University of Mumbai Syllabus For Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC): Knowing the Syllabus is very important for the students of Semester 7 (BE Fourth Year). Shaalaa has also provided a list of topics that every student needs to understand.
The University of Mumbai Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC) syllabus for the academic year 2022-2023 is based on the Board's guidelines. Students should read the Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC) Syllabus to learn about the subject's subjects and subtopics.
Students will discover the unit names, chapters under each unit, and subtopics under each chapter in the University of Mumbai Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC) Syllabus pdf 2022-2023. They will also receive a complete practical syllabus for Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC) in addition to this.
University of Mumbai Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC) Revised Syllabus
University of Mumbai Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC) and their Unit wise marks distribution
University of Mumbai Semester 7 (BE Fourth Year) Process Dynamics and Control (PDC) Course Structure 2022-2023 With Marking Scheme
| # | Unit/Topic | Weightage |
|---|---|---|
| 100 | Introduction to Process Control | |
| 200 | Dynamic Models of Processes | |
| 300 | Transfer Function Models | |
| 400 | Dynamic Behaviour of Processes | |
| 500 | Development of Empirical Models from Process Data | |
| 600 | Feedback and Feedforward Control | |
| 700 | Closed-loop Response and Stability | |
| 800 | Controller Design and Tuning | |
| 900 | Control Strategies | |
| 1000 | Frequency Response | |
| Total | - |
Syllabus
- Typical Control Problems, A Blending Process Example, Control Strategies, Hierarchy of Control Activities, An Overview of Control System Design.
- The Rationale for Dynamic Process Models, General Modelling Principles, Degrees of Freedom Analysis, Typical Dynamic Models.
- Transfer Functions of Typical Systems, First and Second Order Systems, Properties of Transfer Functions, Transfer Functions of Systems in Series, Time Delay Processes, Linearisation of Non-linear Systems, State Space and Transfer Function Matrix Models.
- Standard Process inputs, Response of First Order Processes, Response of Second Order Processes, Response of Integrating Processes.
- Fitting First and Second Order Models Using Step Tests, Development of Discrete Time Dynamic Models, Identifying Discrete Time Models From Experimental Data.
- Basic Control Modes, Features of PID and On-off Control, Conntrol Valve Characteristics, Response of Feedback Control Systems, Digital Verions of PID Controllers.
- Closed-Loop Transfer Functions, Closed-Loop Response, Stability, Root Locus.
- Performance Criteria, Model-Based Design Methods, Controller Tuning, Controllers with Two Degrees of Freedom, OnLine Tuning.
- Degrees of Freedom Analysis, Selection of Variables, Typical Applications.
- Frequency Response of Typical Systems, Bode Stability Criterion, Nyquist Stability Criterion, Gain and Phase Margins.
