Advanced Chemical Reaction Engineering
Advanced Chemical Reaction Engineering. Instructor: Prof. H. S. Shankar, Department of Chemical Engineering, IIT Bombay. This course deals with advanced topics in chemical reaction engineering: Stoichiometric Table and gas law; Reactor design equations for ideal vessels; Effect of pressure drop on performance of plug flow vessels; Plug flow recycle reactors design equation, advantages of plug flow recycle reactor; Energy balance for stirred vessels; Stability of steady states in CSTR and Plotting Lyapunov Contours; Heat effects in reversible exothermic reactions; Design of packed tubular reactors; Gas solid non-catalytic reactions; Design for sponge iron reactor; Reactors for biological waste treatment.
(from nptel.ac.in )
Lecture 15 - Energy Balance (cont.)
VIDEO
Go to the Course Home or watch other lectures:
Lecture 01 - Course Overview
Lecture 02 - Course Overview (cont.)
Lecture 03 - Design Equations
Lecture 04 - Design Equations: Illustrative Examples
Lecture 05 - Design Equations: Plug Flow Recycle Reactors
Lecture 06 - Illustrative Examples: Plug Flow Recycle, Multiple Reactions
Lecture 07 - Illustrative Examples: Recycle Reactor with Condenser, CSTR with Recycle
Lecture 08 - Multiple Reactions
Lecture 09 - Modeling Multiple Reactions in Soil Environment
Lecture 10 - Semi Continuous Reactor Operation
Lecture 11 - Catalyst Deactivation
Lecture 12 - Catalyst Deactivation (cont.)
Lecture 13 - Illustrative Examples: Determination of Deactivation Parameters, Design for Deactivation Catalyst
Lecture 14 - Energy Balance
Lecture 15 - Energy Balance (cont.)
Lecture 16 - Reacting Fluids as Energy Carrier
Lecture 17 - Illustrative Example: Energy Balance in Stirred Vessels
Lecture 18 - Energy Balance: Design for Constant T Operation
Lecture 19 - Energy Balance: Temperature Effects on Rate and Equilibria
Lecture 20 - Energy Balance: Stability Analysis of Exothermic Stirred Tank
Lecture 21 - Illustrative Example: Stability of Exothermic Stirred Tank
Lecture 22 - Energy Balance: Tubular Reactor Heated/Cooled from Wall, Transient Behavior of CSTR
Lecture 23 - Illustrative Example: Plug Flow with Heat Effects, Multiple Reactions
Lecture 24 - Illustrative Example: Further Considerations in Energy Balance, Multiple Reactions
Lecture 25 - Illustrative Example: Hot Spot as Design Basis, Design for Instantaneous Reaction
Lecture 26 - Residence Time Distribution Method
Lecture 27 - Residence Time Distribution Models
Lecture 28 - Shrinking Core Gas Solid Reactions Model
Lecture 29 - Shrinking Core Ash Diffusion Model and Combination of Resistances
Lecture 30 - Gas Solid Reactions Temperature Effects on Rate and Equilibria, Introduction to Population Balance
Lecture 31 - Illustrative Example: Temperature Effects on Rate and Equilibria
Lecture 32 - Population Balance Modelling
Lecture 33 - Population Balance Modelling (cont.)
Lecture 34 - Illustrative Examples: Population Balance Models
Lecture 35 - Introduction to Environmental Reactions
Lecture 36 - Reaction Engineering Examples in Biochemical and Environmental Engineering
Lecture 37 - Illustrative Examples: Biomethanation, Alcohol via Fermentation, Natural Selection
Lecture 38 - Illustrative Examples: Enzyme Reaction, Microbial Reaction, Waste Treatment
Lecture 39 - Oxygen Sag Analysis in Rivers
Lecture 40 - Illustrative Examples: Oxygen Sag Analysis, Population Balance Modeling of Forest, Sponge Iron Process
Lecture 41 - Illustrative Example: Gas- Solid Reaction RTD Models Reaction Network