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M Tech in Chemical
Subject
Code Subject Title Max Marks Max Credits
Semester-I
CM1001 Advanced Numerical Methods 100 6
CM1002 Advanced Thermodynamics 100 6
CM1003 Advanced Reaction Engineering 100 6
CM1004 Petrochemicals Engineering 100 6
Elective-I 100 6
CMP001 Petro Products Testing Lab 100 3
Semester -II
Subject
Code Subject Title Max Marks Max Credits
CM2001 Advanced Separation Process 100 6
CM2002 Solvent Extraction 100 6
CM2003 Advanced Transport Concepts 100 6
Elective-II 100 6
Elective-III 100 6
CMP002 Instrumental Methods of
Analysis Lab 100 3
III Semester
Subject
Code Subject Title Max Marks Max Credits
CM3001 Advanced Process Control 100 6
CM3002 Process Modelling and
Simulation 100 6
CM3003 Chemical Process Design 100 6
Elective-IV 100 6
Elective-V 100 6
CMP003 Project Phase-I 100 3
IV Semester
Subject
Code Subject Title Max Marks Max Credits
CM4001 Catalyst Design and
Application 100 6
Elective-VI 100 6
CMP004 Project Phase-II 400 12
Total Marks = 2400
Total Credits = 123
List of Electives
Subject Code Subject Title
CME001 Petroleum Refinery Engineering
CME002 Environmental Engineering
CME003 Energy Management
CME004 Natural Gas Engineering
CME005 Multiphase Flow
CME006 Risk Analysis and Management
CME007 Computational Fluid Dynamics
CME008 Project Engineering and Process Plant
CME009 Fluidization Engineering
CME010 Total Quality Management
CME011 Safety and Hazard Control
CME012 Polymer Technology
SEMESTER : I
Subject Code : CM1001
Subject Title : Advanced Numerical Methods
Structure of the Course Content
BLOCK 1 Algebraic Equation Unit 1: Systems of linear equations – Jacobi, Gauss Seidel, SOR methods
Unit 2: Thomas algorithm for tridiagonal systems; Systems of nonlinear
equations
Unit 3: Successive approximation method, methods for improved convergence
Unit 4: Successive approximation method, methods for improved convergence
BLOCK 2 ordinary Differential Equations-IVPS Unit 1: Runge Kutta Methods
Unit 2: Step size control and estimates of error
Unit 3: Numerical stability, solution of stiff ODEs
Unit 4: ODE-IVPs coupled with algebraic equations
BLOCK 3 ordinary Differential Equations-BVPS Unit 1: Finite difference method
Unit 2: Orthogonal collocation method
Unit 3: Orthogonal collocation with finite element method
Unit 4: Galerkin finite element method, shooting technique
BLOCK 4 Partial Differential Equations-FDM Unit 1: Parabolic equations – Different explicit and implicit methods
Unit 2: Alternating direction explicit and implicit methods; Elliptic equations
Unit 3: Point iterative methods, line iterative methods, ADI methods
Unit 4: First order hyperbolic equations – method of characteristics
BLOCK 5 Partial Differential Equations-FEM Unit 1: Partial differential equations
Unit 2: Finite element method
Unit 3: Orthogonal collocation method
Unit 4: Orthogonal collocation with finite element method
Books: 1.Jain, M. K., S. R. Iyengar, M. B. Kanchi, R. K. Jain, Computational Methods
for Partial Differential Equations, New Age Publishers
2. Gupta, S.K., Numerical Methods for Engineers, New Age Publishers
SEMESTER : I
Subject Code : CM1002
Subject Title : Advanced Thermodynamics
Structure of the Course Content
BLOCK 1 Basic Concept Unit 1: Energy and first Law
Unit 2: Reversibility and second Law
Unit 3: Review of Basic Postulates, equilibrium criteria
Unit 4: Legendre Transformation and Maxwell’s relations
BLOCK 2 Stability and Phase Transition Unit 1: Stability of thermodynamic systems
Unit 2: First order phase transitions and critical phenomenon
Unit 3: Phase rule, single component phase diagrams
Unit 4: Thermodynamic properties from volumetric and thermal data
BLOCK 3 Multicomponent Mixtures Unit 1: Partial molar properties, fugacities in gas and liquid mixtures
Unit 2: Activity coefficients, Ideal and Non-ideal solutions
Unit 3: Gibbs-Duhem equation, Wilson, NRTL
Unit 4: UNIQUAC equations, UNIFAC method
BLOCK 4 Phase Equilibrium Unit 1: VLE - Equations of state, corresponding states
Unit 2: Henry’s Law, lattice theory
Unit 3: Criticality, high pressure VLE
Unit 4: Other phase equilibriums- SLE/LLE/VLLE
BLOCK 5 Chemical Equilibrium Unit 1: Introduction to Chemical Equilibrium
Unit 2: Homogeneous gas and liquid phase reactions
Unit 3: Heterogeneous reactions
Unit 4: Phase and chemical equilibrium
Books: 1.Tester, J. W. and M. Model, Thermodynamics and Its Applications. 3rd Edn.
Prentice Hall, New Jersey
2. Rao., Y.V.C., Chemical Engineering Thermodynamics, University Press,
Hyderabad
3.Prausnitz, J.M., Lichtenthaler R.M. and Azevedo, E.G., Molecular
thermodynamics of fluid-phase Equilibria, 3rd Edn, Prentice Hall Inc., New
Jersey
SEMESTER : I
Subject Code : CM1003
Subject Title : Advanced Reaction Engineering
Structure of the Course Content
BLOCK 1 Kinetics of Heterogeneous Reactions Unit 1: Catalytic reactions, rate controlling steps
Unit 2: Langmuir-Hinshelwood model, Rideal-Eiley mechanism
Unit 3: Steady state approximation, noncatalytic fluid-solid reactions
Unit 4: Shrinking and unreacted core model
BLOCK 2 External Diffusion Effects in Heterogeneous Reactions Unit 1: Introduction to heterogeneous
Unit 2: Mass and heat transfer coefficients in packed beds
Unit 3: Quantitative treatment of external transport effects
Unit 4: Modelling diffusion with and without reaction
BLOCK 3 Internal Transport Process in Porous Catalysts Unit 1: Interpellet mass
Unit 2: Heat transfer
Unit 3: Evaluation of effectiveness factor
Unit 4: Mass and heat transfer with reaction.
BLOCK 4 Analysis and Design of Heterogeneous Reactors Unit 1: Introduction to Reactors
Unit 2: Isothermal and adiabatic fixed bed reactors
Unit 3: Non-isothermal and non-adiabatic fixed bed reactors
Unit 4: Determination, evaluation of reaction kinetics for heterogeneous
systems
BLOCK 5 Reactor Models Unit 1: Two-phase fluidized bed model
Unit 2: Slurry reactor model
Unit 3: Trickle bed reactor model
Unit 4: Case studies
Books: 1. Carberry, J. J., “Chemical and Catalytic Reaction Engineering”, Dover
Publications
2.Froment, G. F. and Bischoff, K. B., “Chemical Reactor Design and Analysis”,
2nd Edition, John Wiley & Sons, New York
SEMESTER : I
Subject Code : CM1004
Subject Title : Petrochemicals Engineering
Structure of the Course Content
BLOCK 1 Introduction to Petrochemicals Unit 1: Overview of petrochemical
Unit 2: Overview of petrochemical industrial Growth in India
Unit 3: Economics in Petrochemicals
Unit 4: Feedstock Selection for Petrochemicals
BLOCK 2 Accessories in Petrochemicals-I Unit 1: Steam reforming, Hydrogen
Unit 2: Synthesis gas, cracking of gaseous and liquid for stocks
Unit 3: Olefins, Diolifins
Unit 4: Acetylene and Aromatics and their separation
BLOCK 3 Accessories in Petrochemicals-II Unit 1: Alkylation, Oxidation
Unit 2: Dehydrogenation, Nitration
Unit 3: Chlorination
Unit 4: Sulphonation and Isomerization
BLOCK 4 Chemicals Unit 1: Chemicals from synthesis gas
Unit 2: Olefins
Unit 3: Diolefins
Unit 4: Acetylene and Aromatics
BLOCK 5 Production Techniques Unit 1: Modes and techniques
Unit 2: Production of Polyethylene, PVC
Unit 3: Polypropylene, SAN, ABS, SBR, Polyacrylonitrile
Unit 4: Polycarbonates, Polyurethane, Nylon, PET
Books: 1.Sitting M., Aromatics Hydrocarbons, Manufacture and Technology, Noyes
Data Corporation
2. Brownstein A.M. Trends in PetroChemical , Petroleum Publishing Company
3. Stevens P.M. Polymer Chemistry, Addison Wesley Publishing Company
SEMESTER : I
Subject Code : CMP001
Subject Title : Petro Products Testing Lab
Structure of the Course Content
List of Experiments
1. Determination of flash point
2. Viscosity Determination
3. Aniline point determination
4. API gravity determination
5. Determination of aromatic content
6. Hydrogen sulphide content determination
7. Sulphur content determination
8. Determination of calorific value
9. Bitumen testing
10. Carbon residue determination (Conradson apparatus)
11. Cloud point and pour point estimation
12. Cgealing point of wax
13. Foaming characteristics of lube oil
14. Smoke point estimation
15. Corrosion testing of petroleum oil
16. API distillation apparatus
17. Moisture determination other than Karl-Fischer method
SEMESTER : II
Subject Code : CM2001
Subject Title : Advanced Separation Process
Structure of the Course Content
BLOCK 1 General Concept in Separation Process Unit 1: Recent advances in separation techniques based on size
Unit 2: Surface properties, ionic properties and characteristics of substances
Unit 3: Process concept, theory and equipment used in cross flow filtration
Unit 4: Cross flow electrofiltration, dual functional filter
BLOCK 2 Membrane Separations Unit 1: Types and choice of membranes, plate and frame, tubular
Unit 2: Spiral wound and hollow fibre membrane reactors and their relative
merits
Unit 3: Pilot plant and laboratory membrane pemeators involving dialysis
Unit 4: Microfiltration and Donnan dialysis, economics of membrane
operations
BLOCK 3 Separations by Adsorption Techniques Unit 1: Mechanism, types and choice of adsorbents
Unit 2: Normal adsorption techniques, affinity chromatography
Unit 3: Types of equipment and commercial processes
Unit 4: Recent advances and process economics
BLOCK 4 Ionic Separations Unit 1: Controlling factors, Applications
Unit 2: Types of equipment employed for electrophoresis
Unit 3: Dielectrophoresis, Ion Exchange chromatography and electrodialysis
Unit 4: Commercial processes
BLOCK 5 Special Techniques Unit 1: Separations involving lyophilization, pervaporation techniques for
solids
Unit 2: Liquids and gases, industrial viability and examples
Unit 3: Zone melting, addiuctive crystallization, other separation processes
Unit 4: Industrial effluent treatment by modern techniques
Books: 1.Nakagawal, O. V., “Membrane Science and Technology”, Marcel Dekker
2.Rousseau, R. W., “Handbook of Separation Process Technology”, John
Wiley, New York
3.King, C. J., “Separation Processes”, Tata McGraw Hill Co., Ltd
SEMESTER : II
Subject Code : CM2002
Subject Title : Solvent Extraction
Structure of the Course Content
BLOCK 1 Equilibrium in Liquid-Liquid System Unit 1: Binary and ternary liquid equilibria, Tie-lines, Critical solution
temperature
Unit 2: Tie line correlations, Contour/prism diagrams
Unit 3: Binary / Ternary prediction methods of activity coefficient
Unit 4: Theory and Prediction of diffusivity in liquids
BLOCK 2 Differential/Stage-Wise Equilibrium Contact Operations Unit 1: Equilibrium stage-wise contact, Single and multiple contacts
Unit 2: Calculation methods, Fractional extraction with reflux of raffinate
Unit 3: Contact, HETS, NETS, HTU, NTU concepts
Unit 4: Mass transfer efficiency, Axial mixing
BLOCK 3 Dispersion and Coalescence in Extractors Unit 1: Characteristics of dispersion in single and multiple nozzle distributors
Unit 2: Drop size and formation and coalescence
Unit 3: Effect of drop oscillation, wobbling and Internal circulation
Unit 4: Prediction of drop size and characteristics velocity in spray
BLOCK 4 Design of Liquid Extraction Columns-I Unit 1: Design of extractor height and diameter
Unit 2: Prediction of flow capacities in terms of flooding rates,
Unit 3: Regime of operating envelops
Unit 4: Hydrodynamic design variables such as hold up
BLOCK 5 Design of Liquid Extraction Columns-II Unit 1: Characteristic velocities, pressure drop
Unit 2: Correction of mass transfer data
Unit 3: Axial mixing correction for column height
Unit 4: Interfacial area estimations
Books: 1.Hanson, C., Baird, M. H. I. and Lo, T. C., “Hand Book of Solvent
Extraction”, Wiley – International, New York
2. Laddha, G. S. and Degaleesan, T. E., ”Transport Phenomena in Liquid
Extraction”, Tata McGraw Hill, New Delhi
3. Hanson, C., “Recent Advances in Liquid Extraction”, Pergamon Press,
London
SEMESTER : II
Subject Code : CM2003
Subject Title : Advanced Transport Concepts
Structure of the Course Content
BLOCK 1 Basic Concept of Transport Properties Unit 1: Phenomenological Equations and Transport properties
Unit 2: Rheological behaviour of fluids
Unit 3: Balance Equations
Unit 4: Differential and Integral equations
BLOCK 2 Applications of Differential Equations of Change Unit 1: Applications in laminar transport in compressible fluids
Unit 2: Applications in Turbulent transport in compressible fluids
Unit 3: Applications in laminar and turbulent transport in incompressible fluids
Unit 4: Boundary layer theory
BLOCK 3 Applications of Integral Equations of Change Unit 1: Macroscopic balance for isothemal and nonisothermal systems
Unit 2: Macroscopic balance for isothemal systems and their applications
Unit 3: Macroscopic balance for nonisothemal systems and their applications
Unit 4: Heat and Mass transport problems
BLOCK 4 Interphase and Multiphase momentum Transfer Unit 1: Friction factor, Fluid –Fluid systems
Unit 2: Flow patterns in vertical and horizontal pipes
Unit 3: Formulation of bubbles and drops and their size distribution
Unit 4: Solid – fluid systems, Forces acting on stagnant and moving solids,
BLOCK 5 Interphase Transport in Non-isothermal Unit 1: Heat Transfer coefficient, Forced convection in tubes
Unit 2: Around submerged objects, Heat Transfer by free convection
Unit 3: Film type and dropwise condensation and equations for heat transfer
Unit 4: Heat transfer in boiling liquids
Books: 1. Brodkey, R. S. and Hershey, H. C., “Transport Phenomena – A Unified
Approach”, Brodkey Publishing
2.Welty, J.R., Wicks, C. E. and Wilson, R. E., “Fundamentals of Momentum,
Heat Mass Transfer”, 5th Edn., John Wiley and Sons
3.Bird R.B., Stewart, W. E. and Lightfoot, E. N., “Transport Phenomena”, 2nd
Edn., John Wiley and Sons
SEMESTER : II
Subject Code : CMP002
Subject Title : Instrumental Methods of Analysis Lab
Structure of the Course Content
List of Experiments
1. UV-Visible spectrophotometer
2. Infrared spectrophotometer
3. Gas chromatograph.
4. High performance liquid chromatograph
5. Atomic absorption spectrophotometer.
6. Flame photometer
7. Thermo gravimetric analyzer
8. Differential scanning calorimeter
9. Differential thermal analyzer
SEMESTER : III
Subject Code : CM3001
Subject Title : Advanced Process Control
Structure of the Course Content
BLOCK 1 Advanced Control Strategies Unit 1: Feed forward, cascade
Unit 2: Dead time compensation
Unit 3: Split range, selective and override control
Unit 4: Automatic tuning and gain scheduling
BLOCK 2 Internal Model Control Unit 1: Model based control
Unit 2: IMC structure
Unit 3: Development and design
Unit 4: IMC based PID control
BLOCK 3 Multivariable Controls Unit 1: Control loop interaction – general pairing problem
Unit 2: Relative gain array and application
Unit 3: Sensitivity. Multivariable control – zeros and performance limitations
Unit 4: Directional sensitivity and operability, decoupling
BLOCK 4 Discrete Systems Unit 1: Z – Transform and inverse Z
Unit 2: Transform properties, Discrete – Time Response of dynamic system
Unit 3: Pulse Transfer Function
Unit 4: Closed Loop System Stability
BLOCK 5 Digital Feedback Controllers Unit 1: Design of digital feedback controllers
Unit 2: Digital approximation of classical
Unit 3: Effect of sampling, Dahlin’s algorithms, Dead – beat algorithm
Unit 4: Ringing, IMC algorithm, simplified model predictive algorithm
Books: 1.Stephanopolous, G., “Chemical Process Control”, Prentice Hall of India, New
Delhi
2.Bequette, B. W., Process Control: Modelling, Design, and Simulation,
Prentice Hall
SEMESTER : III
Subject Code : CM3002
Subject Title : Process Modelling and Simulation
Structure of the Course Content
BLOCK 1 Introduction to Modelling and Simulation Unit 1: Introduction to Modelling and Simulation
Unit 2: Classification of mathematical models
Unit 3: Conservation equations and auxiliary relations
Unit 4: Population balance and stochastic modelling
BLOCK 2 Steady State Lumped Systems Unit 1: Degree of freedom analysis, single and network of process units
Unit 2: Systems yielding linear and non-linear algebraic equations,
flowsheeting
Unit 3: Sequential modular and equation oriented approach
Unit 4: Solution of linear and non-linear algebraic equations
BLOCK 3 Unsteady State Lumped Systems Unit 1: Analysis of liquid level tank, gravity flow tank
Unit 2: Jacketed stirred tank heater, reactors, flash and distillation column
Unit 3: Solution of ODE initial value problems
Unit 4: Matrix differential equations, simulation of closed loop systems
BLOCK 4 Steady State Distributed Systems Unit 1: Analysis of compressible flow, heat exchanger
Unit 2: Packed columns
Unit 3: Plug flow reactor
Unit 4: Solution of ODE boundary value problems
BLOCK 5 Unsteady State Distributed Systems Unit 1: Analysis laminar flow in pipe, sedimentation, boundary layer flow
Unit 2: Conduction, heat exchanger, heat transfer in packed bed, diffusion
Unit 3: Packed bed adsorption, plug flow reactor, hierarchy in model
development
Unit 4: Classification and solution of partial differential equations
Books: 1.Luyben, W.L., "Process Modelling Simulation and Control", McGraw-Hill
Book Co
2..Ramirez, W., "Computational Methods in Process Simulation", 2nd Edn.,
Butterworths, New York
3.Franks, R. G. E., “Mathematical Modelling in Chemical Engineering“, John
Wiley
SEMESTER : III
Subject Code : CM3003
Subject Title : Chemical Process Design
Structure of the Course Content
BLOCK 1 Introduction to Chemical Process Design Unit 1: Introduction to Chemical Process Design
Unit 2: The Hierarchy of Chemical process Design
Unit 3: Overall process Design
Unit 4: Approaches to design
BLOCK 2 Choices of Reactors and Separator Unit 1: Reaction path, reactor performance
Unit 2: Practical reactors
Unit 3: Separation of Heterogeneous mixtures
Unit 4: Homogeneous fluid mixtures
BLOCK 3 Synthesis of Reaction-Separation Systems Unit 1: Introduction to Synthesis of Reaction
Unit 2: Process recycles
Unit 3: Batch processes
Unit 4: Process yield
BLOCK 4 Distillation Sequencing Unit 1: Introduction to Distillation Sequencing
Unit 2: Using simple columns
Unit 3: Using columns with more than two products
Unit 4: Distillation Sequencing Using thermal coupling
BLOCK 5 Heat Exchanger Network &Utilities Unit 1: Heat recovery pinch
Unit 2: The Problem table Algorithm
Unit 3: Utilities Selection
Unit 4: Energy targets capital & total Cost targets
Books: 1.Douglas, J.M., “Conceptual Design of Chemical Process”, McGraw Hill,
New York
2. Smith, R., “Chemical Process Design”, McGraw Hill, New York
SEMESTER : III
Subject Code : CMP003
Subject Title : Project Phase-I
Structure of the Course Content
SEMESTER : IV
Subject Code : CM4001
Subject Title : Catalyst Design and Application
Structure of the Course Content
BLOCK 1 Catalysis and Catalytic Kinetics Unit 1: General definition of catalysts, illustration of a catalytic a process
Unit 2: Design for catalysts – Primary constituents, secondary constituents
Unit 3: Catalyst supports-choice of support material
Unit 4: Chemical interaction, Deactivation steps involved in global catalytic
rate
BLOCK 2 Adsorption- Diffusion and Heterogeneous Catalysis Unit 1: Adsorption and Heterogeneous Catalysis
Unit 2: Electron structure of catalysts; Chemical properties of surfaces
Unit 3: Theories and Adsorption; Semi conduction and catalysts
Unit 4: Defect structure in crystal lattices, Thermodynamics basics of catalysis
BLOCK 3 Productions of Some Catalysts Unit 1: Precipitation method – Alumino silicate catalyst
Unit 2: Production of tabletted chromium catalysts for the conversion of CO
Unit 3: Platinum network catalysts of Ammonia oxidation
Unit 4: Catalysts of natural clays, zeolites and ion exchange resins
BLOCK 4 Methods of Studying Catalysts Unit 1: Methods of determining catalysts – static methods, dynamic method
Unit 2: Adsorption for determining catalyst surface and pore radii
Unit 3: Determination of true and apparent densities of catalysts
Unit 4: Structural study of electron microscopy
BLOCK 5 Analysis and Design of Heterogeneous Catalytic Reactors Unit 1: Fixed bed reaction, continuity equations, reactor parameters
Unit 2: Reaction significance of dimensionless parameters
Unit 3: Physical dimensionless parameters
Unit 4: Selectivity in slurry reactors; catalytic – gaue reactor, trickle bed
reactors
Books: 1. Trimm D.L., Design of Industrial catalsysts, Elsevier Scientific Publishing
Company, Amsterdam – Oxford – New York
2.Muchlyonor I, Dobkina E.,.Deryozhkina V,.and Sorco V., Catalyst
Technology – Catalyst Technology MIR Publication, Moscow
3. Carbery – J.J. Chemical and Catalytic, Reaction Engineering, McGraw – Hill
Book Co
SEMESTER : IV
Subject Code : CMP004
Subject Title : Project Phase-II
Structure of the Course Content
ELECTIVE
Subject Code : CME001
Subject Title : Petroleum Refinery Engineering
Structure of the Course Content
BLOCK 1 Introduction to Petroleum Unit 1: Origin, Exploration and production of petroleum
Unit 2: Types of crudes, Composition, characteristics
Unit 3: Products pattern and characteristics, indigenous and imported crudes
Unit 4: Availability Vs Demands, Future outlook
BLOCK 2 Refining Unit 1: Engineering aspects of refining, Reaction stoichiometry
Unit 2: Chemical kinetics; Thermo chemistry and chemical equilibrium
Unit 3: Mixuing in flow systems; Reactor design. Crude heating,
Unit 4: Energy input and recovery, Vacuum distillation, Types of trays
BLOCK 3 Solvent Extractions Unit 1: Lube oil and wax processing, Solvent extraction, Dewaxing, Deciling,
Unit 2: Clay contacting, principles, technologies, operating parameters
Unit 3: Product qualities, Air blowing technology
Unit 4: Storage and handling of crude products
BLOCK 4 Catalysts Unit 1: Fluid catalytic cracking, principles, recent developments
Unit 2: Feedstocks and product yields and qualities,
Unit 3: Catalysts and operating parameters
Unit 4: Hydrocracking, principles, process requirements
BLOCK 5 Catalytic Reforming Unit 1: Catalytic reforming and Isomerisation, Reforming, Principles
Unit 2: Developments in technology, Catalyst types and their performance
Unit 3: Effects of operating parameters, Feed quality, Product improvement
Unit 4: Sulphur removal, Aromatics removal, Hydrofinishing
Books: 1. Nelson, W.L “Petroleum Refinery Engineering” McGraw Hill Publishing
Company Limited
2. Smalheer, C.V and R.Kennedy Smith Lubricant Additives. The Lezius – Hill
Company, Cleveland, Ohio. USA
3. Hobson, G.D. – Modern petroleum Refining Technology, 4th Edition,
Institute of Petroleum U.K
ELECTIVE
Subject Code : CME002
Subject Title : Environmental Engineering
Structure of the Course Content
BLOCK 1 Environmental Awareness Unit 1: Environment
Unit 2: Friendly chemical Process
Unit 3: Hazard and risk analysis
Unit 4: Environmental Audit
BLOCK 2 Chemical Engineering Process Unit 1: Unit Operations
Unit 2: Application of - Abatement of water pollution
Unit 3: Current strategies to control air pollution
Unit 4: Disposal of solid wastes
BLOCK 3 Recycling Methodologies Unit 1: Introduction to Recycling Techniques
Unit 2: Economic recovery and recycling of waste
Unit 3: Transport fuel
Unit 4: Bio-diesel for a cleaner environment
BLOCK 4 Clean Technologies Unit 1: Towards Eco- friendly products of chemical industry
Unit 2: Pesticides –Their transfer and Transformation in the environment
Unit 3: Biological technology for effluent treatments
Unit 4: ElectroChemical for effluent treatments
BLOCK 5 Pollution Prevention Unit 1: Mass exchange network synthesis for pollution control and
minimization
Unit 2: Policies for regulation of environmental impacts
Unit 3: Concept of common effluent treatment
Unit 4: Environmental legislations, Role of Government and Industries
Books: 1. Rao M.N and H.V.N. Rao. “Air pollution” ,Tata McGraw Hill Publishing
Co. Ltd
2.Peavy H.S. Rowe D.R., and George Technologious, Environmental
Engineering, Mc Graw Hill Book Company, Ny
3.Rao, C.S Environmental Pollution control Engineering, Wiley- Eastern Ltd
ELECTIVE
Subject Code : CME003
Subject Title : Energy Management
Structure of the Course Content
BLOCK 1 Introduction to Energy Resources Unit 1: Energy Resources
Unit 2: Conventional – Non conventional
Unit 3: Energy Reserves and Depletion
Unit 4: Non renewable energy sources
BLOCK 2 Power Generation Process Unit 1: Power generation by steam, Hydroelectric, Diesel oil
Unit 2: Nuclear fission and Natural gas, Co-generation of power
Unit 3: Selection of power generation process
Unit 4: Economical and technical efficiency of power generation,
BLOCK 3 Renewable Energy Unit 1: Renewable sources of energy
Unit 2: Thermal and power generation using water
Unit 3: Wind, seawave, Solar energy
Unit 4: Geothermal and biomass utilization
BLOCK 4 Energy Consumption Unit 1: Energy consumption, Demand pattern
Unit 2: Energy planning – Short term and long term, Energy conservation
Unit 3: Need for Energy recovery
Unit 4: Various types of Energy audit – advantages
BLOCK 5 Recovering Energy Techniques Unit 1: Recovery of waste heat
Unit 2: Optimum shell and tube heat exchanger
Unit 3: Heat exchanger network, evaporator systems
Unit 4: Boiler, turbo generator system
Books: 1. Loftiness, R.L. – Energy Hand Book, Van Nostrand Reinhold Company,
New York
2. Francis, W. and M.C. Peter – Fuels and fuel technology, Pergamon Press
3. Nagpal, G.R – Power Plant Engineering, Khanna Publishers
ELECTIVE
Subject Code : CME004
Subject Title : Natural Gas Engineering
Structure of the Course Content
BLOCK 1 Introduction to Natural Gas Unit 1: Availability of natural gas
Unit 2: Properties and composition
Unit 3: Exploration and control of gas
Unit 4: Estimation of availability quantity
BLOCK 2 Applications of Natural Gas Unit 1: Natural gas application in Chemical Process
Unit 2: Natural gas application in transportation industry LNG technology,
Unit 3: Natural gas storage and transport
Unit 4: Economics of natural gas utilization
BLOCK 3 Flows of Fluids Unit 1: General Hydrodynamic equations for flow of fluids through porous
media
Unit 2: Two dimensional flow problems and potential theory methods
Unit 3: Gravity flow systems, systems of non uniform permeability
Unit 4: Multiple well systems using computerized streamline tracking methods
BLOCK 4 Design of gas System Unit 1: Use of multiphase flow correlations to determine flow ratio
Unit 2: Pressure traverse in flowing oil wells, gas condensate wells
Unit 3: Gathering systems and pipe lines
Unit 4: Application of correlations to the design of gas system
BLOCK 5 Reservoir Properties Unit 1: Reservoir fluid properties
Unit 2: PVT properties for oil gas systems
Unit 3: Phase Behavior of complex hydrocarbon mixtures at high temperature
Unit 4: Thermodynamic property evaluation, packages used in petroleum
industry
Books: 1.Donald L.Katz and Robert L.Lee, Natural Gas Engineering, Mc Graw – Hill
Publishing Company, NY
2.Speight, J.G Fuel Science and Technology Handbook, Marcel Decker Inc
3.Guide to Natural Gas Utilization Technologies, Fairmount Press Inc
ELECTIVE
Subject Code : CME005
Subject Title : Multiphase Flow
Structure of the Course Content
BLOCK 1 Characteristics of Multiphase Flow Unit 1: Significance of multiphase flows, important non-dimensional numbers
Unit 2: Parameters of characterization, calculation of particle size
Unit 3: Size distributions and moments
Unit 4: Size distribution models
BLOCK 2 Particle Fluid Interactions Unit 1: Equation of motion for a single particle, calculation of drag
Unit 2: Motion of a particle in two-dimensions,
Unit 3: Effects of acceleration, effects of coupling; Interaction between
particles
Unit 4: Sphere model, soft sphere model, discrete element modeling
BLOCK 3 Modelling of Multiphase Flows Unit 1: Flow patterns - identification and classification
Unit 2: Flow pattern maps and transition - momentum and energy balance
Unit 3: Homogeneous and separated flow models
Unit 4: Correlations for use with homogeneous and separated flow models
BLOCK 4 Conservation Techniques Unit 1: Averaging procedures - time, volume
Unit 2: Ensemble averaging, quasi-one-dimensional flow
Unit 3: Two-fluid volume-averaged equations of motion
Unit 4: Turbulence and two-way coupling
BLOCK 5 Multiphase Systems Unit 1: Flow regime and hydrodynamic characteristics of packed bed
Unit 2: Fluidized bed, pneumatic conveying, bubble column, trickle beds
Unit 3: Conventional and novel measurement techniques for multiphase
systems
Unit 4: Laser Doppler anemometry, Particle Image Velocimetry
Books: 1. Crowe, C. T., Sommerfeld, M. and Tsuji, Y., Multiphase Flows with Droplets
and Particles, CRC Press
2.Clift, R., Weber, M.E. and Grace, J.R., Bubbles, Drops, and Particles,
Academic Press, New York
3.Fan, L. S. and Zhu, C., Principles of Gas-solid Flows, Cambridge University
Press
ELECTIVE
Subject Code : CME006
Subject Title : Risk Analysis and Management
Structure of the Course Content
BLOCK 1 Introduction to Risk Analysis Unit 1: General: Risk types, Completion
Unit 2: Permitting, Resource, Operating
Unit 3: Environmental, Manageable, and Insurable
Unit 4: Risk Causes, Risk Analysis types and causes
BLOCK 2 Risk Analysis Methods Unit 1: Risk adjusted discounted rate method
Unit 2: Certainty Equivalent Coefficient method, Quantitative Sensitivity
analysis
Unit 3: Probability distribution, Coefficient of variation method,
Unit 4: Crude Procedures, Payback period, expected monetary value method
BLOCK 3 Risk Management Unit 1: Emergency relief Systems, Diers program, Bench scale experiments
Unit 2: Design of emergency relief systems, Internal emergency planning
Unit 3: Risk management plan, mandatory technology option analysis
Unit 4: Risk management alternatives, risk management tools
BLOCK 4 Risk Assurances and Assessment Unit 1: Property Insurance, Transport insurance
Unit 2: Liability insurance, Pecunious insurance, Risk Assessment
Unit 3: Scope Canvey study, Rijimond pilot study
Unit 4: Fault tree analysis, Event tree analysis, Zero Infinity dilemma
BLOCK 5 Risk Analysis in Chemical Industries Unit 1: Handling and storage of Chemicals, Process plants
Unit 2: Personnel protection equipments. Environmental risk analysis
Unit 3: International environmental management system
Unit 4: Corporate management system, Environmental risk assessment
Books: 1. Srivastav, S., “Industrial Maintenance Management”, Sultan Chand & Co
2. Rao, P. C. K., “Project Management and Control”, Sultan Chand & Co., Ltd
3. Sincero, A. P. and Sincero, G. A., “Environmental Engineering – A Design
Approach”, Prentice Hall of India
ELECTIVE
Subject Code : CME007
Subject Title : Computational Fluid Dynamics
Structure of the Course Content
BLOCK 1 Conservation Laws Unit 1: Governing equations of fluid flow and heat transfer
Unit 2: Mass conservation, momentum and energy equation
Unit 3: Differential and integral forms
Unit 4: Conservation and non-conservation form
BLOCK 2 Turbulence Unit 1: Characteristics of turbulent flows
Unit 2: Time averaged Navier Stokes equations
Unit 3: Turbulence models – one and two equation
Unit 4: Reynolds stress, LES and DNS
BLOCK 3 Finite Volume Method Unit 1: Diffusion problems – explicit and implicit time integration
Unit 2: Convection-diffusion problems – properties of discretisation schemes
Unit 3: Central, upwind, hybrid, QUICK schemes
Unit 4: Solution of discretised equations
BLOCK 4 Flow Field Computations Unit 1: Pressure velocity coupling
Unit 2: Staggered grid
Unit 3: Simple Algorithms
Unit 4: PISO algorithm for steady and unsteady flows
BLOCK 5 Grid Generation Unit 1: Physical aspects
Unit 2: Simple and multiple connected regions
Unit 3: Grid generation by PDE solution
Unit 4: Grid generation by algebraic mapping
Books: 1. Anderson, J. D., “Computational Fluid Dynamics: The Basics with
Applications”, McGraw-Hill
2.Fletcher, C. A. J., “Computational Techniques for Fluid Dynamics”, Springer
Verlag
3.Versteeg, H.K. and Malalasekera, W., “An Introduction to Computational
Fluid Dynamics: .The Finite Volume Method”, Pearson Education Ltd
ELECTIVE
Subject Code : CME008
Subject Title : Project Engineering and Process Plant
Structure of the Course Content
BLOCK 1 Introduction to Project Engineering Unit 1: Project definition, Project Profile and standards
Unit 2: Feedback information (MIS)
Unit 3: Evaluation and Modification
Unit 4: Selection, Criteria
BLOCK 2 Process Planning Unit 1: Planning the process, Strategic and Managerial Planning
Unit 2: Organising the process planning, cost and costing, Cost Control
systems
Unit 3: Methods (PERT/CPM), Engineering Flow Diagrams, Cost requirements
Unit 4: Analysis and Estimation of Process Feasibilities
BLOCK 3 Plant Engineering Management Unit 1: Objectives, Programme, Control, Plant Location and Site Selection
Unit 2: Layout diagrams, Selection and procurement of equipments
Unit 3: Installation, Recommission, Commissioning and performance appraisal
Unit 4: Strategies choice and Influence, Product planning and development
BLOCK 4 Safety Standards Unit 1: Process safety, Materials safety and Handling regulations
Unit 2: Safety in equipment and machinery operations
Unit 3: Design considerations of safety organization and control
Unit 4: Pollution, Pollution control and Abatement, Industrial Safety Standard
BLOCK 5 Pollution Control Unit 1: Government regulations on procurement of raw materials
Unit 2: Export – Import regulations, Pricing policy, Industrial licensing
procedure
Unit 3: Excise and commercial taxes, Policies on depreciation and corporate
tax
Unit 4: Factory act, Regulations of Pollution Control Board.
Books: 1. Cheremisinoff, N. P., Practical Guide to Industrial Safety: Methods for
Process Safety Professionals, CRC Press
2. Couper, J. R., Process Engineering Economics, CRC Press
3. Perry, J. H. “Chemical Engineer’s Hand Book”, 8th Ed., McGraw Hill, New
York
ELECTIVE
Subject Code : CME009
Subject Title : Fluidization Engineering
Structure of the Course Content
BLOCK 1 Introduction to Fluidization Unit 1: The Fluidized state, Nature of hydrodynamic suspension
Unit 2: Particle forces, species of Fluidization, Regimization of the fluidized
state
Unit 3: Operating models for fluidization systems
Unit 4: Applications of fluidization systems
BLOCK 2 Hydrodynamics of Fluidization Systems Unit 1: General bed behaviour, pressure drop, Flow regimes, Incipient
Fluidization
Unit 2: Pressure fluctuations, Phase Holdups, Measurements Techniques
Unit 3: Empirical Correlations for Solids holdup, liquid holdup and gas holdup
Unit 4: Flow models – generalized wake model, structural wake model
BLOCK 3 Solids Mixing and Segregation Unit 1: Phase juxtapositions operation shifts, Reversal points
Unit 2: Degree of segregation, Mixing Segregation equilibrium
Unit 3: Generalised fluidization of poly disperse systems
Unit 4: Liquid phase Mixing and gas phase mixing
BLOCK 4 Heats and Mass Transfer in Fluidization System Unit 1: Mass transfer – Gas Liquid mass transfer
Unit 2: Liquid Solid mass transfer and wall to bed mass transfer, Heat transfer
Unit 3: Bed heat transfer, Immersed vertical cylinder to bed heat transfer
Unit 4: Immersed horizontal cylinder to bed heat transfer
BLOCK 5 Special Systems Unit 1: Conical Fluidized bed, Moving bed, Slurry bubble columns
Unit 2: Turbulent bed contactor, Two phase and Three phase inverse fluidized
bed
Unit 3: Semi fluidized bed systems, Annular systems, Typical applications
Unit 4: Powder characterization and modeling by bed collapsing
Books: 1. Kunii, D. and Levenspiel, O., “Fluidization Engineering”, 2nd Edn.,
Butterworth-Heinemann, London
2. Kwauk, M., “Fluidization - Idealized and Bubbleless, with applications”,
Science Press
3. Fan, L. S., “Gas- liquid Solid Fluidization Engineering”, Butterworths
ELECTIVE
Subject Code : CME010
Subject Title : Total Quality Management
Structure of the Course Content
BLOCK 1 Concepts of TQM Unit 1: Philosophy of TQM, Customer focus
Unit 2: Organization, top management commitment
Unit 3: Team work
Unit 4: Quality philosophies of Deming, Crosby and Muller
BLOCK 2 TQM Process Unit 1: QC Tools, Problem solving methodologies
Unit 2: New management tools
Unit 3: Work habits, quality circles
Unit 4: Bench marking, strategic quality planning
BLOCK 3 TQM Systems Unit 1: Quality policy deployment
Unit 2: Quality function deployment
Unit 3: Standardization
Unit 4: Designing for quality, manufacturing for quality
BLOCK 4 Quality Systems Unit 1: Need for ISO 9000 system
Unit 2: Advantages, clauses of ISO 9000
Unit 3: Implementation of ISO 9000
Unit 4: Quality costs, quality, auditing, case studies
BLOCK 5 Implementation of TQM Unit 1: Steps, KAIZEN
Unit 2: 5s, JIT
Unit 3: POKAYOKE, Taguchi methods
Unit 4: Case studies
Books: 1. Rose J. E., “Total quality Management”, Kogan Page Ltd
2. Bank, J., “The essence of Total Quality Management”, Prentice Hall of India
3. Bonds, G., “Beyond Total Quality Management”, McGraw Hill
ELECTIVE
Subject Code : CME011
Subject Title : Safety and Hazard Control
Structure of the Course Content
BLOCK 1 Basic Concept of Safety Unit 1: Conventional and modern concepts of safety
Unit 2: Basic Principles and concepts in hazard identification, Chemical
hazards
Unit 3: Process and operation hazard, Hazards from utilities like air, water,
steam
Unit 4: Occupational health hazards, Hazard and operability Studies, Safety
Audits
BLOCK 2 Accident Analysis Unit 1: Past Accident Analysis
Unit 2: Consequence Analysis of fire, gas/vapour
Unit 3: Dispersions and explosion, Vulnerability models
Unit 4: Fault and Event Tree Analysis
BLOCK 3 Risk Assessments Unit 1: Introduction to Risk Assessment
Unit 2: Safety in plant design and layout
Unit 3: Risk Assessment
Unit 4: Case Studies
BLOCK 4 Safety Measures Unit 1: Safety measures in handling and storage of chemicals
Unit 2: Process plant
Unit 3: Personnel Protection
Unit 4: First Aid
BLOCK 5 Emergency Plans Unit 1: Need of Emergency Plans
Unit 2: Disaster mitigation
Unit 3: Emergency Preparedness plans
Unit 4: Case Studies
Books: 1.Well, G.S Safety Process Plants Design, George Godwin Ltd., London, John
Wilelys and Sons, New York
2. Safety in Chemical and Petrochemical Industries, Report of the Inter
Ministry Group, Dept. of Chemicals and Petrochemicals, Govt.of India, ICMA
Publications.
3. Major Hazard Control, Manual by International Labour Organization,
Geneva
ELECTIVE
Subject Code : CME012
Subject Title : Polymer Technology
Structure of the Course Content
BLOCK 1 Introduction to Polymer Processing Methods Unit 1: Introduction to Polymer Technology
Unit 2: Introduction to various Polymer Processing methods
Unit 3: Machinery Morphology
Unit 4: Structure of Polymers
BLOCK 2 Channel Models Unit 1: Screw Extrusion – Geometry of screw – Simplified Flat plate Model
Unit 2: Rectangular channel model; cylindrical Channel Model
Unit 3: Helical Channel Model; Newtonian and Non-Newtonian flows
Unit 4: Isothermal, non-isothermal and adiabatic Models
BLOCK 3 Moulding Process Unit 1: Injection Moulding
Unit 2: Various parts of the moulds
Unit 3: Analysis of flow through mould Cavity
Unit 4: Various Models; Balancing of runners
BLOCK 4 Mixing Operations Unit 1: Newtonian and non-Newtonian models
Unit 2: Calendar fed with finite sheet
Unit 3: Normal stress and viscosity effects
Unit 4: oating – Mixing operations
BLOCK 5 Expert Systems Unit 1: Modelling of Polymer Process
Unit 2: Advanced Process in Polymer Technology
Unit 3: Knowledge based expert systems for modeling of polymer processing
Unit 4: Case Studies
Books: 1. Agassant, J.F. Avenas, P, Sergant, J,Ph., and Correon, P.J. “Polymer
Porcessing” Carl Hamsen Verlag Munich
2.Tucker C.L, “Fundamentals of Computer Modelling for Polymer
Processing”, Carl Hamsen Verlag, Munich