 5 Online heat balance calculation for polymer rate control
Section 6: MW power feedforward control scheme
Lecture 6 MW power feedforward control scheme
Section 7: Furnace cross firing limiting control
Lecture 7 Furnace cross firing limiting control
Section 8: Lab update model prediction bias correction
Lecture 8 Lab update model prediction bias correction
Section 9: Constraint override control for limiting equipment
Lecture 9 Constraint override control for limiting equipment
Section 10: Distillation reflux mass balance controller
Lecture 10 Distillation reflux mass balance controller
Process Control Engineers, Advanced Process Control Engineers and Instrument Engineers,Lab Technicians and DCS/PLC Technicians,Managers and Supervisors

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https://www.udemy.com/course/plcdcs-based-advanced-process-control-implementation-tips/

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