RGPV 5th Sem Chemical Engineering Syllabus  RGPV CBGS 5th Sem CM Syllabus
Now RGPV introduced new schemes for those students who are studying in the 3rd year 5th sem of RGPV and their affiliated institutes. In this post we are going to share RGPV CBGS 5th sem syllabus for Chemical Engineering branch students. Please read it very carefully and also share RGPV CBGS 5th sem Chemical Engineering subject list . It contain 78 subjects with 1 elective subjects in CM branch i.e.Advance Chemical Engineering Thermodynamics; Computational Methods in Chemical Engineering; Mass TransferI; Heat Transfer; ElectiveI (Organic Process Technology; Fertilizer Technology; Pulp & Paper Technology; Membrane Separation Technique); Chemical Process Plant Simulation Lab – I; Management Skill Development **(Internal Assessment); Innovative Thinking**(Internal Assessment) .If you want to download 5th sem Chemical engg syllabus please go below the post.
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RGPV CBGS 5th Sem Chemical Engineering Subjects
List of Subjects RGPV CBGS 5^{th} Sem Chemical Engineering


S. No.

Subject Code

Subject Name


1

CM5001

Advance Chemical Engineering Thermodynamics


2

CM5002

Computational Methods in Chemical Engineering


3

CM5003

Mass TransferI


4

CM5004

Heat Transfer


5

CM5005

ElectiveI (Organic Process Technology; Fertilizer Technology; Pulp
& Paper Technology; Membrane Separation Technique)


6

CM5006

Chemical Process Plant Simulation Lab – I


7

CM5007

Management Skill Development **(Internal Assessment)


8

CM5008

Innovative Thinking**(Internal Assessment)

Download RGPV CBGS 5th Sem Chemical Engineering Syllabus
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Chemical
Engineering, VSemester
CM5001
Advanced Chemical Engineering Thermodynamics
Course
Objective
To
understand the theory and applications of, thermodynamic properties, equations
of state, various chemical engineering processes involving energy flow, phase
and reaction equilibrium.
UNIT1
Thermodynamic
properties of homogeneous mixtures; property relationship for systems of
variable compositions, partial molar properties, fugacity &
fugacitycoefficient in idealsolution, concept of fugacity departure
UNIT2
Change
of mixing activity, heat effects in mixing, and activity effect in gaseous
mixture
UNIT3
Refrigeration,
ideal reversed Carnot cycle, vapour compression refrigeration, component of
vapour compression plant (compressor, condenser, expansion device, evaporator)
properties of refrigerant
UNIT4
Chemical
potential & its physical significance, effect of pressure & temperature
on heat of reaction, concept of free energy, VantHoffs equation,
ClaussionsClapeyron equation, GibbsDuhem relationship of free energy with
equilibrium constant, equilibrium & its applications.
UNIT5
Elements
of statistical thermodynamics, counting the number of microstates for a given
macrostate, the most probable macrostate, Boltzman distribution, evaluation of
Lagrangian constants alpha , statistical interpretation of work & heat.
References:
1. Smith J.M and Van Ness, Introduction to
Chemical Engg. Thermodynamics – 6th edition.
2. Daubert, Chemical Engg. Thermodynamic;
TMH.
3. Rathakrishnan E, Fundamentals of Engg
Thermodynamics; PHI.
4. Dodge B.F., Chemical Engineering
–Thermodynamics –McGraw Hill.
5. Balzhiser Samuels and Eliassen,
Chemical Engg Thermodynaics Prentic Hall.
6. Sandler S.I, Chemical
EnggThermodynamicsJohn Wiley and son.
7. Rastogi and Mishra, Chemical Engg.
Thermodynaics.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Chemical
Engineering, VSemester
CM5002
Computational Methods in Chemical Engineering
Course
Objective
The
objective of subject to understand the applications of computational techniques
for chemical engineering calculations numerical techniques in chemical
engineering calculations.
Unit
I Treatment of engineering data: Graphical representation. Empirical equations,
Interpolation, Newton’s formula, Lagrange’s Interpolation formula,
extrapolation, Integration, Graphical Integration, Graphical Construction of
Integral curves, Numerical Integration.
Unit
II Interpretation of Engineering Data: Significant figure, Classification of
Measurements, Propagation of Errors, Variation and Distribution of Random
Errors, Properties of Variance, Confidence limits for small samples.
Unit
III Ordinary Differential Equations: Formulation, Application of Law of
Conservation of Mass– Mixing in flow process. Classification of ordinary
Differential Equations and its applications to common Chemical Engineering
problem
Unit
IV Numerical Solutions of Ordinary Different Equations: Linear Second– order Equations
with variable coefficients, Numerical solution by Runge Kutta Method. Its
application to higher–order equations
Unit
V Formulation of partial Different Equations: Finite difference, linear finite
difference equations, nonlinear difference equations, Optimization, types of
methods, its application relating to chemical processes.
References:
1. Mickley HS, Sherwood and Reed; Applied
Mathematics in Chemical Engineering; TMH pub.
2. Jenson & Jeffrey’s; Mathematical
Methods In Chemical Engineering; Mc Graw Hill
3. Luyben WL; Process modeling, simulation
and control for chemical engineer; Mc Graw Hill
List of Experiment (Pl.
expands it):
1. Data representation and treatment by Graphical methods,
Pressure VolumeTemperature and concentration relationships for gases and
their mixtures.
2. Integrated methods of data processing. Integral functions
and their graphical representation.
3. Estimation of properties from empirical correlations (Nokay)
4. Estimation of critical properties from group contribution
method.
5. RedlichKwong equation of state and other Virial equations
to estimate thermodynamic properties like compressibility factor, molar volume
and PVT relationships.
6. To study the effect of liquid viscosity and dissolved gases
on pump efficiency, reciprocating pump performance.
7. Measurement errors their propagation and minimization of
random errors. Selection of confidence limits.
8. Mass balance problems using continuity equation applied to a
dynamic system. Formation of differential equations (component balance) and
their solution & examples – CSTR and flow through pipes.
9. Numerical Solutions of batch reactor problems. Euler
Algorithm
10. RungeKutta algorithm and its application in chemical
Engineering. Implicit and explicit calculations. Problems related to effect
design, optimum liquid concentration.
11. Transient flow of fluid unsteady temperature and varying
concentration problems and use of partial differential equation to solve them.
Note: Each student should
perform at least eight experiments from the above list.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Chemical
Engineering, VSemester
CM5003
Mass TransferI
Course
Objective
The
purpose of this subject is to introduce the undergraduate students with the
most important separation equipments in the process industry, and provide
proper understanding of unit operations. This course explains the diffusion
phenomena, fundamentals of mass transfer and techniques involved in mass transfer
operations of distillation and absorption.
Unit
I Diffusion phenomenon: Molecular and eddy diffusion in gases, liquids and
solids, interface mass transfer, Mass transfer theories: film theory
Penetration theory and surface renewal theory
Unit
II Fundamentals of Mass Transfer: Individual and film coefficients, overall
mass transfer coefficient and their inter relationships; Analogies in transfer
processes, determination of mass transfer coefficient; two phase flow in
packed beds, cocurrent and counter current processes flooding loading, column
internals: types of trays/ plates and packing, point and plate efficiency.
Unit
III Distillation: Vapour liquid Equilibrium, Boiling point diagram, Relative
volatility, flash and differential distillation for two component mixture,
steam distillation, azeotropic distillation, extractive distillation.
Unit
IV Continuous and Differential contact Distillation: Rectification, reflux
ratio, calculation of numbers of plates by NTU, optimum reflux ratio, open
steam, multiple feed and multiple product calculations, Enthalpy concentration
diagram, PanchonSavarit method for calculation of number of theoretical
plates. Approximate equation; Fensky and Underwood equation for minimum numbers
of plate calculation. Batch distillation.
Unit
V Absorption: Absorption and Stripping of dilute mixtures: Fundamentals of
absorption, equilibrium curves, Operating lines from material balances,
cocurrent, Counter current and cross current contacting fluids, Design of
absorption towers, Calculations of NTU and HTU, concept of HETP.
References:
1. McCabe W.L, Smith J.M.; Unit Operation
in Chemical Engineering; Tat McGrawHill.
2. Coulson J. M. Richardson; Chemical
Engineering – Vol 2; Butterworth Heinmann, Oxford, Delhi
3. Treybal R.E; Mass Transfer Operation;
Mc. Graw Hill.
4. Sherwood, T.K. Pigford R.L. and Wilke,
C.R.; Mass Transfer; Mc. Graw Hill.
List of Experiment (Pl.
expand it):
1. To determine to diffusion coefficient of liquid vapour in
air by Stefan’s tube.
2. To determine diffusion coefficient, or diffusivity, of given
liquid in air.
3. To determine Mass Transfer CoEfficient in gas liquid system
by evaporation
4. To study the rates and phenomena of diffusion into gases
flowing through the pipe.
5. To study different types of plates and packing.
6. To prepare the vaporliquid equilibrium and Boiling point
diagram for a binary liquid mixture.
7. Determination of relative volatility of a given system of
acetic acid and water.
8. To verify Rayleigh equation for differential distillation of
binary system.
9. To carry out the steam distillation.
10. Studies on packed tower distillation unit.
11. Studies on the sieve plate distillation unit.
12. Studies on bubble cap distillation column.
13. To study the absorption of a gas in a packed column and
calculation of NTU and HTU.
Note: Each student should
perform at least eight experiments out of the above list.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Chemical
Engineering, VSemester
CM5004
Heat Transfer
Course
Objective
To
understand the fundamentals of heat transfer mechanisms in fluids and solids
and their applications in various heat transfer equipment in process
industries.
Unit
I Conduction: Modes of heat transfer one dimensional and two dimensional, heat
rate equations, Theory of insulation, critical radius calculations, types of
insulation material, conduction through slab, cylinder and sphere.
Unit
II Convective heat transfer: Heat transfer in boundary layer and in films,
natural and\ forced convection, co/counter/cross current contacting for heat
transfer, individual and overall heat transfer coefficient, fouling factor.
Unit
III Radioactive heat transfer: Black body radiation, concept of shape factor,
methods of determination of shape factor, radiation exchange in enclosure with
black surfaces
Unit
IV Heat transfer under phase change conditions: Boiling and condensation of
pure components, heat flux temperature diagram for boiling and condensation
under vertical and horizontal surfaces, nucleate & pool boiling, effect of
surface condition on condensation, correlation for heat transfer under
condensation. Evaporation Type of evaporators and their applications single
and multiple effect evaporators, design and operation of forward– backward and
mixed feed operations, effect of boiling point elevation and hydrostatic head
vapour recompression.
Unit
V Heat Exchange equipment: Introduction to general design of double pipe ,shell
and tube exchangers, condensers, extended surface equipments, heat exchanger
equation – coil to fluid, jacket to fluid.
References:
1. Donald Q. Kern; Process Heat Transfer;
Tata McGraw Hill.
2. Alan J. Chapman; Heat Transfer; Collier
McMillan.
3. Rao Y.V.C; Heat Transfer; PHI
List
of Experiment (Pl. expand it):
1. To determine the thermal conductivity
of metal rod.
2. To determine the equivalent thermal
conductivity of composite wall.
3. To determine heat transfer coefficient
in force convection.
4. To determine heat transfer coefficient
in Natural convection.
5. To determine heat transfer coefficient
with the help of Stefan Boltzmann Apparatus.
6. To calculate emissivity of the test
plate by emissivity measurement apparatus.
7. To determine heat transfer coefficient
in double pipe heat exchanger.
8. To study the heat transfer
characteristics of a shell and tube heat exchanger (heating/cooling) of water.
9. To determine heat transfer coefficient
in parallel and counter flow heat exchanger.
10. To measure the rate of evaporation using
an open pan evaporator.
11. To measure the rate of condensation of
pure water vapour and to determine the heat transfer coefficient.
12. Demonstrate the filmwise dropwise
condensation and determination of the heat transfer coefficient.
13. To study the single effect evaporator and
find out the heat transfer coefficient.
RAJIV GANDHI
PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based
Grading System
Chemical
Engineering, VSemester
ElectiveI CM5005
(1) Organic Process Technology
Course
Objective
To
Study of organic process industries involving process technology, raw material
availability, production pattern, Engg. Problems involving material of
construction, Environment pollution, waste utilization and disposal, energy
consumption and conservation Equation.
Unit
I Soaps and detergents:
Pulp
and paper, pulping process, chemical recovery, stock preparation and paper
making,
Unit
II
Agro
based alcohol industries, production of cane sugar, molasses, formation of
alcohol, alcohol derivatives like acetic acid, acetic anhydride, vinyl acetate
and ethylene glycol.
Unit
III
Intermediates
for petrochemical from petroleum based stocks, phenol, methanol, ethylene,
propylene, aromatic benzene, toluene, xylene, acrylonitrite, styrene and
butadiene.
Unit
IV
Dyes
and Dye intermediates, insecticides and pesticides, nitration and nitrating
agents.
Unit
V
Manmade
fibers; rayon, polyester, polyamides, acrylics, cellulose and acetate
References:
1. Gupta VB & Kathari VK;
Manufacturing Fibre Technology; Chapman Hall, Newyork Edition.
2. Kathari V.K.; Progress In Textile,
Sciences Technology, Vol I & II; IAFL Publications, S351 Greater Kailash
part I New Delhi – 48 I Ed.
3. Austin, G.T; Shreeves Chemical Progress
Industries; Mc. Graw Hill New York
4. Dryden C.E; Outlines Of Chemical
Technology; Affiliated. East West press, New Delhi, 1997
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Chemical
Engineering, VSemester
ElectiveI
CM5005 (2) Fertilizer Technology
Course
Objective
To
Study of organic process industries involving process technology, raw material
availability, production pattern, Engg. problems involving material of
construction, Environment pollution, waste utilization and disposal, energy
consumption and conservation Equation.
Unit
I Introduction:
Plant
nutrients, different types of fertilizers and their production in India.
Different feed stocks. Synthesis gas production by steamnaphtha reforming and
gas purification. Ammonia synthesis.
Unit
II Nitrogenous Fertilizers:
Urea
manufacturing processes. Manufacture of sulphuric acid and ammonium sulphate.
Nitric acid and ammonium nitrate manufacture.
Unit
– III Phosphate Fertilizers:
Availability
and grinding of rock phosphate, manufacturing processes for single and triple
superphosphate and phosphoric acid.
Unit
IV
Mixed
Fertilizers:
Availability
and manufacture of muriate of potash. Mono and diammonium phosphate, urea
ammonium phosphates, NPK complex fertilizers, granulation techniques.
UnitV
Major
Engineering Problems:
Fertilizers
storage and handling. Corrosion problems in fertilizers industries, Fertilizer
plant effluent treatment and disposal.
References:
1. Slack A.V. “Chemistry and Technology of
Fertilizers”, Wiley interscience Publishers.
2. Waggaman W.H., “Phosphoric Acid,
Phosphates and Phosphatic Fertilizers”, Hafner Pub.
3. Austin G.T., “Shreve’s Chemical
Processes Industries”, 5th Ed. McGraw Hill.
4. Rao M.G. and Sittig M., “Dryden’s
Outlines of Chemical Technology”, Affiliated East W Press, Delhi.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Chemical
Engineering, VSemester
ElectiveI
CM5005 (3) Pulp & Paper Technology
Course
Objective
This
course introduces the manufacture of paper from fibrous raw materials to the
processing of finished products with emphasis on papers produced from wood,
nonwood and secondary fibres. It will focus on the entire pulp and paper
manufacturing process address the environmental issues that arise from the
different processes involved.
Unit
I
Introduction:
Present status of pulp and paper industries; Fibrous raw materials; Fiber
chemistry. Raw Material Preparation: Debarking, chipping, chip screening, storage.
Pulping: Chemical, semi chemical, mechanical, chemimechanical and
nonconventional. Secondary fiber pulping. Advances and recent trends in
pulping.
Unit
II
Bleaching:
Objectives of bleaching bleach ability measurement, bioleaching. Chemical Recovery:
Composition and properties of black liquor, oxidation and desalination,
concentration of black liquor & its incineration caustic zing and
clarification, sludge washing and burning.
Unit
III
Pulp
Manufacture: Stock preparation, beating and refining, functional and control
additives for papermaking, wetend chemistry, polymer chemistry, retention
sizing.
Unit
IV
Paper
Manufacture: Approach flow system, wire part, sheet forming process, sheet
transfer mechanism, press part, theory of pressing, dryer part, paper drying
process, calendaring, cylinder mould machine, finishing, fiber recovery
systems, recent developments in paper making. Coating and lamination.
Unit
V
Paper
Properties: Physical (optical, strength and resistance), chemical and electrical
properties, paper defects. Paper Grades: Types, composition, manufacturing
techniques, properties and uses.
References:
1. Britt, K. W. (Ed.), “Handbook of Pulp
and Paper Technology,” 2nd ed., CBS Publishers & Distributors, Delhi, 1984.
2. Casey, J. P., “Pulp and Paper Chemistry
and Chemical Technology,” Vol. 1, 3rd ed., Wiley Interscience.
Rydholm, S. A., “Pulping Processes,” Wiley Inter science.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Chemical
Engineering, VSemester
ElectiveI
CM5005 (4) Membrane Separation Techniques
Course
Objective
To
understand the basic principle of membrane separation techniques and design of
equipment involved.
UnitI
Introduction:
Membrane separation process, Definition of Membrane, Membrane types, Advantages
and limitations of membrane technology compared to other separation processes,
Membrane materials and properties.
UnitII
Preparation
of synthetic membranes: Phase inversion membranes, Preparation techniques for
immersion precipitation, Synthesis of asymmetric and composite membranes and
Synthesis of inorganic membranes.
UnitIII
Transport
in membranes: Introduction, Driving forces, Non equilibrium thermodynamics,
Transport through porous membranes, transport through nonporous membranes,
Transport through ionexchange membranes.
Unit
IV
Membrane
processes: Pressure driven membrane processes, Concentration as driving force,
electrically driven membrane processes.
UnitV
Polarization
phenomena and fouling: Concentration polarization, Pressure drop, Membrane
fouling, methods to reduce fouling. Modules: Introduction, membrane modules,
Comparison of the module configurations
References:
1. Mulder M, Basic Principles of Membrane
Technology, Kluwer Academic Publishers, London, 1996.
2. Baker R. W., Membrane Technology and
Research, Inc.(MTR), Newark, California, USA, 2004.
3. NathK., Membrane Separation Processes,
Prentice Hall Publications, New Delhi, 2008.
RAJIV GANDHI
PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based
Grading System
Chemical
Engineering, VSemester
CM5006 Chemical
Process Plant Simulation Lab – I
Simulation
Study of Various Chemical Process with the help of following
Softwares
:
MATLAB
, AFT Fathom, ChemCAD, Pro Simulator .
People also search Advance Chemical Engineering Thermodynamics; Computational Methods in Chemical Engineering; Mass TransferI; Heat Transfer; ElectiveI (Organic Process Technology; Fertilizer Technology; Pulp & Paper Technology; Membrane Separation Technique); Chemical Process Plant Simulation Lab – I; Management Skill Development **(Internal Assessment); Innovative Thinking**(Internal Assessment), Important questions, old papers, PDF,
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