B.E. Chem 3rd Year(Sem5)
|
B.E.III
(CH) 5th 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.I
|
501
|
3
|
0
|
2
|
3
|
100 |
2
|
50
|
-
|
-
|
150
|
|
Chem. Engg. Therm-I
|
502
|
3
|
1
|
0
|
3
|
100
|
-
|
-
|
25
|
-
|
125
|
|
Fluid
flow operation
|
503
|
3
|
1
|
2
|
3
|
100
|
2
|
50
|
25
|
-
|
175
|
|
MechanicalOperation
|
504
|
3
|
0
|
2
|
3
|
100
|
2
|
50
|
-
|
-
|
150
|
|
Heat
Transfer
|
505
|
3
|
1
|
2
|
3
|
100
|
2
|
50
|
25
|
-
|
175
|
|
Mass Transfer – I
|
506
|
3
|
1
|
0
|
3
|
100
|
2
|
-
|
25
|
-
|
50
|
|
TOTAL
|
18
|
4
|
8
|
---
|
600
|
---
|
200
|
100
|
---
|
900
|
|
Total
Contact Hours : 028
|
| Total
Marks
: 900 |
B.E. Chemical Engineering
5th Semester
|
Sr.No.
|
Subject
Name
|
|
501
|
Gen. Chem. Tech.I |
|
502
|
Gen. Chem. Tech.I |
|
503
|
Fluid flow operation |
|
504
|
MechanicalOperation |
|
505
|
Heat Transfer |
|
506
|
Mass Transfer – I |
General
Chemical Technology – I (Semester –V)
|
Name
|
Details
|
|
Teaching Scheme :
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks= 100;
|
|
Practical
/ Drawing :
|
Internal evaluation marks : 20;
External evaluation Marks: 30; Total Marks: 50
|
1. Water conditioning
& Environmental protection : demineralisation,
deionisation, Desalination industrial waste treatment
and pollution.
2. Fuels & Energy : Coal, coal
chemicals, Fuel gases
3. Chlor alkali industries : manufacture
of soda ash, caustic soda chlorine hydrogen and hydrochloric
acid.
4. Cement and glass manufacture.
5. Sulfuric acid manufacture.
6. Electrolytic manufacture of Al and Mg.
7. Pulp and paper industry.
8. Sugar and Starch industry
9. Oil, fats soaps and detergents
10. Nitrogeneous fertilisers.
11. Phosphatic fertilisers
12. Mixed fertilisers
13. 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.
|
| 3. M.Gopala Rao and M.
Sitting, “ Dryden’s Outline of Chemical Technology” 2nd
edition., East-West publications. |
Chemical
Engineering Thermodynamics - I (Semester -V)
|
Name
|
Details
|
|
Teaching
Scheme :
|
L=3; P/D=1; TA=1
|
|
Examination
Scheme:
|
Theory = 3hours;
Marks= 100; Tutorial = 25
|
|
Theory:
|
|
Introduction:
|
Conservation of energy and first law of thermodynamics,
application to steady state flow process, enthalpy, internal
energy, equillibrium state, phase rule, reversible and
irreversible processes, heat capacity and specific heat.
|
|
Properties of pure substances :
|
P V T behaviour, ideal and non ideal gases, different
equations of state for real gases.
|
|
Heat effects :
|
Heat
capacities of gases as a function of temp., of liquids
and solids, heat of vapourisation, heat of fusion, heat
of sublimation etc.
|
|
Second law of thermodynamics :
|
Thermodynamic
temperature scale, ideal gas temp., scale,concept of entropy,entropy
change and irreversibility, third law of thermodynamics.
|
|
Thermodynamic properties of fluids :
|
Mathematical relations among thermodynamic functions,
Maxwells’ relations, interrelations between H,S,U,G,Cp,Cv,
properties of single and two phase systems. Types of thermodynamic
diagrams.
|
|
Thermodynamics of flow processes :
|
Fundamental relations
for flow in pipes, max. velocity in pipe flow, throttling
process, flow through nozzles, single stage and multistage
compressors.
|
|
Refrigeration and liquifaction :
|
Carnot refrigeration
cycle, air refrigeration cycle, absorption refrigeration,
heat pump, choice of refrigeration, liquifaction processes.
|
|
References:
|
1. P. K. Nag ,
'Chemical Engg. Thermodynamics'.
|
|
2. Smith &
Vanness, 'Thermodynamics'.
|
Fluid
Flow Operations (Semester -V)
|
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. Fluid properties and Dimensional
Analysis
2. Fluid statics and its applications
3. Fluid flow phenomena: Types of flow-potential flow,
one dimensional flow, laminar flow, turbulent flow,
Reynolds number, Non-newtonian fluids, nature of tubulence,
eddy viscosity, eddy diffusivity of momentum, flow in
boundary layers, laminar and turbulent boundary layers,
boundary layer thickness, boundary layer separation,
wake formation
4. Basic equation of fluid flow
5. Friction in pipes and channels
6. Flow of compressible fluids and two phase flows.
7. Flow past immersed bodies
8. Fluid flow measurement
9. Pumping of fluids
10. Agitation and mixing of liquids
|
|
References:
|
1. W.L. Mcabe, J.C. Smith &
Peter Harriot, ‘ Unit operations of Chem. Engg.’ 4th
Ed. , MGH, 1985, USA.
|
2. J.M. Coulson, J.F. Richardson,
‘ Chemical Engineering’ 3rd Ed., Peragmon International,
1984, UK.
|
Mechanical
Operation (Semester –V)
|
Name
|
Details
|
|
Teaching Scheme :
|
|
|
Examination
Scheme
|
Theory = 3hours; Marks= 100;
|
|
Practical
/ Drawing :
|
Internal evaluation Marks: 20;
External evaluation Marks: 30; Total Marks: 50
|
1. Solids, characteristics of
solid particles, type of standard screen series.
2. Size reduction & enlargement, crushers, grinders,
disintigraters for coarse, intermediate and fine grinding,
energy and power requirements, law of crushing, work
index, etc.
3. Screening and other separation methods: screen
analysis, estimation of particle size, surface area
and particle population based on screen analysis, ideal
and actual screens, principle of elutriation, flotation,
jigging, electrostatics and magnetic separation processes.
4. Sedimentation, settling velocity, flocculation etc.
5. Fluidization, Dense phase fluidization and boiling
bed, min. fluidization velocity, min. porosity of bed
and bed height, batch and continuous fluidization.
6. Filtration, filter media, filter aids, batch and
continuous filtration, filtration equipments, filter
press, leaf, cartridge, vacuum nauch and rotary drum
filters.
7. Mixing and agitation: equipments, agitation of liquids,
types of impellers, power consumption in agitated vessel
etc.
8. Conveying: mechanical and pneumatic conveying, elevators
etc.
|
|
References:
|
1. WL MacCabe, JC Smith, “Unit
Operations in Chemical Eng.” 4th Ed. And 5th ed., McGraw
Hill Pub.
|
2. Brown et al., “Unit Operations”,
John Wiley Sons.
|
Heat Transfer (Semester
–V)
|
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. Modes of heat transfer:
Fourier conduction equation, General conduction equation
in cartesian, cylindrical and spherical co-ordinates.
2. Heat transfer by convection: Fluids
with and without phase change, free and forced convection,
laminar and turbulent flows heat transfer inside and
outside tubes, concepts of thermal boundry layers, overall
heat transfer coefficients, LMTD, Fouling factors, transfer
units, flow over flat plates with heat transfer, empirical
relations
3. Natural convection: grashoff number,
heat transfer to molten metals.
4. Boiling phenomena: Regimes of boiling
etc.
5. Condensation: Film and drop condensation
etc.
6. Evaporation: Single effect, multi
effect evaporation, forward and backward feed system.
7. Heat exchangers
8. Radiation heat transfer
9. Extended surfaces
|
|
References:
|
1. J. P. Holman, Heat Transfer,
McGraw Hill Publication
|
2. M. N. Ozisic, Heat Transfer
– Basic Approach, McGraw Hill Publication-1985
|
| 3. B. U. Gebhart, Heat
Transfer, McGraw Hill Publication |
|
|
|
