B.E. Chem 3rd Year(Sem6)
|
B.E.III
(CH) 6th Semester |
Teaching
Scheme |
Examination
Scheme |
| Theory
Exam |
Practical/Quiz/Viva/T.W.
|
| University
Exam. |
TUT
|
CONT.
EVOLUTION |
TOTAL
MARKS |
|
COURSE NAME |
COURSE
NO |
L
Hrs |
T
Hrs |
P
Hrs |
DUR
Hrs |
MKS |
DUR
Hrs |
MKS |
|
Gen. Chem. Tech.II
|
601
|
3
|
0
|
2
|
3
|
100 |
2
|
50
|
-
|
-
|
150
|
|
Chem. Engg. Therm-II
|
602
|
3
|
1
|
0
|
3
|
100
|
-
|
-
|
25
|
-
|
125
|
|
Chem. Reac.Engg.-I
|
603
|
3
|
1
|
2
|
3
|
100
|
2
|
50
|
25
|
-
|
175
|
|
Chem. SystemModel.
|
604
|
3
|
0
|
0
|
3
|
100
|
-
|
-
|
-
|
-
|
-
|
|
Instrumentation
|
605
|
3
|
0
|
2
|
3
|
100
|
2
|
50
|
-
|
-
|
155
|
|
Mass Transfer – II
|
606
|
3
|
0
|
4
|
3
|
100
|
2
|
100
|
-
|
-
|
200
|
|
TOTAL
|
18
|
2
|
10
|
---
|
600
|
8
|
250
|
50
|
---
|
900
|
|
Total
Contact Hours : 026
|
| Total
Marks
: 900 |
B.E. Chemical Engineering
6th Semester
|
Sr.No.
|
Subject
Name
|
|
601
|
Gen. Chem. Tech.-II |
|
602
|
Chem. Engg. therm-II |
|
603
|
Chem. Reac.Engg.-I |
|
604
|
Chem. SystemModel. |
|
605
|
Instrumentation |
|
606
|
Mass Transfer – II |
General
Chemical Technology – II (Semester –VI)
|
Name
|
Details
|
|
Teaching Scheme
:
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks=
100;
|
|
Practical
/ Drawing :
|
Internal evaluation Marks: 20; External
evaluation Marks: 30; Total Marks: 50
|
1. Petroleum Refining
2. Petrochemical industry.
3. Polymer industry: Manufacture
of phenol and urea formaldehyde resins, PVC, Polyethylene,
Synthetic rubber etc.
4. Synthetic fiber industry : Nylon
polyester, Acrylics, rayons.
5. Fine Chemicals and drugs : Classification
of dyes, Azo dyes, Reactive dyes, disperse dyes.
6. Intermediates & Dyes classification of dyes,
Azo dyes, Reactive dyes & Disperse dyes.
7. Bio-chemical Engineering Fundamentals, micro-organisms,strains
culture etc., kinetics of biochemical reaction, fermentation
aeration.
8. Environmental aspects of various industries.
|
|
References:
|
1 R.N. Shreve, J.A. Brink, “ Chemical
Process Industries” 4th edition.International Students
edition
|
2 G.F. Austin . “Shreve’s Chemical
Process Industries” 5th edition., Mcgraw Hill Publications
G.F. Austin . “Shreve’s Chemical Process Industries”
5th edition., Mcgraw Hill Publications.
|
| 3 M.Gopala Rao and M. Sitting,
“ Dryden’s Outline of Chemical Technology” 2nd edition.,
East-West publications |
| 4 Bailey & Ollis, ‘Bio-chemical
Engineering Fundamentals’, 2nd edition., International
Student Edition. |
| 5 Nelson. ‘Petroleum refinery
Processes’, McGraw Hill Publication. |
Chemical
Engg. Thermodynamics –II (Semester –VI)
|
Name
|
Details
|
|
Teaching Scheme
:
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks=
100;
|
|
Practical
/ Drawing :
|
|
|
Thermodynamic
properties of fluids:
|
Partial molar properties, chemical potential, non-ideal
solutions, fugacity, fugacity coefficient, for pure
component and for mixture of gases. For liquids- Lewis
randall rule, Henry’s law, excess property, activity
and activity coefficient.
|
|
Phase equilibrium:
|
Phase rule, Duhem theorem, miscible system, immiscible
system, partially miscible systems, testing of vapor
liquid equilibrium data, Gibbs Duhem equation, Van laar
equation, Margules equation, Redlich kister equation,
P-x-y , T-x-y and x-y diagrams, Vapour liquid equilibrium
of ideal and nonideal solutions, Raoult’s and Henry’s
law.
|
|
Chemical equilibrium:
|
criteria,
equilibrium conversion(x), constant(k), effect of temperature
and pressure on k, evaluation of k, evaluation of equilibrium
conversion for gas phase reaction.
|
|
Introduction to Statistical thermodynamics:
|
Stefan
Boltzmann, Bose Einstein and Fermi Dirac distributors,
corrected Boltzmann statics, partition functions, etc.
|
|
References:
|
1. J.M.Smith and H.C.
Vanness, ‘Introduction to Chemical Engg. Thermodynamics’,
3rd and 4th Ed., MGH.
|
2. Nag P.K “Engineering
”
|
| 3. B.F. Dodge,
‘Chemical Engineering Thermodynamics’, MGH. |
Chemical
Reaction Engineering – I (Semester –VI)
|
Name
|
Details
|
|
Teaching Scheme
:
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks=
100;
|
|
Practical
/ Drawing :
|
Internal evaluation
Marks: 20; External evaluation Marks: 30; Tutorial:
25; Total Marks:75
|
1. Introduction:
Chemical Kinetics, Classification of reactions, variable
affecting reaction.
2. Kinetics of homogenous reactions.
3. Instrumentation of Batch Reactor data.
4. Introduction to Reactor Design :
Material and energy balances, single ideal reactor,
ideal batch reactor.
5. Design of single reaction : Size
comparison of single reactors, batch reactor-mixed
versus plug flow reactors, first & second order
reactions, Gen. Graphical comparison.
6. Multiple reaction system : Plug
flow reactors in series and/or parallel, equal sized
mixed reactors, recycle factor.
7. Temperature & pressure effects :
Single & Multiple reactions.
8. Industrial applications.
|
|
References:
|
1. Octave Levenspiel
, 'Chemical Reaction Enfineering' , 2nd ed. , John-Wiley.
|
2. J.M. Smith, 'Chemical
Engg. Kinetics' , McGraw Hill Co.
|
Chemical
System Modelling (Semester –VI)
|
Name
|
Details
|
|
Teaching Scheme
:
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks=
100;
|
1. Introduction:
Physical and mathematical modelling, principle of
similarity, definition of independent variables and
dependent variables, boundary conditions.
2. Mathematical modelling of Chem. Engg. Systems:
single, two and n-stage extraction steady state mass
transfer processes, Un steady state formulations of
a single stage extraction, steady state heat conduction
through hollow cylindrical pipe using various boundary
conditions, unsteady process of steam heating of a
liquid, heat transfer through extended surface(triangle
and rectangular), steady state counter current cooling
of a tank, diffusion with chemical reaction in a tubular
reactor etc.
3. Lapalace Transforms: Thermometer
systems, mixing tanks, fixed bed reactor formulations
4. Partial differential equations and finite differences;
a review
5. Numerical methods: a review
6. Treatment of experimental results
7. Optimization
|
|
References:
|
1. V.G.Jenson and G.V.
Jeffers, ‘ Mathematical methods in chemical engineering’,
Academic press, NY.
|
2. H.S. Mickley, T.S.
Shrewood and C.E. Reed, ‘Applied mathematics in chemical
engineering’, TMGH, New Delhi.
|
Instrumentation
(Semester –VI)
|
Name
|
Details
|
|
Teaching
Scheme :
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks=
100;
|
|
Practical
/ Drawing :
|
Internal evaluation
marks :- 20; External evaluation marks - 30; Total
Marks - 50
|
| Instrumentation: |
Measuring
Instruments For Temperature, Pressure, Level And Flow. |
Micro-Processor
Applications:
|
1. Micro-processor
architecture & instruction set for Intel, Zilog and
Motorola. |
| 2. Logic structure,
combinational logics. |
| 3. Karnaugh
Maps, assembly language programming. |
| 4. Timing
diagrams, counter & timing delays, stack & subroutines. |
| 5. Interfacing,
parallel & seriel, programmable peripheral interface,
interrupts, data conversion. |
| 6. Data conversion
– ADC & DAC data logging, microcontrollers, program
logic controllers, application to process control and
drafting. |
|
References:
|
1. Donald Eckman, ‘
Industrial Instrumentation ‘.
|
Mass
Transfer-II (Semester –VI)
|
Name
|
Details
|
|
Teaching Scheme
:
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks=
100;
|
|
Practical
/ Drawing :
|
Internal evaluation
Marks: - 25; External evaluation Marks - 75; Total
Marks - 100
|
1. Absorption:
Equilibrium, material balances for single component
transfer, multistage and packed tower operation.
2. Humidification: Vapor gas mixtures,
gas liquid contact operations, adiabatic and nonadiabatic
operation.
3. Liquid extraction: stage wise,
stage type contactor etc.
4. Adsorption and ion exchange: stagewise
operation etc.
5. Drying: Batch drying, mechanism,
continuous drying.
6. Leaching: Steady state and unsteady
state operations.
7. Crystallization: Equilibria, operations,
equipments.
8. Introduction to recent separation techniques using
mass transfer.
|
|
References:
|
1. R. E. Treybal, Mass
transfer operations, 3rd Edition, McGraw Hill Publication
|
2. McCabe and Smith,
Unit operation in chemical engineering, McGraw Hill
Publication
|
|
|
|
