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CHE 466: Process Dynamics and Controls

CHE 466: Process Dynamics and Controls (Fall 2008, University of Michigan). Instructor: Professor Peter J. Woolf. This course uses an open textbook University of Michigan Chemical Engineering Process Dynamics and Controls. The articles in the open textbook (wikibook) are all written by teams of 3-4 senior chemical engineering students, and are peer-reviewed by other members of the class.

As a practicing chemical engineer, you will be faced with the task of doing things reliably in an uncertain world and with imperfect understanding. In this course we will show you a variety of approaches to reduce or manage this uncertainty through the use of robust designs, dynamic systems theory, nonlinear dynamics, control theory, and statistics. (from open.umich.edu)

Lecture 09 - Modeling Case Study II


Go to the Course Home or watch other lectures:

Lecture 01 - How to Learn in an Electronic Classroom
Lecture 02 - Wiki Basics
Lecture 03 - Modeling Basics: 1. Verbal Modeling
Lecture 04 - Modeling Basics: 2. Incidence Graphs
Lecture 05 - Modeling Basics: 3. Remodeling P1
Lecture 06 - Excel Modeling P2
Lecture 07 - Solving ODEs in Excel & Mathematica
Lecture 08 - Modeling Case Study I
Lecture 09 - Modeling Case Study II
Lecture 10 - PSIDs Notation, Construction & Interpretation
Lecture 11 - Control Programming
Lecture 12 - Chemical Process PID Control
Lecture 13 - Chemical Process PID Control Part2
Lecture 14 - Dynamical Systems Analysis I
Lecture 15 - Dynamical Systems Analysis II
Lecture 16 - Dynamical Systems Analysis III
Lecture 17 - Dynamical Systems Analysis IV
Lecture 18 - Controls Architecture
Lecture 19 - Multiple Input, Multiple Output I
Lecture 20
Lecture 21 - Introductory Statistics
Lecture 22 - Computing Distributions I
Lecture 23 - Computing Distributions II
Lecture 24 - Computing Distributions III
Lecture 25 - Designs of Experiments
Lecture 26 - Bayesian Networks I
Lecture 27 - Bayesian Networks II