Media Storage Type : 32 GB USB Stick
NPTEL Subject Matter Expert : Prof. Taraknath Das
NPTEL Co-ordinating Institute : IIT Roorkee
NPTEL Lecture Count : 60
NPTEL Course Size : 7.2 GB
NPTEL PDF Text Transcription : Available and Included
NPTEL Subtitle Transcription : Available and Included (SRT)
Lecture Titles:
Lecture 1 - Introduction
Lecture 2 - Introduction_Various Reactors_BR
Lecture 3 - Design Equation_Continuous reactor (CSTR_PFR_PBR)
Lecture 4 - Design Equation_Continuous reactor (CSTR_PFR_PBR)_Sizing
Lecture 5 - Reaction Rate with Conversion, Temperature, and pressure (Batch/Flow system)
Lecture 6 - Space time Space velocity and CSTRs in series/parallel
Lecture 7 - Effect of Pressure Drop on reactor design (PBR)_(X vs W) and (P vs W)
Lecture 8 - Effect of Pressure Drop on Reactor design (PBR)_(X vs W)_ (P vs W)
Lecture 9 - Effect of Pressure Drop in PBR reactor_Analytical solution of Differential equation
Lecture 10 - Effect of Pressure Drop in PBR reactor_Analytical solution for Reaction With Pressure drop
Lecture 11 - Effect of Pressure Drop in PBR reactor_Example
Lecture 12 - Differential Reactor_rate of reaction_catalyst deactivation
Lecture 13 - Catalyst deactivation
Lecture 14 - Catalyst Deactivation_Temperature (T) - Time (t) trajectories
Lecture 15 - Moving Bed Reactor_Catalyst deactivation
Lecture 16 - STTR_Catalyst deactivation
Lecture 17 - Multi phase reactors-1: Slurry reactor - 1
Lecture 18 - Multi phase reactors-1: Slurry reactor - 2
Lecture 19 - Multi phase reactors-1: Slurry reactor - 3
Lecture 20 - Multi phase reactors-2: Trickle bed reactor - 1
Lecture 21 - Multi phase reactors-2: Trickle bed reactor - 2
Lecture 22 - Multi phase reactors-2: Trickle bed reactor - 3
Lecture 23 - Bioreactor_Cell Growth and Rate laws
Lecture 24 - Bioreactors_Stoichiometry_Yield coefficients_rate of substrate consumption
Lecture 25 - Bioreactors_Example_Yield coefficients and rate law parameters estimation
Lecture 26 - Bioreactors_Mass Balances (Cell, Substrate, Product)
Lecture 27 - Bioreactors_Chemostats
Lecture 28 - Steady State Non Isothermal reactor design_EB equation
Lecture 29 - Steady State Non Isothermal reactor design_Example
Lecture 30 - SS Non Isothermal reactor design_Reaction with Heat Exchange
Lecture 31 - SS Non Isothermal reactor design_Heat Exchange_ T-profile for a few cases
Lecture 32 - SS Non Isothermal reactor design_Equilibrium conversion
Lecture 33 - SS Non Isothermal reactor design_Optimum feed temperature
Lecture 34 - SS Non Isothermal reactor design_Multiple Steady States
Lecture 35 - SS Non Isothermal reactor design_Ignition Extinction Curves
Lecture 36 - SS Non Isothermal reactor design_Runaway reaction in a CSTR
Lecture 37 - SS Non Isothermal reactor design_Energy Balance:Multiple rxn in a CSTR/PFR (Examples)
Lecture 38 - Non-ideal flow - 1
Lecture 39 - Basics of Non-ideal flow - 2
Lecture 40 - Basics of Non-ideal flow - 3
Lecture 41 - Non-ideal flow-Segregation model
Lecture 42 - One parameter Model-Tank in Series model (TIS)
Lecture 43 - Non-ideal flow-Dispersion model - Part 1
Lecture 44 - Non-ideal flow-Dispersion model - Part 2
Lecture 45 - Non-ideal flow-Dispersion model - Part 3
Lecture 46 - Two parameter Models-Modeling real reactors with Combinations of Ideal Reactors
Lecture 47 - Solid Catalyzed Reaction: Reaction and Diffusion - Part 1
Lecture 48 - Solid Catalyzed Reaction: Reaction and Diffusion - Part 2
Lecture 49 - Solid Catalyzed Reaction: Reaction and Diffusion - Part 3
Lecture 50 - Catalysis and Catalytic Reactors - Part 1
Lecture 51 - Catalysis and Catalytic Reactors - Part 2
Lecture 52 - Catalysis and Catalytic Reactors - Part 3
Lecture 53 - Collection and Analysis of Rate - Part 1
Lecture 54 - Collection and Analysis of Rate - Part 2
Lecture 55 - Collection and Analysis of Rate - Part 3
Lecture 56 - Polymath and ODE solver
Lecture 57 - Catalyst Synthesis - Part 1
Lecture 58 - Catalyst Synthesis - Part 2
Lecture 59 - Catalyst Characterization Techniques: BET, Pore size, Pore volume
Lecture 60 - Catalyst Characterization Techniques