Overview
Syllabus
1.1 - Chemical Reaction Engineering.
1.2 - Conservation Laws.
1.3 - Structure of Problem and Its Solution.
1.4 - Time and Length Scales.
1.5 - Start Up of A Well Mixed Reactor.
1.6 - Unsteady State Reactor.
2.1- Setting up the problem through balance equations.
2.2 - Constant Volume, Constant Density Assumptions.
2.3 - Solving the Equations.
2.4 - Design Equations for a Batch Reactor and a Plug Flow Reactor.
2.5 - The Energy Balance.
2.6 - Stoichiometric Table.
2.7 - Energy Balance around a Chemical Reactor.
3.1- Energy Balance around a Batch Reactor.
3.2 - Energy Balances Examples.
3.3 - Example Solutions.
4.1 - BATCH REACTOR CONSTANT PRESSURE.
4.2 - ACCOUNTING FOR VOLUME CHANGE.
4.3 - ACCOUNTING FOR VOLUME CHANGE IN A BATCH REACTOR.
4.4 - PLUG FLOW REACTOR AND BATCH REACTOR ANALOGY.
4.5 - ENERGY BALANCE IN A MIXED FLOW REACTOR.
5 - MULTIPLE STEADY STATES IN CHEMICAL REACTORS.
6 - PROPERTY ESTIMATIONS.
7 - AVERAGE HEAT CAPACITIES.
8.1 - CRE FOR COMPLEX REACTIONS.
8.2 - DESIGN EQUATION FOR A BATCH REACTOR.
8.3 - PERFORMANCE INDICATORS.
8.4 - PERFORMANCE INDICATOR REACTION EXTENT.
8.5 - EXAMPLE: OPTIMUM SPACETIME IN A CSTR (MFR).
9.1 - LIMITS OF IDEAL REACTORS.
9.2 - NON-IDEAL REACTORS.
9.3 - NON-IDEAL REACTORS MICRO-MIXING VS MACRO-MIXING.
9.4 - NON-IDEAL REACTORS: AXIAL DISPERSION IN PFR.
10.1 - THEORY OF CHEMICAL KINETICS.
10.2 - SURFACE REACTIONS.
10.3 - THEORY OF CHEMICAL KINETICS HOMOGENEOUS REACTIONS.
11 - REACTIONS WITH AN INTERFACE.
13.2 - FLUIDIZED BED REACTOR DESIGN FOR HETEROGENEOUS CATALYZED REACTIONS MODELING.
1 - GENERAL INTRODUCTION TO CHEMICAL REACTION ENGINEERING.
2 - GENERAL MOLE BALANCE AND DESIGN EQUATIONS.
3 - TRANSIENT BEHAVIOR IN IDEAL REACTORS.
4 - REACTION HEATS AND HEAT CAPACITIES.
5 - THE ENERGY BALANCE.
6 - THE ENERGY BALANCE AROUND A BATCH REACTOR.
7 - VOLUME CHANGE DUE TO REACTION.
8 - MULTIPLE STEADY STATES IN CHEMICAL REACTORS.
9 - CRE FOR COMPLEX REACTIONS.
10 - CRE FOR COMPLEX REACTIONS EXAMPLE: OPTIMUM SPACE TIME IN A CSTR.
11 - LIMITS OF IDEAL REACTORS.
12 - NON IDEAL REACTORS.
13 - THEORY OF CHEMICAL KINETICS.
14 - REACTION RATES FOR COMPLEX HOMOGENEOUS REACTIONS.
15 - SURFACE REACTIONS.
16 - REACTIONS WITH AN INTERFACE.
17 - FIXED BED REACTOR DESIGN FOR SOLID CATALYZED REACTIONS.
18 - ADIABATIC REACTOR DESIGN FOR THERMODYNAMICALLY LIMITED REACTIONS.
19 - FLUIDIZED BED REACTOR DESIGN FOR HETEROGENEOUS CATALYZED REACTIONS.
20 - FLUIDIZED BED REACTOR MODELS.
A CRE PERSPECTIVE ON HUMAN METABOLISM.
Taught by
METUopencouseware
Tags
Reviews
4.7 rating, based on 3 Class Central reviews
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When reviewing the online course, I was truly impressed by the engaging content and the depth of knowledge it provided. The instructors expertise shone through in their clear explanations and interactive teaching style, making complex topics easy to understand. The course's structure allowed for a seamless learning experience, and the practical examples shared were invaluable in applying the concepts learned. Overall, this course has significantly enriched my understanding of the subject matter and has equipped me with practical skills that I can readily apply. I highly recommend this course to anyone looking to deepen their knowledge in this area.
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Nice method of understanding .
Good vedioes with a very beautiful way explanation .
To the point explanations and clear objectives .
Very helpful for the engineering g students especially chemical engineering students -
I had only basic knowledge about CRE but now I learned a lot from this course. It's very useful to me and I'm sure that it is recommended for every engineers to enhance this course.