subjectId
Discipline Name
Subject Name
Coordinators
Type
Institute
Content
103101004
Chemical Engineering
Chemical Engineering Thermodynamics
Dr. Sandip Roy
Web
IIT Bombay
Select
Section 1 : Introduction
Section 2 : Thermodynamic System: Select Definitions
Section 3 : Types of Energies associated with Thermodynamic Processes
Section 4 : Thermodynamic Equilibrium
Section 5 : The Phase Rule
Section 6 : Zeroth Law of Thermodynamics and Absolute Temperature
Section 7 : The Ideal Gas
Section 8 : State and Path Dependent Thermodynamic Variables
Section 9 : Reversible and Irreversible Thermodynamic Processes
Section 10 :Significance of Chemical Engineering Thermodynamics: Process Plant Schema
Section 1 : General P-V-T Behaviour of Real Fluids
Section 2 : Origins of Deviation from Ideal Gas Behaviour
Section 3 : Equations of State for Real Fluids
Section 4 : Volumetric Properties of Mixtures
Section 5 : Property Representation of 2-phase systems
Section 6 : Heat Effects of Phase Change
Section 1 : Concept of Internal Energy
Section 2 : The First Law of Thermodynamics
Section 3 : Application of the First Law to Open Systems
Section 4 : Measurement of Enthalpy and Internal Energy using Flow Calorimeter
Section 1 : Heat Engins and Second Law Statements
Section 2 : Carnot Heat Engine Cycle and the 2nd Law
Section 3 : Entropy Calculations for Ideal Gases
Section 4 : Mathematical Statement of the 2nd Law
Section 5 : Entropy Balance for Open Systems
Section 6 : Ideal and Lost Work for Flow Systems
Section 7: Appendix 4.1
Section 1 : Thermodynamic Property Relations for Single Phase Systems
Section 2 : Maxwell Relations
Section 3 : Relations for Enthalpy, Entropy and Internal Energy
Section 4 : Residual Property Relations
Section 5 : Residual Property Calculation from EOS
Section 6 : Generalized Correlations for computing dH and dS for a real gas
Section 7 : Computation of ?H and ?S for a Gas using Generalized Departure Functions
Section 8 : Extension to Gas Mixtures
Section 9 : Relations for ?H and ?S for Liquids
Section 10 : Applications to real fluid processes in process plant equipments
Section 1 : Partial Molar Property
Section 2 : Partial Properties for Binary Solutions
Section 3 : Criteria of Thermodynamic Equilibrium
Section 4 : The Chemical Potential
Section 5 : Ideal Gas Mixtures and Liquid Solutions
Section 6 : Excess Properties
Section 7 : Fugacity of pure substances
Section 8 : Fugacity-based phase equilibrium criterion for pure component system
Section 9 : Fugacity expressions for pure gases
Section 10 : Generalized Correlations for the Fugacity Coefficient
Section 11 : Expression for Fugacity of a Pure Liquid
Section 12 : Fugacity and Fugacity Coefficient of Species in Mixture
Section 13 :Relation between residual property and species fugacity coefficients in mixtures
Section 14 : Expressions for gas phase using EOS
Section 15 : The Lewis/Randall Rule
Section 16 : Dependence of Excess Gibbs free energy on temperature and pressure
Section 17 : The Activity Coefficient
Section 18 : Use of VLE data for generation of Activity Coefficient Models
Section 19 : Activity Coefficient Models
Section 20 : Appendix 6.1
Section 21 : Appendix 6.2
Section 1 :Introduction of Vapour-Liquid equilibria
Section 2 : Single Component System Phase Equilibria
Section 3 : Derivation of the Phase Rule
Section 4 : Description of General VLE Behavior
Section 5 : Raoult�s Law for VLE
Section 6 : VLE Algorithms for Low to Moderate Pressures
Section 7 : High Pressure Vapour Liquid Equilibria
Section 8 : Henry�s Law
Section 1 : Introduction of Chemical Reaction Equilibria
Section 2 : Standard Enthalpy and Gibbs free energy of reaction
Section 3 : The Reaction Coordinate
Section 4 : Criteria for Chemical Reaction Equilibrium
Section 5 : The Equilibrium Constant of Reaction
Section 6 : Reactions involving gaseous species
Section 7 : Reaction equilibria for simultaneous reactions
Section 8 : Reactions involving Liquids and Solids
Section 1 : Liquid-liquid Equilibria (LLE)
Section 2 : Solid-Liquid Equilibria
Section 3 : Solid-Vapour Equilibrium
103101009
Chemical Engineering
Advanced Numerical Analysis
Prof. Sachin C. Patwardhan
Web
IIT Bombay
Select
Overview of the Course
Section 1 : Introductions
Section 2 : Lumped Parameter Models and Abstract Equation Formss
Section 3 : Distributed Parameter Models and Abstract Equation Formss
Section -1 : Introduction
Section 2 : VectorSpaces
Section 3 : Normed Linear Spaces and Banach Spaces
Section 4 : Inner Product Spaces and Hilbert Spaces
Section 5 : Gram-Schmidt Process and Orthogonal Polynomials
Section 6 : Induced Matrix Norms
Section 7 : Summary
Section 1 : Unified Problem Representation
Section 2 : Polynomial Approximation[3]
Section 3 : Discretization using Taylor Series Approximation
Section 4 : Discretization using Polynomial Interpolation
Section 5 : Least Square Approximations
Section 6 : Errors in Discretization and Computations[4]
Section 7 : Summary and Conclusions
Section 8 : Appendix: Necessary and Sufficient Conditions for Unconstrained Optimality
Section 1-Introduction
Section 2 : Existence of Solutions
Section 3 : Direct Solution Techniques
Section 4 : Direct Methods for Solving Sparse Linear Systems
Section 5 : Iterative Solution Techniques
Section 6 : Optimization Based Methods
Section 7 : Matrix Conditioning and Behavior of Solutions
Section 8 : Summary
Section 9 : Appendix A: Behavior of Solutions of Linear Difference Equations
Section 10 : Appendix B: Theorems on Convergence of Iterative Schemes
Section 11 : Appendix C: Steepest Descent / Gradient Search Method
Section 1: Introduction
Section 2 : Method of Successive Substitutions [4]
Section 3 : Newton�s Method
Section 4 : Solutions of Nonlinear Algebraic Equations Using Optimization
Section 5 : Condition Number of Nonlinear Set of Equations [7]
Section 6 : Existence of Solutions and Convergence of Iterative Methods [12]
Section 7 :Summary
Section 1 :Introduction
Section 2 : Existence, Uniqueness and Continuity of Solutions [1]
Section 3 : Analytical Solutions of Linear ODE-IVPs
Section 4 : Numerical Solution Schemes: Basic Concepts
Section 5 : Numerical Methods Based On Taylor Series Expansion[2]
Section 6 : Numerical Methods Based on Polynomial Interpolation [2]
Section 7 : Convergence Analysis and Selection of Integration Interval
Section 8 : Solutions of Differential Algebraic System of Equations
Section 9 :Solution of ODE-BVP using Shooting Method [3]
Section 10 : Summary
Section 11 : Exercise
Section 12: Excercise
Section 8: Excercise
Section 4 : Summary
103102022
Chemical Engineering
Petroleum Refinery Engineering
Dr. K.K. Pant ,Prof. Deepak Kunzru
Web
IIT Delhi
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General Definition
Introduction to petroleum refinery
Classification of Crude oil
Characterization of crude oil ,Composition of crude
Physical properties
Crude oil; analysis and distillation
Introduction to refinery feed stocks and refinery products
Dehydration and desalting of crude
Crude Assay, ASTM, TBP distillations, evaluation of crude oil properties
API gravity, Various average boiling points and mid percent corves
Evaluation of properties of crude oil and its fractions
Design concept of crude oil distillation column design
Furnace design-1
Furnace design-2
Coking and Thermal process, Delayed coking
Catalytic cracking, Cracking reactions, Zeolite catalysts
Cracking Feedstocks and reactors, Effect of process variables
FCC Cracking, Catalyst coking and regeneration, Design concepts, New Designs for Fluidized-Bed Catalytic Cracking Units
Objective and application of catalytic reforming process, reforming catalyst
Reformer feed, Reforming reactor design, Continuous and semi regenerative process
Objectives & Hydrocracking Reactions,Hydrocracking feedstocks,Modes of Hydrocracking,Effects of process variables
Hydro treating process and catalysts Resid hydro processing,Effects of process variables,Reactor design concepts
Isomerization process, Reactions, Effects of process variables
Alkylation process, Feedstocks, reactions, products, catalysts and effect of process variables
Polymerization: Objectives, process, Reactions,catalysts and effect of process variables
Lube oil processing:propane deasphalting Solvent extraction, dewaxing,Additives production from refinery feedstocks
Ecological consideration in petroleum refinery,Waste water treatment,control of air pollution,New trends in refinery, Alternative energy sources, Biodiesel,Hydrogen energy from biomass
103103027
Chemical Engineering
Chemical Engineering Design - II
Prof. Vaibhav V. Goud,Dr. Animes Kr. Golder
Web
IIT Guwahati
Select
Heat Exchangers Classifications
Thermal Design Considerations
Process (Thermal) Design Procedure
Design Problem
Shell and Tube Exchanger for Two Phase Heat Transfer
Condenser and Reboiler Design
Mechanical Design Standards
Design Components � I
Design Components � II
Hand on Calculations
Introduction and Evaporator Classifications
Methods of Feeding of Evaporators
Thermal Design Calculation
Solved Example
Mechanical Design I
Introduction and Types of Driers
Introduction and types of Driers (Cont.)
Design Consideration of Driers
Solved Problems
Mechanical Design II
Separation Equipments I
General Design Considerations
Exercise Problems
Centrifuges
Centrifuges(Cont.)
Separation EquipmentsII
Exercise Problems II
Introduction, Axial Stress Due to Dead Loads
Axial Stresses Due to Pressures
Longitudinal Bending Stresses Due to Dynamic Loads, Design Considerations
Solved Problem1
Solved Problem 2
Introduction
Effect Vapor Flow Conditions on Tray Design
Plate Design
Hand on Design
Provisional Plate Design1
Provisional Plate Design2
Column Construction and Internals
Stresses Developed in Column
Introduction and Process Hazards
Safety Measures
Safety measures in equipment design and Pressure Relief Devices
103103029
Chemical Engineering
Chemical Technology - II
Dr. U. Ramagopal
Web
IIT Guwahati
Select
Orientation
Orientation (cont�)
Overview
Overview of Refinery Processes
Crude distillation
Cracking
Reforming and Isomerization
Hydroprocessing
Alkylation
Visbreaking and Coking
Gas Processing and Polymerization
Refinery Supporting Processes
Petrochemicals: Overview
Formaldehyde and Chloromethanes
Hydrocarbon Steam Cracking for Petrochemicals
Vinyl Chloride from Ethylene
Ethylene oxide and Ethanolamines
Isopropanol and Acetone from Propylene
Cumene and Acrylonitrile from Propylene
Isoprene and Oxoprocessing
Butadiene and Benzene Manufacture
Phenol from Cumene and Toluene
Phenol from Benzene
Styrene and Pthalic Anhydride Production
Manufacture of Maleic Anhydride and DDT
Industries
Chemical recovery from black liquor
Manufacture of sugar from sugarcane
Manufacture of Ethanol from Molasses
Soaps and Detergents
Edible and Essential Oils
Coke production
Hydrogenation of Coal
Introduction to Food Technology
Food Processing Equipments
Definitions and Nomenclature
Classification According To Preparation Methods
Processing Technologies
Polymer Manufacturing Processes
Manufacture of Phenol Formaldehyde, Viscose Rayon and Nylon
103103031
Chemical Engineering
Heat Transfer
Prof. A.K. Ghoshal
Video
IIT Guwahati
Select
Introduction to heat transfer
General heat conduction equation
One dimensional steady state conduction in rectangular coordinate
One dimensional steady state conduction in cylindrical and spherical coordinate
Critical and optimum insulation
Extended surface heat transfer 1
Extended surface heat transfer 2
Analysis of lumped parameter model
Transient heat flow in semi infinite solid
Infinite body subjected to sudden convective
Graphical solutions of unsteady state heat conduction problem
Dimensional analysis for forced convection
Dimensional analysis for free convection
Heat transfer co-relations for laminar and internal flows
Heat transfer co-relations for turbulent and internal flows
Co-relation for turbulent and external flows
Heat transfer co-relations for flow across tube banks
Momentum and heat transfer analogies
Boundary layer heat transfer
Boundary layer equations
Approximate analysis in boundary layer
Theoretical concepts of natural / free convention heat transfer
Emperical relations for free convention heat transfer
Condensation heat transfer over vertical plate
Condensation heat transfer for various conditions & geometries
Fundamentals of boiling heat transfer
Boiling heat transfer co-relations
Classification of heat exchangers
Various types of shell and tube heat exchangers
Various types of compact heat exchangers
Effectiveness-NTU, method of heat exchanger analysis
Design of double pipe heat exchanger
Design of shell and tube heat exchanger
Introduction to evaporation and evaporators
Evaporation principles and evaporator performance
Evaporator calculations
Introduction to radiation heat transfer
Radiation intensity and radiation view factor
Radiation heat exchange
Radiation shield and gas radiation
103103032
Chemical Engineering
Heat Transfer
Dr. Anil Verma
Web
IIT Guwahati
Select
Lecture 1
Lecture 2
Lecture 3
Lecture 4
Lecture 5
Lecture 6
Lecture 7
Lecture 8
Lecture 9
Lecture 10
Lecture 11
Lecture 12
Lecture 13
Lecture 14
Lecture 15
Lecture 16
Lecture 17
Lecture 18
Lecture 19
Lecture 20
Lecture 21
Lecture 22
Lecture 23
Lecture 24
Lecture 25
Lecture 26
Lecture 27
Lecture 28
Lecture 29
Lecture 30
Lecture 31
Lecture 32
Lecture 33
Lecture 34
Lecture 35
Lecture 36
Lecture 37
Lecture 38
Lecture 39
Lecture 40
Problems: Module1
Problems: Module2
Problems: Module3
Problems: Module4
Problems: Module5
Problems: Module6
Problems: Module7
Problems: Module8
Problems: Module9
103103033
Chemical Engineering
Interfacial Engineering
Dr. Pallab Ghosh
Web
IIT Guwahati
Select
Introduction to interfacial engineering
Colloidal materials: part I
Colloidal materials: part II
Colloidal materials: part III
Colloidal materials: part IV
Colloidal materials: part V
Surface tension
Interfacial tension
Shape of the interfaces
Characterization of solid surfaces
Deposition of thin films on solid surfaces
Van der waals forces: part I
Van der waals forces (part II) & electrostatic double layer force (part I)
Electrostatic double layer force: part II
Electrostatic double layer force: part III
DLVO theory and non-DLVO forces
Adsorption at fluid�fluid interfaces: part I
Adsorption at fluid�fluid interfaces: part II
Adsorption at fluid�fluid interfaces: part III
Adsorption at fluid�solid interfaces
Rheology of fluid�fluid interfaces: part I
Rheology of fluid�fluid interfaces: part II
Motion of drop in liquid, surface diffusion & thin liquid films (part I)
Thin liquid films (part II)
Emulsions, microemulsions and foams (part I)
Emulsions, microemulsions and foams (part II)
Emulsions, microemulsions and foams (part III)
Emulsions, microemulsions and foams (part IV)
Emulsions, microemulsions and foams (part V)
Interfacial reactions (part I)
Interfacial reactions (part II)
Interfacial reactions (part III)
Micellar and phase transfer catalyses
Biointerfaces & adsorption of proteins at soild surfaces
Adsorption of proteins at fluid�fluid interfaces
Biological membranes and adhesion
Interfacial forces & biomineralization
Introduction to nanomaterials & nanotechnology
Preparation of nanomaterials
Nanotubes
Froth flotation
Microporous and mesoporous materials & lithographic techniques
103103034
Chemical Engineering
Mass Transfer Operations I
Dr. B. Mandal
Video
IIT Guwahati
Select
Introduction to Mass Transfer
Molecular Diffusion
Fick�s Law of Diffusion
Steady state molecular diffusion in fluids Part I
Steady state molecular diffusion in fluids Part II
Diffusion coefficient: Measurement and Prediction Part I
Diffusion Coefficient: Measurement and Prediction Part II
Multicomponent Diffusion and Diffusivity in Solids
Concept of Mass Transfer Coefficient
Dimensionless Groups and Co-relations for Convective
Mass Transfer co-efficient in Laminar Flow Condition
Boundary Layer Theory and Film Theory in Mass Transfer
Mass Transfer Coefficients in Terbulant Flow
Interphase Mass Transfer and Mass Transfer Theories Part I
Interphase Mass Transfer and Mass Transfer Theories Part II
Interphase Mass Transfer and Mass Transfer Theories Part 3
Agitated and Sparged Vassels
Tray Column Part I
Tray Column Part II
Packed Tower
Introduction to Absorption and Solvent selection
Packed Tower Design Part I
Packed Tower Design Part II
Packed Tower Design Part III
Mass Transfer Coefficients Correlation and HETP Concept
Tray Tower Design and Introduction to Multicomponent System
Introduction to Distillation and Phas diagrams
Azeotropes and Enthalpy Concentration Diagrams
Flash Distillation
Batch and Steam Distillation
Fractional Distillation
Fractional Distillation: McCabe Thiele Method
Fractional Distillation: Minimum Reflux and Pinch Point
Fractional Distillation: Subcooled Reflux ,Tray Efficiency and Use of Open Steam
Fractional Distillation: Multiple Feeds and Side Stream
Multistage Batch Distillation with Reflux
Fractional Distillation: Ponchan and Savarit Method
Ponchan and Savarit Method and Packed Tower Distillation
Multicomponent Distillation
103103035
Chemical Engineering
Mass Transfer Operations I
Dr. Chandan Das,Dr. S.K. Majumder
Web
IIT Guwahati
Select
Introduction to Mass transfer operation
Fick�s law of diffusion
Steady state molecular diffusion in fluids under stagnant and laminar flow conditions
Diffusion through variable cross-sectional area
Diffusion coefficient: measurement and prediction
Measurement of liquid-phase diffusion coefficient
Multicomponent diffusion
Diffusivity in solids and its applications
Introduction to mass transfer coefficient
Equimolar counter-diffusion of A and B (NA = -NB)
Correlation for convective mass transfer coefficient
Correlation of mass transfer coefficients for single cylinder
Theories of mass transfer
Penetration theory, Surface Renewal Theory, Boundary Layer Theory
Interphase mass transfer theory
Overall mass transfer coefficients
Introduction
Design of packed tower
Design of packed tower based on overall mass transfer coefficient
Counter-current multi-stage absorption (Tray absorber)
Continuous contact equipment
Absorption with chemical reaction
Absorption accompanied by irreversible reactions
Absorption resistance
Introduction to Distillation
Distillation columns and their process calculations
Continuous distillation columns
Analysis of binary distillation in trayed towers: McCabe-Thele Method
Determination of the stripping section operating line (SOL)
Analysis of binary distillation by Ponchon-Savarit Method
Stepwise procedure to determine the number of theoretical trays
Introduction to multicomponent Distillation
Basic concepts
Adiabatic saturation temperature
Humidification and dehumidification operations and design calculations
Mechanical Draft Towers: forced draft towers and induced draft towers
Design calculations of cooling tower
Key points in the design of cooling tower and Step-by-step design procedure of cooling tower
Evaporation loss of water in cooling tower
Example problems on humidification
Example problems on dehumidification
Special Module
103103036
Chemical Engineering
Molecular Simulations in Chemical Engineering
Dr. Ashok Kumar Dasmahapatra,Dr. Tamal Banerjee
Web
IIT Guwahati
Select
Shrodinger Wave Equation for one electron system
Shrodinger Wave Equation for Polyelectron system
Slater Determinant and Basis Set
Hatree Fock Theory
Semi Empirical and Density Functional Theory
Geometry Optimization
Gaussian Job and Frequencies
Benchmarking of Geometry Optimization
Basics of Statistical Mechanics-I
Basics of Statistical Mechanics-II
Ideal Monoatomic gas and Canonical Ensemble
Micro-canonical, Grand-canonical and Isobaric-Isothermal Ensemble
Basics of Molecular Dynamics
Force Field and Integrating Algorithms
Periodic Box and Minimum Image Convention
Long Range Forces
Non-Bonded Interactions
Estimation of Pure component Properties
Steps involved in NAMD
Input files in NAMD and VMD
Introduction to Monte Carlo simulation and Monte Carlo Integration
Monte Carlo Integration
Random Number Generator
Periodic Boundary Conditions (PBC)
Equilibrations
MC sampling
Markov process and its applications - 1
Markov process and its applications - 2
Metropolis sampling
Principles of detailed balance
Simulation strategy
NVT ensemble
NVE and NPT ensemble
GCMC - 1
GCMC - 2
GEMC
MC simulation of polymers: fundamental
Fundamental of polymer physics
MC moves for polymer simulations
Introduction to rare events
Weighted Histogram Analysis Method (WHAM) and Umbrella sampling
103103037
Chemical Engineering
Process Control and Instrumentation
Dr. P.K. Saha
Web
IIT Guwahati
Select
Introduction
Process Modeling
Example of Modeling of a Stirred Tank Heater
Linearization of nonlinear model
Laplace Transform
Laplace Transform of derivatives
First Order Process
Significance of First Order Process
Second Order Process
Features of the process response
Poles and Zeros
Higher Order Systems
Frequency Response Analysis
Bode Diagram
Bode Diagram of pure time delay
Nyquist Plot
Introduction to Feedback Control
Process
Transmission Lines
Closed loop response of liquid level in a storage tank: A case study
Offset in the output due to a P Controller
Stability of a closed loop process
Design of feedback controllers
Cohen-Coon technique of Controller Tuning
Stability of feedback control system
Gain Margin and Phase Margin
Problems with large dead time and/or inverse response
Processes with inverse response
Feed forward control
Cascade Control
Ratio Control
Auctioneering Control
Adaptive Control
Introduction to Multi loop multivariable control
Example of a flash drum for generating control configuration
Interaction between control loops
Decoupling of control loops
Introduction to Instrumentation
Process Flow Diagram
Actuators
Sensors
Flow Measuring Devices
Questions List
Answers List
103104043
Chemical Engineering
Fluid Mechanics
Prof. Nishith Verma
Web
IIT Kanpur
Select
Definition of a fluid and Newtons' law of viscosity
Rate of strain, Non-Newtonian fluid
Pascal's theorem, Basic equation
Basic equation: derivation, pressure variation in an incompressible fluid
Pressure variation in two immiscible fluids, manometer, barometer
Calculation of vertical component
Calculation of horizontal component, buoyancy
Examples
Lagrangian and Eulerian approaches; Euler's acceleration formula
Steady and unsteady state
Control mass, control volume, mass-, momentum-, kinetic energy balance
Conservation of mass and examples
Continuity, Momentum theorem
Momentum theorem examples
Equation of motion
Couette and Poiseuille flows
Tubular laminar flow and Hagen-Poiseuille equation
Macroscopic momentum balance for pressure-drop in a tubular flow
Mechanical energy balance
Bernoulli equation and energy applications
Minor loss, kinetic energy correction factor
Flow measuring devices
Major loss in pipe flow
Examples on Bernoulli equation
Centrifugal pump: characterisitcs, efficiency, NPSH
Creeping flow, Stokes-law and terminal velocity
Flow at high Reynolds numbers (Boundary layer theory)
Examples on drag
Drag, particles settling
Pressure-drop: Ergun's equation
Examples on pressure drop calculations
Fluidization
Minimum fluidization velocity
Examples on fixed and fluidized beds
Plate and frame press filter, Rotary filter
Principles of filtration, constant pressure and volume filtration
Example
Buckingham Pi-theorem
Geomteric and dynamic similarities, examples
Equipment, flow patterns, power requirement
Equipment, theoretical cut diameter, efficieny
103104044
Chemical Engineering
Fluid Mechanics
Dr. V. Shankar
Video
IIT Kanpur
Select
Lecture-01
Lecture-02
Lecture-03
Lecture-04
Lecture-05
Lecture-06
Lecture-07
Lecture-08
Lecture-09
Lecture-10
Lecture-11
Lecture-12
Lecture-13
Lecture-14
Lecture-15
Lecture-16
Lecture-17
Lecture-18
Lecture-19
Lecture-20
Lecture-21
Lecture-22
Lecture-23
Lecture-24
Lecture-25
Lecture-26
Lecture-27
Lecture-28
Lecture-29
Lecture-30
Lecture-31
Lecture-32
Lecture-33
Lecture-34
Lecture-35
Lecture-36
Lecture-37
Lecture-38
Lecture-39
Lecture-40
103104045
Chemical Engineering
Introduction to Colloid and Interface Science and Engineering
Prof. A. Sharma
Web
IIT Kanpur
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Lecture1
Lecture2
Lecture3
Lecture4
Lecture5
Lecture6
Lecture7
Lecture8
Lecture9
Lecture10
Lecture11
Lecture12
Lecture13
Lecture 14
Lecture15
Lecture16
Lecture17
Lecture18
Lecture19
lecture20
Lecture21
Lecture22
Lecture23
Lecture24
Lecture25
Lecture26
Lecture27
Lecture28
Lecture29
Lecture30
Lecture31
Lecture32
Lecture33
Lecture34
Lecture35
Lecture36
Lecture37
Lecture38
Lecture39
Lecture40
103104046
Chemical Engineering
Mass Transfer II
Prof. Nishith Verma
Video
IIT Kanpur
Select
Lecture-01
Lecture-02
Lecture-03
Lecture-04
Lecture-05
Lecture-06
Lecture-07
Lecture-08
Lecture-09
Lecture-10
Lecture-11
Lecture-12
Lecture-13
Lecture-14
Lecture-15
Lecture-16
Lecture-17
Lecture-18
Lecture-19
Lecture-20
Lecture-21
Lecture-22
Lecture-23
Lecture-24
Lecture-25
Lecture-26
Lecture-27
Lecture-28
Lecture-29
Lecture-30
Lecture-31
Lecture-32
Lecture-33
Lecture-34
Lecture-35
Lecture-36
Lecture-37
Lecture-38
Lecture-39
Lecture-40
103104047
Chemical Engineering
Mechanics of Soft Materials
Dr. A. Ghatak
Web
IIT Kanpur
Select
Displacement:
Stress
Work and Energy
Loading on an elastic half space
Rigid Flat Punch
Pressure Applied to a circular region:
Pressure Applied to a circular region(contd..)
Hertzian Mechanics
JKR Contact Mechanics Theory
JKR Contact Mechanics Theory(contd...)
Compression of an elastic film sandwiched between two rigid parallel plates
Bending of a rod by couples applied at its end
equations of equilibrium of rods
Bending of a rod under concentrated load
Torsion of Rods
Bending of thin plates
Longitudinal deformation of plates
Wrinkling of a thin sheet under uni-axial tensile strain
Peeling a thin flexible plate off an elastic adhesive bonded to a flexible substrate
Peeling a thin flexible plate off an elastic adhesive bonded to a flexible substrate
Elastic effect induced by surface tension of liquid.
Neo-Hookean elasticity
Homogeneous Strain
Simultaneous Stretching and torsion of a solid neo-Hookean Cylinder
Inflation of a baloon
Theory of Incremental Stresses
Theory of Incremental Stresses (contd...)
Boundary Condition
The slide modulus
Buckling of a thick slab
Stress induced surface instability of soft materials
Estimation of flexural rigidity of proteinaceous filaments like microtubules and Actin.
Estimation of flexural rigidity of proteinaceous filaments like microtubules and Actin. (continued )
The significance of the persistence length
Chain configurations and elasticity
Entropic Elasticity
Six fold Network in 2D
Network with six-fold symmetry under stress
Network with six-fold symmetry at non-zero temperature (contd...)
Three dimensional networks
103104049
Chemical Engineering
Plantwide Control of Chemical Processes
Dr. Nitin Kaistha
Web
IIT Kanpur
Select
introduction
Essential Process Control Basics
Control of Common Unit Operations
Issues in Plantwide Control System Design
Economic Plantwide Control Design Procedure and Case Studies
Comprehensive Case Study
103104050
Chemical Engineering
Plantwide Control of Chemical Processes
Dr. Nitin Kaistha
Video
IIT Kanpur
Select
Lecture-01.Introduction to the course
Lecture-02.Process Dynamics and Negative Feedback
Lecture-03.PID control
Lecture-04.Common Industrial Control Loops and advanced loops
Lecture-05.Advanced loops (contd) and multivariable systems
Lecture-06.Systematic Tuning Using Frequency Domain Analysis
Lecture-07.Frequency Domain Analysis
Lecture-08.Multivariable Systems
Lecture-09.RGA and dynamic decoupling
Lecture-10.Model based control
Lecture-11.Dynamic Matrix Control
Lecture-12.Control of Distillation Columns
Lecture-13.Temperature inferential distillation control
Lecture-14.Considerations in temperature inferential control
Lecture-15.Control of Complex Column Configurations
Lecture-16.Control of Heat Integrated Columns
Lecture-17.Homogenous extractive distillation
Lecture-18.More on complex columns and reactive distillation
Lecture-19.Control of reactors
Lecture-20.PFR controls (continued) & CSTRs
Lecture-21.CSTR heat management
Lecture-22.Heat Exchangers and Miscellaneous Systems
Lecture-23.Degrees of freedom analysis
Lecture-24.Degrees of freedom (contd)
Lecture-25.Illustration of considerations in control structure synthesis
Lecture-26.Two column recycle process
Lecture-27.Throughput manipulator selection
Lecture-28.Plantwide control structure design
Lecture-29.Systematizing plantwide control design
Lecture-30.The Luyben design procedure
Lecture-31.Role of equipment capacity constraints
Lecture-32.Recycle process case study
Lecture-33.Recycle process case study (contd)
Lecture-34.C4 isomerization process case study
Lecture-35.C4 isomerization process case study (contd)
Lecture-36.C4 isomerization process case study
Lecture-37.Systematic economic plantwide control design procedure
Lecture-38.Ethyl benzene process case study
Lecture-39.C4 isomerization process revisited
Lecture-40.Contrasting conventional and top-down approach
Lecture 41.Cumene process plantwide control
103105054
Chemical Engineering
Biochemical Engineering
Dr. Rintu Banerjee,Dr. Saikat Chakraborty
Video
IIT Kharagpur
Select
Fundamentals of Biology & Biotechnology
Glimpses of Microbial World - Bacteria
Virus and Cell Organelles
Carbohydrate
Nucleic Acid
Lipids
Proteins
Biochemistry & Thermodynamics of Enzymes
Enzyme Kinetics : Michealis-Menten Kinetics
Regulation of Enzyme Activity : Inhibition
Regulation of Enzyme Activity : Inhibition (Contd.)
Effects of Substrate and Inhibition, pH and Temperature on Enzyme Activity
Immobilized Enzymes
Immobilized Enzymes (Contd.)
Interphase Mass Transfer and Reaction in Immobilized Enzymes
Interphase Mass Transfer and Reaction in Immobilized Enzymes (Contd.)
Effectiveness Factor in Immobilized Enzymes
Bioenergetics and Glycolysis
TCA Cycle
Electron Transport Chain & Oxidative Phosphorylation
Pentose Phosphate Pathways Glycogenesis & Glycogenolysis
Urea Cycle, Gluconeogenesis and Glyoxalate Cycle
Microbial Growth : Phases and Models
Effect of Mass Transfer on Microbial & Fungal Growth
Effect of Multiple Substrates and Inhibition on Microbial Growth
Design of Bioreactors
Design of Chemostats
Stability of Bioreactors
Stability of Bioreactors (Contd.)
Introduction to Receptor - Ligand Binding
Effects of Ligand Depletion and Multiple Receptors on Binding Kinetics
Effects of Ligand Depletion and Multiple Receptors on Binding Kinetics (Contd.)
Receptors-Mediated Endocytosis
Kinetics of Receptor-Mediated Endocytosis
General Model for Receptor-Mediated Endocytosis
Multiple Interacting Microbial Population: Prey-Predator Models
Manufacture of Biochemicals
Manufacture of Biochemicals (Contd.) & Strategies for Biomolecules Separation
Strategies for Biomolecules Separation (Contd.)
Strategies for Biomolecules Separation (Contd.)
103105057
Chemical Engineering
Microscale Transport Processes
Prof. S. Dasgupta,Dr. Somnath Ganguly
Video
IIT Kharagpur
Select
Introduction
Introduction (Contd.)
Lab on Chip
Lab on Chip (Contd.)
Microscale manufacturing practices
Photolithography
Photolithography (contd.)
Deposition
Plastic microfluidic devices
Mixing
Micro Heat Pipes
Mixing (contd.)
Mixing (contd.)
Micro Heat Pipes (contd.)
Mixing (contd.)
Dispersion
Dispersion (contd.)
Dispersion (contd.)
Electrowetting
Electro osmosis
Electrowetting (contd.)
Electro osmosis (contd.)
Dielectrophoresis
Dielectrophoresis (contd.)
Dielectrophoresis (contd.)
Scaling dimension and issues
Slip flow
Microstructured reactor
Immiscible flow in microchannel
Immiscible flow in microchannel (contd.)
Immiscible flow in microchannel (contd.)
Scaling dimension and issues (contd.)
Immiscible flow in microchannel (contd.)
Plastic device making
Transport processes and their descriptions
Convective fluid dynamics in microchannels
Microfluidic networks
Electrohydrodynamic atomization
Electrohydrodynamic atomization (contd.)
Interfacial phenomena in thin liquid films
103105058
Chemical Engineering
Multiphase Flow
Prof. Gargi Das,Prof. P.K. Das
Web
IIT Kharagpur
Select
Introduction
Estimation of Flow Patterns
Estimation of Flow Patterns (Contd.)
Estimation of Flow Patterns (Contd. )
Estimation of Flow Patterns ( Contd. )
Methods of Analysis
Definitions and Common Terminologies
Definitions and Common Terminologies (Contd.)
Homogeneous Flow Model
Homogeneous Flow Model (Contd.)
Homogeneous Flow Model (Contd.)
The One Dimensional Drift Flux Model
The One Dimensional Drift Flux Model (Contd.)
The One Dimensional Drift Flux Model (Contd.)
The One Dimensional Drift Flux Model (Contd.)
The One Dimensional Drift Flux Model (Contd.)
The Separated Flow Model
The Separated Flow Model (Contd.)
The Separated Flow Model (Contd. )
The Separated Flow Model (Contd.)
The Separated Flow Model (Contd.)
The Separated Flow Model (Contd.)
The Separated Flow Model (Contd.)
The Separated Flow Model ( Contd.)
The Separated Flow Model (Contd.)
The Separated Flow Model (Contd.)
Flow Regime Based Models
Flow Regime Based Models (Contd.)
Flow Regime Based Models ( Contd.)
Flow Regime Based Models (Contd.)
Flow Regime Based Models (Contd.)
Two Phase Flow with Phase Change
Two Phase Flow with Phase Change (Contd.)
Parametric Measurement of Two Phase Flow
Parametric Measurement of Two Phase Flow (Contd.)
Parametric Measurement of Two Phase Flow (Contd.)
Parametric Measurement of Two Phase Flow (Contd.)
Parametric Measurement of Two Phase Flow (Contd.)
Parametric Measurement of Two Phase Flow (Contd.)
Parametric Measurement of Two Phase Flow (Contd.)
103105059
Chemical Engineering
Multiphase Flow
Prof. Gargi Das,Prof. P.K. Das
Video
IIT Kharagpur
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Introduction
Estimation of Flow Patterns
Estimation of Flow Patterns (Contd.)
Flow Pattern Maps Fascinating Taylor Bubbles
Definitions and Common Terminologies
Definitions and Common Terminologies (Contd.)
Simple Analytical Models
The Homogeneous Flow Theory
The Homogeneous Flow Theory (Contd.)
Compressible Flow A Recapitulation
Compressible Flow A Recapitulation (Contd.)
Choked Flow Condition for Homogeneous Flow
Drift Flux Model
Drift Flux Model (Contd.)
Drift Flux Model (Contd. )
Drift Flux Model ( Contd.)
Separated Flow Model
Separated Flow Model (Contd. )
Separated Flow Model ( Contd. )
Separated Flow Model - Condition of Choking
Separated Flow Model - Condition of Choking (Contd.)
Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction
Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Contd.)
Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Contd. )
Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction ( Contd. )
Analysis of Specific Flow Regimes
Analysis of Specific Flow Regimes (Contd.)
Analysis of Specific Flow Regimes - Slug Flow (Contd.)
Two Phase Flow with Phase Change - An Introduction to Boiling Heat Transfer
Bubble Growth
Different Types of Nucleation
Ibullition from Hot Surfaces
Cycle of Bubble Growth and Departure
Heat Transfer in Different Regimes of Boiling
Heat Transfer in Different Regimes of Boiling (Contd.)
Critical Heat Flux , Film Boiling
Measuerement Techniques for Two Phase flow Parameters
Measuerement Techniques for Two Phase flow Parameters - Void Fraction Measurement
Measuerement Techniques for Two Phase flow Parameters - Void Fraction Measurement (Contd.)
Measurement Techniques for Two - Phase Flow Parameters - Estimation of Flow Patterns
103105060
Chemical Engineering
Novel Separation Processes
Prof. S. De
Web
IIT Kharagpur
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Lecture 1 : Fundamentals of Separation Processes
Lecture 1 :Various Separation Processes and Identification of Novel Separation Processes
Lecture 1 :Membrane Based Separation Processes
Lecture 2 :Membrane Based Separation Processes ( Continued)
Lecture 3 : Membrane Based Separation Processes ( Continued)
Lecture 4 : Membrane Based Separation Processes ( Continued)
Lecture 5 : Membrane Based Separation Processes ( Continued)
Lecture 6 : Membrane Based Separation Processes ( Continued)
Lecture 7 : Membrane Based Separation Processes ( Continued)
Lecture 8 : Membrane Based Separation Processes(Continued)
Lecture 9 : Membrane Based Separation Processes(Continued)
lecture 10 : Membrane Based Separation Processes(Continued)
Lecture 12 : Membrane Based Separation Processes(Continued)
Lecture 13 : Membrane Based Separation Processes(Continued)
Lecture 14 :Membrane Based Separation Processes(Continued)
Lecture 15 :Membrane Based Separation Processes(Continued)
Lecture 16 :Membrane Based Separation Processes(Continued)
Lecture 17 :Membrane Based Separation Processes(Continued)
Lecture 18 : Membrane Based Separation Processes(Continued)
Lecture 19 : Membrane Based Separation Processes(Continued)
Lecture 20 : Membrane Based Separation Processes(Continued)
Lecture 21 : Membrane Based Separation Processes(Continued)
Lecture 1 - External Field Induced Membrane Separation Processes For Colloidal Particles
Lecture 2 - External Field Induced Membrane Separation Processes For Colloidal Particles: (Continued)
Lecture 3 - External Field Induced Membrane Separation Processes For Colloidal Particles:(Continued)
Lecture 4 - External Field Induced Membrane Separation Processes For Colloidal Particles:(Continued)
Lecture 5 - Solved Problems
Lecture 5 - Solved Problems: (Continued)
Lecture 1 : Gas Separation:
Lecture 2 : Gas Separation:(Continued)
Lecture 1 : Surfactant Based Separation Processes
Lecture 2 - Surfactant Based Separation Processes: (Continued)
Lecture 3 - Surfactant Based Separation Processes: (Continued)
Lecture 4 - Surfactant Based Separation Processes: (Continued)
Lecture 1 : Centrifugal Separation Processes
Lecture 2 - Centrifugal Separation Processes:( Continued)
Lecture 1 :Chromatographic Separation and Ion Exchange
Lecture 2 - Chromatographic Separation and Ion Exchange: (Continued)
Lecture 1 : Electrophoretic Separation Methods
Lecture 1 : Supercritical Fluid Extraction
Lecture 2 - Electrophoretic Separation Methods:(Continued)
Lecture 2 : Electrophoretic Separation Methods:(Continued)
Lecture 11 - Membrane Based Separation Processes: ( Continued)
103105061
Chemical Engineering
Novel Separation Processes
Prof. S. De
Video
IIT Kharagpur
Select
Fundamentals of Separation Processes
Identification of Novel Separation Processes
Membrane Separation Processes
Membrane Separation Processes (Contd...1)
Membrane Separation Processes (Contd...2)
Membrane Separation Processes (Contd...3)
Membrane Separation Processes (Contd...4)
Membrane Separation Processes (Contd...5)
Membrane Separation Processes (Contd...6)
Membrane Separation Processes (Contd...7)
Membrane Separation Processes (Contd...8)
Membrane Separation Processes (Contd...9)
Membrane Separation Processes (Contd...10)
Membrane Separation Processes (Contd...11)
Membrane Separation Processes (Contd...12)
Membrane Separation Processes (Contd...13)
Membrane Separation Processes (Contd...14)
Membrane Separation Processes (Contd...15)
Membrane Separation Processes (Contd...16)
Membrane Separation Processes (Contd...17)
Membrane Separation Processes (Contd...18)
External Field Induced Membrane Separation Processes
External Field Induced Membrane Separation Processes (Contd...1)
External Field Induced Membrane Separation Processes (Contd...2)
External Field Induced Membrane Separation Processes (Contd...3)
External Field Induced Membrane Separation Processes (Contd...4)
Gas Separation
Gas Separation (Contd.)
Surfactant Based Separation Processes
Surfactant Based Separation Processes (Contd.)
Micellar Enhanced Ultrafiltration
Micellar Enhanced Ultrafiltration (Contd.)
Liquid Membranes
Liquid Membranes (Contd.)
Centrifugal Separation Processes
Chromatographic Separation Processes
Chromatographic Separation Processes (Contd.)
Ion Exchange Processes
Electrophoretic Separation Methods
Electrophoretic Separation Methods (Contd.)
Supercritical Fluid Extraction
103105066
Chemical Engineering
Instability and Patterning of Thin Polymer Films
Dr. R. Mukherjee
Video
IIT Kharagpur
Select
Introduction
Introduction (Contd.)
Some Fundamental Surface Related Concepts - I
Surface Tension (in terms of molecular interactions)
Effect Surface Tension : Laplace Pressure
Young Laplace Equation
Rayleish Instability
Meso Scale Fabrication Approaches
Photo Lithography - I
Photo Lithography - II
Photo Lithography - III
Photo Lithography - IV
Photo Lithography - V
Nano Imprint Lithography
Nano Imprint Lithography (Contd.)
Soft Lithography - I
Soft Lithography - II
Soft Lithography - III
Soft Lithography - IV
Soft Lithography - V
Soft Lithography - VI
Atomic Force Microscope - I
Atomic Force Microscope - II
Atomic Force Microscope - III
Atomic Force Microscope - IV
Atomic Force Microscope - V
Intermolecular Forces between Particles and Surfaces - I
Intermolecular Forces between Particles and Surfaces - II
Intermolecular Forces between Particles and Surfaces - III
Intermolecular Forces between Particles and Surfaces - IV
Spontaneous instability and dwetting of thin polymer film - I
Spontaneous instability and dwetting of thin polymer film - II
Spontaneous instability and dwetting of thin polymer film - III
Spontaneous instability and dwetting of thin polymer film - IV
Spontaneous instability and dwetting of thin polymer film - V
Spontaneous instability and dwetting of thin polymer film - VI
Spontaneous instability and dwetting of thin polymer film - VII
Template Guided Dewetting
Elastic Contact Instability and Lithography
Gradient Surfaces
103105106
Chemical Engineering
Advanced Mathematical Techniques in Chemical Engineering
Prof. S. De
Video
IIT Kharagpur
Select
Introduction to vector space
Introduction to vector space (Contd.)
Onto, into, one to one function
Vectors
Vectors (Contd.)
Contraction Mapping
Contraction Mapping (Contd.)
Matrix, Determinant
Eigenvalue Problem in Discrete Domain
Eigenvalue Problem in Discrete Domain (Contd.)
Eigenvalue Problem in Discrete Domain (Contd.)
Eigenvalue Problem in Discrete Domain (Contd.)
Stability Analysis
Stability Analysis (Contd.)
Stability Analysis (Contd.)
More Examples
Partial Differential Equations
Partial Differential Equations(Contd.)
Eigenvalue Problem in Continuous Domain
Special ODEs
Adjoint Operator
Theorems of Eigenvalues and Eigenfunction
Solution PDE : Separation of Variables Method
Solution of Parabolic PDE : Separation of variables method
Solution of Parabolic PDE : Separation of Variables Method (Contd.)
Solution of Higher Dimensional PDEs
Solution of Higher Dimensional PDEs (Contd.)
Four Dimensional Parabolic PDE
Solution of Elliptic and Hyperbolic PDE
Solution of Elliptic and Hyperbolic PDE (Contd.)
PDE in Cylindrical and Spherical Coordinate
Solution of non-homogeneous PDE
Solution of non-homogeneous PDE (Contd.)
Solution of non-homogeneous Parabolic PDE
Solution of non-homogeneous Elliptic PDE
Solution of non-homogeneous Elliptic PDE (Contd.)
Similarity Solution
Similarity Solution (Contd.)
Integral Method
Laplace Transform
Fourier Transform
103106068
Chemical Engineering
Advanced Transport Phenomena
Dr. R. Nagarajan
Web
IIT Madras
Select
Overview & �Bulb Blackening� Example
Overview & �Hot Corrosion� Example
Transport Laws: Assumptions & Control Volumes
Conservation Principles: Mass Conservation
Conservation Principles: Momentum & Energy Conservation
Conservation Principles: Entropy Conservation
Conservation Equations: Alternative Formulations
Conservation Equations: Across Discontinuities, Turbulent Flows & Multiphase Flows
Constitutive Laws: Momentum Transfer
Constitutive Laws: Energy & Mass Transfer
Constitutive Laws: Illustrative Problems
Momentum Transport: Steady Compressible Fluid Flow
Momentum Transport: Shock Waves
Momentum Transport: Flow over a Solid Wall
Momentum Transport: Steady Laminar Flow
Momentum Transport: Flow in Porous Media & Packed Beds
Momentum Transport: Illustrative Problems
Energy Transport: Flow Past Hot Sphere
Energy Transport: Steady-State Heat Conduction
Energy Transport: Transient Heat Diffusion
Energy Transport: Convective Heat Transfer
Energy Transport: Analogy to Momentum Transfer
Energy Transport: Radiation & Illustrative Problems
Mass Transport: Ideal Reactors & Transport Mechanisms
Mass Transport: Composite Planar Slab
Mass Transport: Diffusion with Chemical Reaction
Mass Transport: Two-Phase Flow
Mass Transport: Non-Ideal Flow Reactors
Mass Transport: Illustrative Problems
Similitude Analysis: Dimensional Analysis
Similitude Analysis: Full & Partial
Similitude Analysis: Flame Flashback, Blowoff & Height
Similitude Analysis: Illustrative Problems
Problem Solving Techniques, Aids, Philosophy
Illustrative Example: Flame Propagation
Outline of Numerical Solution Methods
Illustrative Example: Protective Oxide Dissolution on GT Blades
Student Exercises: True/ False Questions
Students Exercises: Numerical Questions (Modules 1-5)
Students Exercises: Numerical Questions (Modules 6-8)
103106073
Chemical Engineering
Computational Fluid Dynamics
Prof. Sreenivas Jayanti
Video
IIT Madras
Select
Motivation for CFD and Introduction to the CFD approach
Illustration of the CFD approach through a worked out example
Eulerian approach, Conservation Equation, Derivation of Mass Conservation Equation and Statement of the momentum conservation equation
Forces acting on a control volume; Stress tensor; Derivation of the momentum conservation equation ; Closure problem; Deformation of a fluid element in fluid flow
Kinematics of deformation in fluid flow; Stress vs strain rate relation; Derivation of the Navier-Stokes equations
Equations governing flow of incompressible flow; Initial and boundary conditions; Wellposedness of a fluid flow problem
Equations for some simple cases; Generic scalar transport equation form of the governing equations; Outline of the approach to the solution of the N -S equations.
cut out the first 30s; Spatial discretization of a simple flow domain; Taylor�s series expansion and the basis of finite difference approximation of a derivative; Central and one-sided difference approximations; Order of accuracy of finite difference ap
Finite difference approximation of pth order of accuracy for qth order derivative; cross -derivatives; Examples of high order accurate formulae for several derivatives
One -sided high order accurate approximations; Explicit and implicit formulations for the time derivatives
Numerical solution of the unsteady advection equation using different finite difference approximations
Need for analysis of a discretization scheme; Concepts of consistency, stability and convergence and the equivalence theorem of Lax ; Analysis for consistency
Statement of the stability problem; von Neumann stability analysis of the first order wave equation
Consistency and stability analysis of the unsteady diffusion equation; Analysis for two- and three -dimensional cases; Stability of implicit schemes
Interpretation of the stability condition; Stability analysis of the generic scalar equation and the concept of upwinding ; Diffusive and dissipative errors in numerical solution; Introduction to the concept of TVD schemes
Template for the generic scalar transport equation and its extension to the solution of Navier-Stokes equa tions for a compressible flow.
Illustration of application of the template using the MacCormack scheme for a three-dimensional compressible flow
Stability limits of MacCormack scheme; Limitations in extending compressible flow schemes to incompre ssible flows ; Difficulty of evaluation of pressure in incompressible flows and listing of various approaches
Artificial compressibility method and the streamfunction-vorticity method for the solution of NS equations and their limitations
Pressur e equation method for the solution of NS equations
Pressure-correction approach to the solution of NS equations on a staggered grid; SIMPLE and its family of methods
Need for effici ent solution of linear algebraic equations; Classification of approaches for the solution of linear algebraic equations.
Direct methods for linear algebraic equations; Gaussian elimination method
Gauss-Jordan method; LU decomposition method; TDMA and Thomas algorithm
Basic iterative methods for linear algebraic equations: Description of point -Jacobi, Gauss-Seidel and SOR methods
Convergence analysis of basic iterative schemes; Diagonal dominance condition for convergence; Influence of source terms on the diagonal dominance condition; Rate of convergence
Application to the Laplace equation
Advanced iterative methods: Alternating Direction Implicit Method; Operator splitting
Advanced iterative methods; Strongly Implicit Proc edure; Conjugate gradient method; Multigrid method
Illustration of the Multigrid method for the Laplace equation
Overview of the approach of numerical solution of NS equations for simple domains; Introduction to complexity arising from physics and geometry
Derivation of the energy conservation equation
Derivation of the species conservation equation; dealing with chemical reactions
Turbulence; Characteri stics of turbulent flow; Dealing with fluctuations and the concept of time-averaging
Derivation of the Reynolds -averaged Navier -Stokes equations; identification of the closure problem of turbulence; Boussinesq hypothesis and eddy viscosity
Reynol ds stresses in turbulent flow; Time and length scales of turbulence; Energy cascade; Mixing length model for eddy viscosity
One-equation model for turbulent flow
Two -equation model for turbulent flow; Numerical calculation of turbulent reacting flows
Calculation of near-wall region in turbulent flow; wall function approach; near-wall turbulence models
Need for special methods for dealing with irregular fl ow geometry; Outline of the Body-fitted grid approach ; Coordinate transformation to a general, 3-D curvilinear system
Transformation of the governing equations; Illustration for the Laplace equation; Appearance and significance of cross -derivative terms; Concepts of structured and unstructured grids.
Finite vol ume method for complicated flow domain; Illustration for the case of flow through a duct of triangular cross -section.
Finite volume method for the general case
Generation of a structured grid for irregular flow domain; Algebraic methods; Elliptic grid generation method
Unstructured grid generation; Domain nodalization; Advancing front method for triangulation
Delaunay triangulation method for unstructured grid generation
Co -located grid approach for irregular geometries; Pressure correction equation for a co -located structured grid; Pressure correction equation for a co-located unstructured grid.
103106074
Chemical Engineering
Computational Techniques
Dr. Niket S.Kaisare
Video
IIT Madras
Select
Introduction
Computational and Error Analysis
Linear Equations Part 1
Linear Equations Part 2
Linear Equations Part 3
Linear Equations Part 4
Linear Equations Part 5
Linear Equations Part 6
Non Linear Algebraic Equations Part 1
Non Linear Algebraic Equations Part 2
Non Linear Algebraic Equations Part 3
Non Linear Algebraic Equations Part 4
Non Linear Algebraic Equations Part 5
Non Linear Algebraic Equations Part 6
Regression and Interpolation Part 1
Regression and Interpolation Part 2
Regression and Interpolation Part 3
Regression and Interpolation Part 4
Regression and Interpolation Part 5
Differentiation and Integration Part 1
Differentiation and Integration Part 2
Differentiation and Integration Part 3
Differentiation and Integration Part 4
Differentiation and Integration Part 5
Ordinary Differential Equations (initial value problems) Part 1
Ordinary Differential Equations (initial value problems) Part 2
Ordinary Differential Equations (initial value problems) Part 3
Ordinary Differential Equations (initial value problems) Part 4
Ordinary Differential Equations (initial value problems) Part 5
Ordinary Differential Equations (initial value problems) Part 6
Ordinary Differential Equations (initial value problems) Part 7
Ordinary Differential Equations (initial value problems) Part 8
Ordinary Differential Equations (initial value problems) Part 9
Ordinary Differential Equations (boundary value problems) Part 1
Ordinary Differential Equations (boundary value problems) Part 2
Ordinary Differential Equations (boundary value problems) Part 3
Partial Differential Equations Part 1
Partial Differential Equations Part 2
Partial Differential Equations Part 3
Partial Differential Equations Part 4
103106103
Chemical Engineering
Particle Characterization (PG)
Dr. R. Nagarajan
Video
IIT Madras
Select
Introduction: Why study particle characterization?
Introduction: Classification of particle characteristics
Morphological Characterization: Shape analysis methods
Morphological Characterization: Techniques of shape assessment
Morphological Characterization: Decision rules
Morphological Characterization: Static vs dynamic methods of size analysis
Morphological Characterization: Static methods of size analysis
Morphological Characterization: Light scattering from spherical particles
Morphological Characterization: Particle counters
Morphological Characterization: Particle size distributions
Morphological Characterization: Acoustic Attenuation Spectroscopy
Morphological Characterization: Nano-particle size analysis
Structural Characterization
Interfacial Characterization
Surface Adhesion: Forces
Surface Adhesion: Electrostatic & Surface-Tension Forces
Surface Adhesion: Adhesion Force Measurement
Particle Removal: Methods
Particle Removal: Wet Cleaning
Particle Cohesion: Forces
Particle Cohesion: Flowability Implications
Transport Properties: Diffusion & Electrostatic Field Effects
Transport Properties: Drag & Inertia
Transport Properties: Deposition Fluxes & Rates
Transport Properties: Illustrative Application
Chemical & Compositional Characterization: Reactivity
Chemical & Compositional Characterization: Analytical Methods
Chemical & Compositional Characterization: XRD & AFM
Nano-particle Characterization: Bottom-Up Synthesis Methods
Nano-particle Characterization: Top-Down Synthesis Methods
Nano-particle Characterization: Dispersion
Nano-particle Characterization: Properties & Techniques
Practical Relevance of Particle Characterization: Nano-Fluids
Practical Relevance of Particle Characterization: Filtration
Practical Relevance of Particle Characterization: Cleanrooms
Practical Relevance of Particle Characterization: High-Technology Manufacturing
Practical Relevance of Particle Characterization: Explosivity
Practical Relevance of Particle Characterization: Environment & Human Health
Practical Relevance of Particle Characterization: Other Applications
Summary
103106108
Chemical Engineering
Heavy and Fine Chemicals (Chemical Process Technology)
Dr. Nirmal K. Patel
Web
IIT Madras
Select
HEAVY AND FINE CHEMICALS
CARBON DIOXIDE
OXYGEN AND NITROGEN
HYDROGEN
HYDROGEN (Continued)
AMMONIA
ACETYLENE
SODIUM CHLORIDE
SODIUM CARBONATE
SODIUM CARBONATE (continued)
SODIUM BICARBONATE
SODIUM HYDROXIDE
SODIUM HYDROXIDE (Continued)
SODIUM HYDROXIDE (Continued.)
CHLORINE
NITRIC ACID
SULFURIC ACID
SULFURIC ACID (continued)
HYDROCHLORIC ACID
PHOSPHOROUS
PHOSPHORIC ACID
CEMENT INDUSTRIES
CEMENT CLASSIFICATION (Continued)
CEMENT MANUFACTURE
CEMENT (Continued)
CERAMIC INDUSTRIES
WHITEWARES
CLAY PRODUCTS AND REFRACTORIES
SPECIALIZED CERAMIC PRODUCTS AND VITREOUS ENAMEL
GLASS INDUSTRIES
MANUFACTURE OF GLASS
GLASS (Continued)
FERTILIZER
AMMONIUM PHOSPHATE
SUPERPHOSPHATE
TRIPLE SUPERPHOSPHATE
UREA
CALCIUM AMMONIUM NITRATE
AMMONIUM CHLORIDE
AMMONIUM SULFATE
POTASSIUM CHLORIDE
POTASSIUM SULFATE
PAINT INDUSTRIES
PAINT INDUSTRIES (continued)
PAINT INDUSTRIES (continued.)
103107082
Chemical Engineering
Chemical Technology - I
Dr. I.D.Mall
Web
IIT Roorkee
Select
Chemical Process Industries
Raw Material for Organic Chemical Industries
Basic Principles of Unit Processes & Unit Operations in Organic Chemical Industries
Coal as Chemical Feed Stock
Coal carbonization and Coke Oven Plant
Gasification of Coal, Petrocoke and Biomass
Introduction to Pulp and Paper Industry, Raw Material for Paper Industry and Technological Development
Pulping and Bleaching
Recovery of Chemicals from Kraft and Agrobased Mills
Stock Preparation and Paper Making
Introduction to Soap and Detergent, Soap Making and Recovery of Glycerine
Synthetic Detergent and Linear Alkyl Benzene
Introduction to Sugar , Fermentation Industry and Manufacture of Alcohol
Ethanol as Chemical Feedstock
Introduction : Status of Petroleum Refinery, Crude Oil and Natural Gas Origin, Occurrence, Exploration, Drilling and Processing, Fuel Norms
Evaluation of Crude Oil, Petroleum Products and Petrochemicals
Crude Oil Distillation
Thermal Cracking, Visbreaking and Delayed Coking
Catalytic Cracking, Fluid Catalytic Cracking and Hydro Cracking
Catalytic Reforming
Alkylation, Isomerisation and Polymerisation
Desulphurisation Processes and Recovery of Sulphur
Profile of Petrochemical Industry and its Structure
Naphtha and Gas Cracking for Production of Olefins
Recovery of Chemicals from FCC and Steam Cracker
Synthesis Gas and its Derivatives: Hydrogen, CO, Methanol, Formaldehyde, Metanol to Olefin Technology
Ethylene and Derivatives: Ethylene Oxide, Ethylene Glycol, Ethylene Dichloride and Vinyl Chloride, Acetaldehyde
Propylene, Propylene Oxide and Isopropanol, Acrylonitrile
Aromatic (BTX) Production
Aromatics Product Profile, Ethyl benzene &Styrene, Cumene and Phenol, Bisphenol, Aniline
Introduction to Polymer, Elastomer and Synthetic Fibre, Classification Polymerisation Reactions and Polymer
Polymer: Polyolefins: Polyethylene, Poly Propylene and Polystyrene
Polyvinyl chloride, Polycarbonate, Thermoset Resin:Phenol Formaldehyde, Urea Formaldehyde and Melamine Formaldehyde
Elastomers: Natural and Synthetic Rubber , Styrene Butadiene Rubber(SBR), Poly Butadiene, Nitrile Rubber
Cylohexane, Caprolactam, Nylon 6 Adipic Acid and Hexametrhylenediamine, Nylon66
DMT and Terephthalic Acid, Polyester, PET Resin, PBT Resin
Acrylonitrile, Acrylic Fibre, Modified Acrylic Fibre, Polyurethane
Cellulosic Fibre(Viscose Rayon and Acetate Rayon, Cuprammoium rayon)
Agrochemical Market
Dyes and Intermediate
103107084
Chemical Engineering
Environmental Engineering
Dr. V. C. Srivastava
Web
IIT Roorkee
Select
Introduction to Environmental Engineering
Environmental Acts and Rules
Standards for ambient air, noise emission and effluents
Water Quality Monitoring: Collection of water samples & estimation of physical parameters
Water Quality Monitoring: Estimation of Chemical parameters
Water Quality Monitoring: Estimation of alkalinity, BOD & COD
Water Quality Monitoring: Estimation of fecal indicator bacteria
Characterization of Air Emissions
Fugitive Emission Control and Water Use Minimization
Water Recycling and Reuse
Introduction to Air Pollution and Control
Particulate Emission Control by Mechanical Separation & Wet Gas Scrubbing
Design of cyclones
Design of fabric filter
Particulate emission control by electrostatic precipitation
Design of ESP
Gaseous emission control by absorption and adsorption-1
Introduction to Water Pollution and Control
Pre-treatment & Physical treatment: Flow equalization
Pre-treatment & Physical treatment: Aeration Part 1
Pre-treatment & Physical treatment: Aeration Part 2
Pre-treatment & Physical treatment: Coagulation and flocculation � Part 1
Pre-treatment & Physical treatment: Coagulation and flocculation � Part 2
Setting and Sedimentation: Part 1
Setting and Sedimentation: Part 2
Settling Chamber Design
Filtration
Water Pollution Control By Membrane Based Technologies
Water Pollution Control by Adsorption: Part 1
Water Pollution Control by Adsorption: Part 2
Electrochemical Treatment
Introduction to Biological Treatment
Anaerobic and Aerobic Treatment Biochemical Kinetics
Activated sludge and lagoons
Trickling filter
Sequential Batch Reactor
UASB Reactor
Municipal and Solid Waste Disposal
Plastic Waste Management: Part I
Plastic Waste Management: Part II
Solids Waste Disposal � Composting
Landfilling
Gasification and incineration
Gaseous Emission Control by Absorption-2
Sludge Separation and Drying
103107088
Chemical Engineering
Food Engineering
Dr. Shishir Sinha
Web
IIT Roorkee
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Introduction to Food Technology
World's Food Demand
Food demand scenario in India
nutrition
Food additives
Deteriorative factors and their control
preliminary food processing methods
Steam
Process controls in food processing
Heating and cooling systems for foods
Thermophysical Properties
INDIRECT CONTACT FREEZING SYSTEMS
Freezing Fruits and Vegetables
Freezing time
Refrigeration
Thermal Death time
Food preservation
frying
Food preservation by Irradiation
preservation food by concentration
Microwave heating
fermentationt Food Preservation By Pickling
electrodialysis
membrane separation
Reverssmosis
dehydration
Production of Food Products
Food Production Methods
production of alcoholic
Dairy Products
Meat
Poultry
Intro Food Processing
FOOD PROCESSING 2
FOOD PROCESSING WASTES
Food_Spoilage
packaging
canning
canning procedure
Heat Sterilization
103107094
Chemical Engineering
Process Integration
Dr. B. Mohanty
Web
IIT Roorkee
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Process Integration - the inherent concepts
process integration, methods and areas of Application
Fundamental concepts related to heat integration
Hot Composite Curves
Cold Composite Curves
Hot and Cold Composite Curves and �The Pinch
Threshold Problems
Graphical representations used in Pinch Analysis
Energy Targeting Procedure
Problem Table Algorithm-1st Part
Grand composite curve
Problem Table Algorithm �2nd Part
No of units Target
Shell Targeting-1st Part
Shell Targeting- 2nd Part
Area Targeting -1st Part
Area Targeting-2nd Part
Area Targeting-3rd Part
Cost Targeting
Supertargeting-optimization of ?Tmin
?P targeting and supertargeting
Global & Stream specific ?Tmin and its relevance
Rules for Pinch Design Method (PDM) -1st part
Rules for Pinch Design Method (PDM) -2nd part
Application of PDM for MER HEN synthesis
Design for threshold problems
Design for single pinch problems
Design for multi pinch problems
HEN optimization
Remaining Problem analysis
Driving Force Plot
Low Temperature process Design
Combined Heat and Power Design (using steam turbine)
Integration of Gas turbine with process-1st Part
Integration of Gas turbine with process-2nd Part
Placement and Integration of Distillation Column
Heat Integration of evaporators
Integration of heat pump
Data Extraction
Placement of Heat Engine, Heat pump and Reactors
Integration of Furnace
Topology Trap
Area Targeting-4th Part
103107096
Chemical Engineering
Process Modelling and Simulation
Dr. V. K. Agrawal
Web
IIT Roorkee
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Simulation & IFD
IFD to numerical form
planning and calculation
Theroritical models and parameter estimation
Parameter estimation in theoritical models
Parameter estimation in differential equation models- numerical methods
MODELS AND THEIR CLASSIFICATION
Maximum Gradient Description
Population Balance Models
Experimental Measurement of Age Distribution Function
General Population Balance
Combined Models
PROBABLISTIC MODELS
Curve Fitting
Basic Models of Flow systems
MULTIPLE GRADIENT DESCRIPTION
MACROSCOPIC DESCRIPTION
ALTERNATE CLASSIFICATION OF TRANSPORT PHENOMENA MODELS
Basic Models of Mixing Systems
Basic Models of Simultaneous Heat and Mass Transfer
MATHEMATICAL MODELLING OF EVAPORATOR
MULTIPLE EFFECT EVAPORATOR SYSTEM
ANALYSIS AND MODELING OF EVAPORATORS USING NEWTON RAPHSON�S METHOD (Without Boiling Point Rise)
MODELLING OF MULTIPLE EFFECT EVAPORATORS WITH BOILING POINT RISE
DISTILLATION
Mathematical modeling of Continuous distillation Column
Approximate Methods For Multicomponent Multistage Separations
Minimum Stages calculation for multicomponent distillation column
Separation of multicomponent mixtures by use of conventional distillation column with multiple stages
Application of the ? method of convergence, the Kb method, and the constant-composition method for multicomponent distillation column
Multicomponent Vapor - Liquid Cascades
Absorber and stripper
CALCULATION PROCEDURES FOR SOLVING FOR ABSOBER AND STRIPPING PROBLEM
PROCEDURE I: SINGLE? METHOD OF CONVERGENCE
The Sujata method
Extraction
MATHEMATICAL MODELING OF CHEMICAL REACTORS
Fixed bed reactors
Two dimensional model with void age and velocity profiles
Fluidized Bed Reactors
Trickle Bed Reactors
103108097
Chemical Engineering
Chemical Reaction Engineering
Prof. Jayant M Modak
Video
IISc Bangalore
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Introduction & Overview
Basic concepts : Representation of Chemical Reactions
Thermodynamics of Chemical Reactions: Part I
Thermodynamics of Chemical Reactions: Part II
Chemical Reaction Kinetics - Overview
Chemical Reaction Kinetics & Reactor Design
Chemical Reactor Design
Problem Solving: Thermodynamics & Kinetics
Complec Reactions - Introduction
Complec Reactions - Yield & Selectivity
Complex Reactions - Quasi Steady State and Quasi Equilibrium Approximations
Complex Reactions - Kinetics of Chain Reactions & polymerization
Catalytic reactions - Introduction
Catalytic reactions - Adsorption & Desorption
Catalytic reactions - Kinetics
Monomolecular Reaction Network & Lumping Analysis
Problem solving: Complex reactions
Gas-solid Catalytic Reactions - External diffusion
Gas-solid Catalytic Reactions - Transport in Catalyst Pellet
Gas-solid Catalytic Reactions - Diffusion & Reaction I
Gas-solid Catalytic Reactions - Diffusion & Reaction II
Gas-solid Catalytic Reactions - Diffusion & Reaction III
Gas-solid Catalytic Reactions - Nonisothermal effects
Gas-solid Noncatalytic Reactions
Gas-Liquid Reactions
Problem solving: Heterogenous reactions
Chemical Reactor Design: Mass & Energy Balances
Chemical Reactor Design: Mass & Energy Balances for Heterogenous Reactions
Nonisothermal Reactor Operation
Case Study - Ethane dehyrogenation
Case Study - Hydrogenation of Oil
Case Study - Ammonia Synthesis
Autothermal reactors
Parametric Sensitivity
CSTR - multiple steady states
Stability Analysis - Basics
Stability Analysis - Examples
Nonideal flow and reactor performance - I
Nonideal flow and reactor performance - II
Problem solving: Reactor Design
103108098
Chemical Engineering
Fundamentals of Transport Processes
Prof. V. Kumaran
Video
IISc Bangalore
Select
Introduction
Dimensional Analysis
Dimensional Analysis contd.
Dimensionless Groups
Continuum description
Mechanisms of diffusion - I
Mechanisms of diffusion - II
Unidirectional Transport Cartesian Coordinates - I
Unidirectional Transport Cartesian Coordinates - II Similarity Solutions
Unidirectional Transport Cartesian Coordinates - III Similarity Solutions
Unidirectional Transport Cartesian Coordinates - IV Seperation of Variables
Unidirectional Transport Cartesian Coordinates - V Seperation of Variables
Unidirectional Transport Cartesian Coordinates - VI Oscillatory Flows
Unidirectional Transport Cartesian Coordinates - VII Momentum Source in the Flow
Unidirectional Transport Cartesian Coordinates - VIII Heat & Mass Sources
Unidirectional Transport Cylindrical Coordinates - I Conservation Equations
Unidirectional Transport Cylindrical Coordinates - II Similarity Solutions
Unidirectional Transport Cylindrical Coordinates - III Seperation of Variables
Unidirectional Transport Cylindrical Coordinates - IV Steady flow in a pipe
Unidirectional Transport Cylindrical Coordinates - V Oscillatory flow in a pipe
Unidirectional Transport Cylindrical Coordinates - VI Oscillatory flow in a pipe Regular Perturbation Expansion
Unidirectional Transport Cylindrical Coordinates - VII Oscillatory flow in a pipe Singular Perturbation Expansion
Unidirectional Transport Spherical Coordinates - I Balance Equation
Unidirectional Transport Spherical Coordinates - II Seperation of Variables
Mass & Energy Conservation Cartesian Coordinates
Mass & Energy Conservation Cartesian Coordinates Heat Conduction in a Cube
Mass & Energy Conservation Spherical Coordinates Balance Laws
Mass & Energy Conservation Cylindrical Coordinates
Diffusion Equation Spherical Co-ordinates Seperation of Variables
Diffusion Equation Spherical Co-ordinates Seperation of Variables contd.
Diffusion Equation Spherical Co-ordinates Effective Conductivity of a Composite
Diffusion Equation Spherical Harmonics
Diffusion Equation Delta Functions
Diffusion Equation Multipole Expansions
Diffusion Equation Greens Function Formulations
High Peclet Number Transport Flow Past a Flat Plate
High Peclet Number Transport Heat Transfer from a Spherical Particle - I
High Peclet Number Transport Heat Transfer from a Spherical Particle - II
High Peclet Number Transport Heat Transfer from a Gas Bubble
Summary
103108099
Chemical Engineering
Fundamentals of Transport Processes - II
Prof. V. Kumaran
Video
IISc Bangalore
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1.Review of Fundamentals of Transport Processors I
2.Introduction
3.Vectors and Tensors
4.Vector calculus
5.Vector calculus
6.Curvilinear co-ordinates
7.Kinematics
8.Rate of deformation tensor
9.Mass conservation equation
10.Momentum conservation equation
11.Angular momentum conservation equation
12.Boundary conditions
13.Mechanical energy conservation
14.Unidirectional flow
15.Viscous flows
16.Viscous flows
17.Flow around a sphere
18.Force on moving sphere
19.Torque on rotating sphere
20.Effective viscosity of a suspension
21.Flow in a corner
22.Lubrication flow
23.Lubrication flow
24.Inertia of a low Reynolds number
25.Potential flow
26.Potential flow around a sphere
27.Two-dimensional potential flow
28.Two-dimensional potential flow
29.Flow around a cylinder
30.Conformal transforms in potential flow
31.Boundary layer theory
32.Boundary layer past a flat plate
33.Stagnation point flow
34.Falkner-Skan Boundary Layer Solutions
35.Falkner-Skan Boundary Layer Solutions
36.Vorticity Dynamics
37.Vorticity Dynamics
38.Turbulence
39.Turbulence
40.Turbulent flow in a channel
103103039
Chemical Engineering
Process Design Decisions and Project Economics
Dr. Vijay S. Moholkar
Video
IIT Guwahati
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General Introduction to the Course and Syllabus
Hierarchical Approach to Process Design – I
Hierarchical Approach to Process Design - Examples
Input Information and Design Aspects of Batch vs. Continuous Process
Input / Output Structure of Flowsheet (Part I)
Input / Output Structure of Flowsheet (Part II)
Input / Output Structure of Flowsheet (Part III) and Recycle Structure of Flowsheet (Part I)
Recycle Structure of Flowsheet (Part II)
Recycle Structure of Flowsheet (Part III)
Recycle Structure of Flowsheet (Part IV) and Tutorial (Part I)
Tutorial (Part II)
Tutorial (Part III)
Algorithm and Basic Principles of Reactor Design
Reactor Non-ideality, Residence Time Distribution (RTD) and Types of Chemical Reactions & Catalysts
Types of Reactors and Selection Criteria
Tutorial on Reactor Design and Cost Estimation
General Introduction (Types of Separation Processes and Criteria for Selection of the Processes)
Guidelines for Design of Separation Systems
Design of Distillation Columns – Part I (Sequencing of Columns, Energy Integration / Thermal Coupling of the Columns)
Design of Distillation Columns – Part II (Plate and Packed Towers, Number of Plates, Diameter and Height of the Column)
Tutorial – Part I (Design of Absorption Column)
Tutorial – Part II (Design of Distillation Column)
Concepts and Basic Principles of Energy (or Heat) Integration – Part 1 (Composite Curves and ?Tmin)
Concepts and Basic Principles of Heat Integration – Part 2 (Problem Table Algorithm and Identification of Energy Targets)
Identification of Area and Cost Targets
Pinch Technology for Heat Exchanger Network Design
Tutorial - I (Composite Curves, Problem Table Algorithm and Enthalpy Intervals)
Tutorial - II (Heat Exchanger Network Synthesis Using Pinch Technology)
Selection of Process, Design of Flowsheet and Materials Balance
Energy Balance, Process Alternatives and Design of the Absorber
Rules of Thumb & Their Limitations and Tutorial
General Concepts & Principles and Cost Allocation Procedure
Lumped Cost Diagram and Cost Allocation Diagram (Case Study of Hydro-dealkylation Process)
Assessment of Process Alternatives with Cost Allocation Diagram (Case Study of Hydrodealkylation Process)
Tutorial on Lumped Cost Diagram and Cost Allocation Diagram
Introduction to Chemical Projects and Their Economic Aspects
Selection of the Process and Project Site (Part I)
Selection of the Process and Project Site (Part II)
Project Cost Estimation (Part I)
Project Cost Estimation (Part II)
Simplified Cost Model and Depreciation
Time Value of Money
Measures of Profitability and Project Evaluation (Part I)
Measures of Profitability and Project Evaluation (Part II)
Tutorial on Project Economics (Part I)
Tutorial on Project Economics (Part II)
103105065
Chemical Engineering
Instability & Patterning of Thin Polymer Films
Dr. R. Mukherjee
Web
IIT Kharagpur
Select
Introduction to Patterned Surfaces and Their Applications
Application of Patterned Surfaces: Structural Superhydrophobicity
Application of Patterned Surfaces: Structural Color
Fundamental Concepts Related Surface and Interfacial Tension
Fundamental Concepts Related Surface and Interfacial Tension –2
Laplace Pressure and Young Laplace Equation
Some Case studies with Young Laplace Equation for an Axi-Symmetric Surface
Some Case studies with Young Laplace Equation for an Axi-Symmetric Surface (Continued)
Meso Scale Patterning Approaches
Meso Scale Patterning Approaches (Continued)
Photolithography
Photolithography – 2 (Continued)
Photolithography – 3 (Continued)
Photolithography – 4 (Continued)
Photolithography – 5 (Continued)
Nano Imprint Lithography – 1
Nano Imprint Lithography – 2
Soft Lithography – 1
Soft Lithography – 2
Soft Lithography – 3:
Thin Polymer Blends – 1
Thin Polymer Blend films – 2
Intermolecular Force between Surfaces and Particles
Spontaneous Instability and Dewetting of a Thin Polymer Film – 1
Spontaneous Instability and Dewetting of a Thin Polymer Film – 2
Spontaneous Instability and Dewetting of a Thin Polymer Film – 3
Spontaneous Instability and Dewetting of a Thin Polymer Film – 4
Spontaneous Instability and Dewetting of a Thin Polymer Film – 5
Spontaneous Instability and Dewetting of a Thin Polymer Film – 6
Pattern Directed Dewetting – 1
Pattern Directed Dewetting – 2
Dewetting of a Thin Polymer Bilayer
Elastic Contact Instability
Elastic Contact Lithography
Elastic Recovery Lithography
External Field Mediated Instability
Evaporative Pattern formation (Coffee Stain Effect)
Atomic Force Microscopy – 1
Atomic Force Microscopy – 2
Atomic Force Microscopy – 3: Additional Modes of AFM
103105110
Chemical Engineering
Fuel and Combustion Technology
Prof. Jayanta Kumar Basu, Prof. Sonali Sengupta
Web
IIT Kharagpur
Select
History of Fuels
History of liquid fuel and gaseous fuels
Production, present scenario and consumption pattern of fuels
Definitions and properties of solid fuels
Fundamental definiti ons, properties and various measurements
Fundamental definiti ons, properties and various measurements
Coal classifica tion, composition and basis
Coal Mining
Coal preparation and washing
Combustion of coal and coke making
Different types of coal combustion techniques
Combustion of coal and coke making
Coal liquefaction
Coal Li quefaction (Contd.)
Coal Gasification
Exploration of crude petroleum
Evaluation of crude
Distillation
Vacuum Distillation
Secondary Processing
Secondary Processing
Secondary Processing (Contd.)
Secondary Processing (Contd.)
Hydrotreatment, dewaxing, deasphalting
Refinery Equipments
Gaseous Fuel
Producer Gas
Water Gas
Hydrogen gas
Acetylene
Other fuel gases
Fundamentals of thermochemistry
Combustion air calculation
Calculation of calorific value of fuels
Adiabatic flam e temperature calculation
Mechanism and kinetics of combustion
Flame Properties
Combustion Burners
Combustion Furnaces
Internal Combustion Engine
103107081
Chemical Engineering
Chemical Technology - I
Dr. I.D.Mall
Video
IIT Roorkee
Select
Introduction to Chemical process Industries
Raw material for Organic Chemical Industries
Unit processes and unit operations in organic chemical Industries
Coal and coal as chemicals feed stock
Coal carbonization and Coke oven plant
Gasification of Coal,Petrocoke and Biomass
Introduction to Pulp and paper Industry, Raw material for paper industry and Technological development
Pulping and Bleaching
Recovery of Chemicals
Stock preparation and paper making
Introduction to Soap and detergent, Soap making and Recovery of Glycerine
Synthetic detergent and Linear alkyl benzene
Sugar and Fermentation industry
Ethanol as Biofuel and Chemical feed stock
Introduction : Staus of Petroleum refinery, Crude oil and Natural gas origin, occurrence, exploration, drilling and processing, Fuel norms
Evaluation of Crude oil,Petroleum Products and Apetrochemicals
Crude oil Distillation
Thermal Cracking: Visbreaking and Delayed Coking
Catalytic cracking: Fluid Catalytic cracking and Hydro cracking
Catalytic reforming
Alkylation, Isomerisation and Polymerisation
Desulphurisation Processes and Recovery of Sulphur
Profile of petrochemical Industry and its structure
Naphtha and gas cracking for production of olefins
Recovery of chemicals from FCC and steam cracking
Synthesis gas and its derivatives: Hydrogen, CO, Methanol, Formaldehyde
Ethylene derivatives: Ethylene Oxide, Ethylene glycol, Ethylene dichloride and Vinyl chloride
Propylene, Propylene oxide and Isopropanol
Aromatics Production
Aromatics product profile, Ethyl benzene &Styrene, Cumene and phenol, Bisphenol, Aniline
Introduction to polymer, Elastomer and Synthetic Fibre, Polymerisation
Polymers:Polyolefins,Polyethylene,Polypropylene Polystyrene
Polyvinylchloride,polycarbonate,thermoset resin: phenolformaldehyde,uriaformaldehyde and melamineformaldehyde
Elastomers: Styrene butadiene Rubber(SBR), Poly butadiene, Nitrile rubber
Polymides or Nylons(PA)
DMT and Terephtalic Acid,Polyester,PET resin,PTB resin
Acrylic Fibre,Modified Acrylic Fibre,Acrylonitrile,Acrolein,Propylene Finber,Polyurethane
Viscose Rayon and Acetate rayon
Pesticide
Dye and Intermediates
103108100
Chemical Engineering
Modern Instrumental Methods of Analysis
Dr. J.R. Mudakavi
Video
IISc Bangalore
Select
Introduction to the Modern Instrumental Methods of Analysis
Atomic Structure
Physical Properties of Electromagnetic Radiation
Interaction of Matter with Radiation
Ultraviolet and Visible Spectrophotometry -1 i. Theoretical Aspects
Ultraviolet and Visible Spectrophotometry -2 ii. Theoretical Aspects
Ultraviolet and Visible Spectrophotometry -3 iii. Theoretical Aspects
Ultraviolet and Visible Spectrophotometry -4 iv. Instrumentation
Ultraviolet and Visible Spectrophotometry -5 v. Instrumentation
Ultraviolet and Visible Spectrophotometry -6 vi. Applications
Fluorescence and Phosphorescence Spectrophotometry 1 i. Theoretical Aspects
Fluorescence and Phosphorescence Spectrophotometry -2 ii. Instrumentation
Fluorescence and Phosphorescence Spectrophotometry -3 iii. Application
Atomic Fluorescence i. Theoretical aspects
X- Ray Analytical Techniques -1 ii. Instrumentation
X- Ray Analytical Techniques -2 iii. Applications
Atomic Absorption Spectrometry -1 i. Theoretical Aspects
Atomic Absorption Spectrometry -2 ii.Theoretical Aspects
Atomic Absorption Spectrometry -3 iii. Instrumentation
Atomic Absorption Spectrometry -4 iv. Instrumentation
Atomic Absorption Spectrometry -5 v. Instrumentation
Atomic Absorption Spectrometry -6 vi. Signal handling
Atomic Absorption Spectrometry -7 vii. Interferences
Atomic Absorption Spectrometry -8 viii. Hydride Generation AAS
Atomic Absorption Spectrometry -9 ix.Cold Vapour Mercury AAS
Electrothermal Atomic Absorption Spectrometry -10 x. Electrothermal Aspects
Electrothermal Atomic Absorption Spectrometry -11 xi. Practical Aspects
Inductively Coupled Plasma Atomic Emission Spectrometry -1 i. Theoretical Aspects
Inductively Coupled Plasma Atomic Emission Spectrometry -2 ii. Instrumentation
Inductively Coupled Plasma Atomic Emission Spectrometry -3 iii. Comparison of ICP & AAS
Infrared Spectroscopy -1 i. Theoretical Aspects
Infrared Spectroscopy -2 ii. Practical Aspects
Infrared Spectroscopy -3 iii. Nondispensive IR, Mass spectrometer
Introduction to Mass Spectrometry
Introduction to Nuclear Magnetic Resonance Spectroscopy
Fundamentals of Electrochemical Techniques -1 i. Introduction
Fundamentals of Electrochemical Techniques -2 ii. Introduction continued
Polarography -1 i. Introduction
Polarography -2 ii. Applications
Chromatography -1 i. Introduction
Gas chromatography -1 i. Instrumentation
Gas chromatography -2 ii. Applications
Gas chromatography -3 iii. Applications