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Details syllabus of fourth year ( 7th & 8th
semester )
CEP 411 CORROSION
ENGINEERING
2 Hours/Week, 2
Credits
Corrosion
: general, electrochemical corrosion of metals ,
galvanic cells, corrosion rates (kinetics), types
of corrosion with properties and phenomenon,
oxidation metals. Corrosion Testing:
importance, classification materials and specimens
, surface preparation , measuring and weighing,
exposure techniques, duration, planned interval
tests. Corrosion Prevention : Material
selection, modification of metal, alternate of
environment, design , cathodic and anodic
protection, coatings (metallic ,inorganic ,non
metallic and organic). Corrosion in Industries
: Boiler plant, Double pipe heat exchangers,
Shell and tub heat exchangers, Distillation Column
Books Recommended:
1. Fontana.
G.,
Corrosion Engineering
2. Uligue,
Introduction to Corrosion Engineering and its
prevention
2. Banergy
S. N.,
Corrosion Engineering
CEP 412
PROCESS CONTROL
3 Hours/Week, 3
Credits
Laplace
Transforms,
transfer,
functions for first order systems, physical
examples of first order systems, response of first
order systems in series, higher order systems,
transportation lag. closed loop systems,
controllers and final control/ elements, block
diagrams, closed loop transfer functions,
transient response of simple control systems,
concepts of stability, stability craters, Routh
test for stability.
Frequency response
methods,
control systems design by frequency response,
closed loop frequency by frequency response
methods, Nyquist stability criterion. Controller
mechanism, measuring instruments, transducers and
transmitters. Control of complex processes,
experimental dynamics of complex processes.
theoretical analysis of complex processes.
Books Recommended:
1. Hougen and
Watson, Chemical Process
Principles I & II
2. Levenspiel, Chemical
reaction engineering.
3.George
Stephanopolos, Chemical
process control
4.Donald
R.Coughanowr, Process System
Analysis and Control
CEP 414
Process
Design
3 Hours/Week, 3
Credits
Introduction to
process design, preliminary analysis &
evaluation of processes, overview of flow sheet
synthesis, mass & energy balances, equipment
sizing & costing, economic evaluation, design &
scheduling Of batch processes, analysis with
rigorous process models, unit equation models,
general concept of simulation for process design,
process flowsheet optimization, basic concepts in
process synthesis, heat and power integration,
ideal distillation systems ,heat integrated
distillation processes, geometric techniques for
the synthesis of reactor networks, separating
azeotropic mixtures , optimization approaches to
process synthesis &design, basic concepts for
algorithmic methods, synthesis of heat exchanger
networks, synthesis of distillation sequences,
simultaneous optimization & heat integration,
optimization techniques for reactor network
synthesis, structural optimization of process
flowsheets, process flexibility, optimal design
scheduling for multi product batch plants.
Conceptual Process Synthesis - Systematic
hierarchical synthesis of flowsheets, Structural
layers of a flowsheet. Reactor Network
Synthesis - Reactor type and conditions for
simple reaction systems, Use of attainable
regional diagrams for complex reaction systems.
Separation System Synthesis - Distillation
column sequencing for ideal liquid mixtures.
Separation system structure for non-ideal mixtures
using distillation /residue curves. Heat
Exchanger Network Synthesis using Pinch
Technology - Targets for minimum utilities, area,
total cost. Maximum energy recovery design,
Evolutionary synthesis for minimum number of
exchangers design, Supertargetting, Heat and
power integration, Integration of heat
exchanger network with distillation columns.
Books recommended:
1. Peters and
Timerhaus, Plant Design and
Economics for Chemical Engineers.
2. Douglas,
Conceptual Design of Chemical Process
3. Beigler, L.
T., Systematic
methods for chemical process design
4 Coulson &
Richardson, Chemical Engineering.
Vol-6
.
CEP 415 INDUSTRIAL
ECONOMICS AND MANAGEMENT
2hours/Week, 2
Credits
Interest and
Investment cost:
Simple interest,
compound interest, continuous interest,
applications of different types of interest,
present worth & discount, Annuity, relation
annuity and periodic payment, perpetuities and
capitalized costs.
Cost estimation:
Economic feasibility of project, capital
investments, estimation of capital investment,
cost indices, power factor, cost factors in
capital investment, turn-over ratio, Types of
taxes, insurances and insurance requirements for
manufacturing concern. Depreciation: Types
and methods of determining depreciation,
depletion, evaluation of depreciation methods.
Profitability analysis: GDP, GNP, Rate of
return, payback period, pay out period, discounted
cash flow, net present worth, Alternative
investments, replacements.
Management:
Management
functions, Principles of management, Production
management: Concept, scope and functions of
production management, Production planning and
control, continuous and intermittent products,
Functions & scope of quality control,
responsibilities of quality, Inspection, Zero
defects. Marketing management: Concept, evolution,
functions & importance of marketing, marketing
mix. Financial management: Evolution, objectives &
functions of financial management, financial
analysis & control, Break-even analysis and profit
planning, capital budgeting.
Motivation:
Needs,
theories of motivation (Maslow’s, Herzberg’s
McGregor’s theories)
Optimizing
techniques:
Linear programming (Simplex and graphical methods)
Books recommended:
1. Peters and
Timerhaus, : Plant Design and
Economics for Chemical Engineers.
2. Aurora, :
Industrial and Production management.
CEP416 MATHEMATICAL MODELING IN CHEMICAL
ENGINEERING PROCESSES
2 Hours/Week,
2Credits
Introduction.,
classification of mathematical models, summary of
model building processes, fundamental laws,
fitting function of empirical data, factorial
experimental designs & regression analysis,
optimization methods, solution techniques for
models, application to the problems: mass
transfer, heat transfer, chemical reactor design,
mathematical modeling for dynamic and static
behaviour of chemical processes.
Books recommended:
1. T.F, Edgar, D.M.
Himmelblau, Optimization of
Chemical Processes.
2. J. Miller,
Statistics for Advanced Models.
3.D.D.Joshi,
Linear Estimation & Design Of Experiments.
4.R,B.Bird, W.E,
Stewart, Transport
Phenomena.
5.G. Stephanopolas,
Chemical
Process Control.
6.Luyben W. L.,
Process Modeling, Simulation & Control For
Chemical Engineers,
CEP 417 CHEMICAL
REACTION ENGINEERING SESSIONAL
3Hours/Week, 1.5
Credits
Laboratory classes
based on Chemical Reaction Engineering Courses
CEP 418 PROJECT
DESIGN
4 Hours/Week, 2
Credits
Students should
design a chemical plant (INCLUDES ALL TYPE OF
EQUIPMENT) independently based on the course no.
CEP 414.
CEP 419 INPLANT
TRAINING
1.5 Credits
Industrial visits
and training.
CEP 420
TRANSPORT
PHENOMENA
3 Hours/Week, 3
Credits
Viscosity
and the Mechanism of Momentum Transport,
Newton’s Law of Viscosity, Non-Newtonian Fluids,
Pressure and Temperature Dependence of Viscosity,
Theory of Viscosity of Gases at low Density,
Theory of Viscosity of liquids. velocity
Distributions in laminar flow , Shell Momentum
Balances: Boundary Condition, Flow of a Falling
Fill, Flow through a Circular Tube, Flow through
an Annulus ,Adjacent Flow of Two Immiscible Flow ,
Creeping Flow Around a Solid Sphere, The
Equations of Change for Isothermal Systems.
The Equation of Continuity, The Equation of
Motion, The Equation of Mechanical Energy, The
Equation of Change in Curvilinear Coordinates, Use
of the equations of change to set Up Steady flow
Problems, The equations of change for
Incompressible Non-Newtonian Flow, Dimensional
Analysis of the Equations of Change Velocity
Distributions with More Than One Independent
Variable Unsteady Viscous Flow, Steady Viscous
Flow With Two Nonvanishing Velocity Components:
The stream Function, Steady two-dimensional
Potential Flow Boundary-Layer Theory, Energy
Transport. Thermal Conductivity and the
Mechanism of Energy Transport Fourier’s Law of
Heat Conduction, Temperature and Pressure
Dependence of Thermal Conductivity in Gases and
Liquids, Theory of Thermal Conductivity of Gases
at Low Density, theory of thermal conductivity of
liquids, thermal conductivity of solids.
Temperature Distributions in solids and in Laminar
Flow: shell energy balances boundary
conditions, heat condition with an electrical heat
source, heat conduction with a nuclear heat
source, heat conduction with a viscous heat
source, heat conduction through composite walls:
addition of resistance, heat conduction in a
cooling fin. The equations of change for
nonisothermal systems: the equation of energy,
the energy equation in curvilinear coordinates,
the equations of motion for forced and free
convection in nonisothermal flow, summary of the
equations of change, use of the equations of
change to set up steady-state heat transfer
problems. Temperature distributions with more
than one independent variable: unsteady heat
conduction in solids, steady heat conduction in
laminar flow of a viscous fluid, steady
two-dimensional potential flow of heat in solids,
boundary layer theory.
Book Recommended
1. Bird. R, .B,.
:Transport Phenomena,
Wiley Inter Science Singapore
CEP 421
ENVIRONMENTAL ENGINEERING
3 Hours/Week, 3
Credits
Pollution of the
environment:
a) Air pollution: composition and evaluation of
the atmosphere; Earth’s radiation balance;
particles, ions and radicals in the atmosphere,
chemical and photochemical reactions, depletion of
the ozone layer, green house effect. Air
pollutants and their effects. Water pollution:
water resources. the hydrologic cycle,
complexation in natural water and waste water,
micro organisms-catalysts of aquatic chemical
reaction, eutrofication, water pollutants
inorganic, organic sediments, radioactive
materials. Water pollution control processes:
Study of physical and biological processes
employed for pollution control, removal of
suspended, colloidal and dissolved phases of
pollution. Industrial wastes: Waste water
treatment, Study of unit operation and processes
,sludge handling and disposal effects, disposal of
waste waters in ground water s travel of
pollutants through soil, removal of nutrients and
pollutants by soil interaction Solid wastes,
sources, municipal refuse, industrial solid
wastes, contamination by basic organic chemicals
and toxic metals, comparative treatment of
incineration, chemical treatment, solidification
encapsulation and land-fill. Environmental
problems in
Bangladesh:
environmental degradation from industries.
factories, agricultural fields and domestic wastes
and disposal, weather change, water supply and
sanitation legislation in Bangladesh as applied to
poisonous and special wastes.
Books Recommended:
1. W. Strauss,
Air pollution.
2. A.S.Stoker,
Air and Water pollution
3. Bailey and
Clark, Chemistry of the
Environment.
4. J.N. Duffus,
Environmental Toxicology.
CEP 422 NATURAL
GAS AND PETROLEUM RESERVOIR ENGINEERING.
3 Hours/Week, 3
Credits
Natural Gas
Technology and Earth Sciences: Branches of
Petroleum Industry. Sources of Information for
natural gas engineering and its applications.
Geology and earth sciences: Earth
sciences-Historical geology, Sedimentation
process, Petroleum reservoirs, Origin of
petroleum. Earth temperatures & pressure, Earth
temperatures, Earth pressures. Petroleum : Natural
gas, LP gas, Condensate, & Crude oil.
Properties of rocks: Types of rocks. Porosity,
Permeability: Measurement of permeability.
Drilling and completion of wells: Processing
in drilling, Stimulation of well productivity, Gas
fracturing, Acidizing operations, Well logging,
Open hole logging, Cased hole logs. FLOW IN
RESERVOIR &ADJACENT AQUIFER: Pressure drop
from reservoir to wellbore -A simplified steady
state approach. Basic fluid flow equations-General
flow equation in dimensionless forms, Boundary
conditions. Partial penetrated wells,
Superposition principle, Water influx at gas
reservoir Edge - Constant terminal flow rate
case, Constant terminal pressure case, Practical
considerations, Continuation of materials balance
with movement equations, The moving boundary
problem. GAS WELL-TESTING: Deliverability
tests- Back pressure test, Isochronal test,
Modified isochronal test, Inverse productivity
index. Test for determining reservoir
parameters-drawdown test, multi-Rate test,
Two-Rate test, Build up test, Determination of
equalized reservoir pressures, Type-curve method.
RESERVOIR ENGINEERING APPLIED TO GAS,
GAS/CONDENSATE & GAS/OIL FIELDS: Solubility &
shrinkage (PVT) curves, Predicting solubility &
formation volume factors (FVF), Oil & gas
reserves- volumetric method, Material balances,
Recoverable gas. Variations in behavior, Mechanism
of oil recovery from reservoirs, Oil recovery
predictions- Gas/ Condensate reservoirs,
Processing Condensate well Fluids, Vapor liquid
equilibria applied to reservoirs, Recovery of
revaporized condensate in gas storage.
Books Recommended:
1. Katz D. L. et
al., Natural Gas Engineering (production &
storage), McGraw-Hill, Singapore
CEP 423 POLYMERS
IN APPLICATION:
3 Hours/Week, 3
Credits
Commercial
polymers:
Polymerization techniques, properties, and
application of polyethylene, polypropylene,
polyvinyl chloride, polystyrene, polyamide,
polyesters, UF-resin, MF-resin, PF-resin,
polyurethanes, epoxy resin, polycarbonates,
silicon polymer. Natural rubbers: properties of
rubber, latex, preservation of latex, rubber
plants, and rubber vulcanization. Synthetic
rubbers: Buna S, Buna N, Neoprene rubber,
Thiokol, Butyl rubber, urethane rubber.
Polymer blends:
Definition and classification of polymer blends,
thermodynamics of polymer blends, spinodal and
bimodal curve, application of polymer blends.
Polymer
Composites:
Introduction,
fiber reinforced composite, predicting properties
of fiber reinforced composite, characteristics of
fiber reinforced composite, mfg. of fiber and
composite Glass fiber reinforced plastics.
Polymer alloys
CEP 427* ADVANCED
CHEMICAL ENGINEERING SESSIONAL
1.5 credits, 3 hr/
week
Various
types of Industrial project design.
CEP 428* ADVANCED
POLYMER SC. AND ENGG SESSIONAL
1.5 credits, 3 hr/
week
Various
types of Industrial project design such as
Industrial Polymer Reactor and Process Design.
CEP 429* THESIS
3 credits
CEP 431* Project
3 credits
CEP 430 ORAL
1.0credit
ELECTIVES
(Courses would be
offered as per availability of respective
teachers)
CEP 432 PETROLEUM
REFINERY ENGINEERING
2 Hours/Week, 2
Credits
Origin Formation
and Compositon of Petroleum:
origin and formation of petroleum ,reserves and
deposits of world ,composition of petroleum.
Petroleum Processing Data: evaluation of
petroleum ,thermal properties of petroleum,
fractions , important product properties and test
methods. Fractionation of Petroleum
:dehydration and desalting of crudes ,heating of
crude-pipe still heaters, distillation of
petroleum, blending of gasoline. Treatment
Techniques: fraction-impurities ,treatment of
gasoline, treatment of kerosene, treatment of
lubes, wax and purification. Thermal and
Catalytical Process: cracking, catalytic
cracking, catalytic reforming, naphtha cracking,
cooking, hydrogen processes, alkylation processes
isomerisation processes polymer gasolines.
Asphalt Technology :source of asphalt , air
blowing of bitumen, upgradation of heavy , crudes.
Book Reference.
1. B.K. Bhaskara
Rao Modern Petroleum
Refining Process.
2. G.N. Sarkar.
Petroleum Refining
CEP 433 CHEMICAL ENGINEERING PRINCIPLES IN PAPER
TECHNOLOGY
2 Hours/Week,
2 Credits
Principles of
paper making technology - Application of Chemical
Engineering Principles to Pulp and Paper industry;
Wood - Selection, types, comparison with other raw
materials. Pulping - Process, including mechanical
and Kraft pulping, bleaching, soda cycle for
effluents
Paper Machine -
Principles of forming paper, steam drying and its
effects. Coating and Finishing - Different coating
principles, blade, rod metering etc. and
supercalendering. Effluent Treatment - How the
different waste water streams from each of these
operations is treated.
References:
1. Shreves
Chemical Process Industry, George T. Austin (V Edn.)
1997, McGraw Hill
2. Paper Basics by
David Saltman, Van Nostrand, 1978.
CEP 434 INTRODUCTION TO COMPUTER CONTROL OF
PROCESSES
2 Hours/Week, 2
Credits
Introduction to
Hardware Elements - Analog to digital and digital
to analog converters, sample and hold
circuit. Introduction to distributed digital
control system architecture. Digital Signal
Conditioning - Sampling of continuous systems,
Shannon's sampling theorem, Practical
guidelines for selection of sampling period,
Signal reconstruction with sample and hold,
Digital filters. z-Transforms -
z-transforms, Properties of z-transforms, Inverse
z-transforms, Solution of difference equation
using z-transforms.
Pulse Transfer
Function - Development of pulse transfer function
from Laplace transfer function, Development
of linear discrete state space model from
nonlinear first principles model,
Development of pulse transfer function from
discrete state space model. System
Identification - Identification of system
parameters from input-output data,
Statistical interpretation of least squares,
Recursive least square estimation,
Selection of
perturbation signal for model identification.
Closed Loop
Transfer Function - development of closed loop
transfer function,
Effect of
disturbances on closed loop. Stability Analysis -
derivation of stability criteria for transfer
function and state space models, Jury's stability
test, Controllability and observability.
Classical Control Algorithms - Velocity form of
PID controller, Dalhin's controller, State and
output deadbeat controller, Vogel-edgar
controller, Morari-Zafiriou algorithm, Internal
model controller.
Modern Control
Algorithms - Regulator and state observer design
using pole placement (Ackermann's formulae),
Separation principle.
Introduction to
model predictive control and adaptive control
schemes.
References:
1. E. Seborg, J.F.
Edgar and D.A. Mellichamp, "Process
Dynamics & Control",
John Wiley 1989.
2. K.J. Astron and
B. Wittenmark, "Computer
Controlled Systems", Prentice - Hall, 1994.
CEP435 RENEWABLE ENERGY
2 Hours/Week, 2
Credits
Potential for
renewable energy sources, energy conservation,
Solar Energy - thermal and photoelectrical - Ocean
thermal energy sources - Geothermal energy
utilization - Wind energy - Bio-gas principles,
reactors. Hydrogen source of energy, Solar
and Chemical production of hydrogen, Metal
Hydrides, Microhydel
systems, Hybrid
systems, Heat pump applications in process
engineering.
References:
1. J. Twidell and
T. Weir, Renewable energy sources, Cambridge
University Press,
1986.
2. S.P. Sukhatme,
Solar energy, 2nd Ed., Tata McGraw Hill, 1996.
3. T. Ohta, Solar
- hydrogen energy system, Pergamon Press, 1979.
CEP 436 ADVANCED MOMENTUM TRANSFER
2 Hours/Week, 2
Credits
Reynolds transport
theorem, Conservation equations for mass,
momentum, energy and a passive scalar. Some exact
solutions to Navier-Stokes equations, `Creeping
flow, Drag, Boundary layer theory.
Flow separation. Laminar flow, Transition to
turbulence, Turbulent flow, Reynolds stresses,
Eddy viscosity, mixing length theory, Flow
over a flat plate, Universal velocity profile.
Flow through
conduits, Roughness, Empirical correlations for
friction factor in straight pipes, Pressure losses
due to pipe fittings, Pipes in series and in
parallel. Non-Newtonian fluids, Constitutive
equations, Viscoelasticity. Applications,
Flow through porous media, Fluidizations,
Multi-phase flow.
References:
1. R.B. Bird, W.E. Stewart and E.N. Lightfoot,
"Transport Phenomena", Wiley International
Edition, 1960
CEP437 POLYMER KINETIC THEORY
2 Hours/Week, 2
Credits
Flow Phenomena in
Polymeric Liquids.
The chemical
nature of polymeric liquids; Non-Newtonian
viscosity, Normal stress. effects, other elastic
effects; Material functions for Polymeric liquids,
shear and shear free flows. Basic Concepts
from Probability Theory; Events and probabilities;
Random variables; Expectations and moments; Joint
distributions and independence; Gaussian random
variables; General discussion of the random walk ;
Fokker- Planck equations
References :
1. R.B. Bird, C.F.
Curtiss, R.C. Armstrong and O. Hassager, Dynamics
of
polymeric liquids,
Volume 2: Kinetic theory, 2nd Ed., John Wiley
CEE 405
ENVIRONMENTAL MANAGEMENT AND AUDITING
2 Hours/Week, 2
Credits
CEP 438 INDUSTRIAL
LECTURES
2 Hours/Week, 2
Credits
CEP 439 HAZARD
ASSESSMENT AND MITIGATION IN CHEMICAL PROCESS
INDUSTRIES
2 Hours/Week, 2
Credits
Hazards and Safety
in Chemical Industries - Introduction to risk
management, Principles and issues in risk
analysis, Acts and regulations. Hazard Management
- Quantitative risk assessment, Hazard
identification, Hazard and operability studies.
Hazard Analysis - Event tree and fault tree
analysis frequency analysis,
Consequence
analysis. Data sources and data selection.
Risk criteria and
cost benefit analysis, Safety audit and safety
regulations.
Elements of
emergency planning and preparation of disaster
management plan,
Case studies of
chemical disasters.
References:
1. F. Lees, "Loss
Prevention in the Process Industries", Butterworth
Heinman,
1995.
2. J.J. Mewis,
H.J. Pasman and E.E. Rademacker - Eds., "Loss
prevention and
Safety
Promotion in the Processing Industries, Proc. Of
8th International
Symposium",
Antwerp, Belgium, Elsevier, 1995.
3. W. Hallenback
and K.M. Cunnishem, "Quantitative Risk Assessment
for
Environmental and Occupational Health", Lewis
Pub., 1986.
CEP 440
PRINCIPLES OF CATALYSIS
2 Hours/Week, 2
Credits
Catalysis in
Solutions:
Introduction, acid-base, catalysis in the gas
phase, catalysis in dilute aqueous solution
general and specific acid and base catalysis,
catalysis in concentrated strong acid solutions,
catalysis by bases, stepwise and concerted
reactions, catalysis by metal ions, hydrocarbon
conversion. Catalysis by Polymers: the
nature of polymers, attachment of catalytic groups
to polymer supports, catalysis in polymer gels,
adsorption and the kinetics of polymer-catalyzed
reactions, interactions of catalytic groups, the
role of the support, bifunctional and
multifunctional catalysis. Catalysis on
Surfaces: Introduction, adsorption, adsorption
isotherms, structure of adsorbed species on single
crystal metal surfaces, adsorption on complex
surfaces, functionalied surfaces, olefin
polymerization catalysis on titanium trichloride
surfaces, catalysis on metal surfaces, catalysis
on metal oxide surfaces, catalysis by supported
metals, catalysis by metal sulphides
CEP 101 PROCESS
TECHNOLOGY (For IPE)
2 hours / week, 2
credit
Pulp and Paper
Industries:
Raw materials, mfg. of different types of pulp
paper boards, black lacquer recovery, deinking of
waste paper, pulp and paper industries in
Bangladesh. Soap and Detergent Industries:
Raw materials, mfg. of different types of soap,
recovery of the glycerin, classification of the
detergents, industrial processing for the alkyl
aryl sulphonates (AAS), environmental pollution by
detergents. Biodegradability of detergents.
Introduction of chemical fertilizer:
Nitrogenous fertilizer : Raw materials
of ammonia production of synthesis gas in ammonia
plants, technology of urea manufacturing; Process
used in Urea industries of Bangladesh . Cement
industries: Composition, properties and uses
different types of cements, manufacture of cement
by different methods, setting and hardening of
cement, testing of cement. Lubricants:
Various types of lubricants, Production of
lubricants, Properties of Various types of
lubricants.
Books Recommended:
1. G.N Pandey,
A Text Book of Chemical
Technology Vol. I and II
2. N. Austin
Chemical Process
Industries.
4. Anderson and
Winzet, Introduction to Chemical Engineering
5. Riegl’s, Industrial
Chemistry
6. B. K. Sharma,
Industrial Chemistry
7. S.S. Dara, A text book of
Engineering Chemistry.
CEP 301 COMPOSITE MATERIALS
2 cr, 2 hr/week
Introduction:
The natural composite wood, Jute and Glass Fibers.
Modification of Natural Fiber, Jute-polymer
composite, fabrication of composite. Properties
of composite: Particulate-Reinforced composite
Materials, Dispersion-Strengthened composite, True
particulate composite, Fiber-reinforced
composites, Predicting properties of
fiber-reinforced composite, Characteristics of
fiber-Reinforced composites, Manufacturing fiber
and composites, Fiber reinforced systems, Laminar
composite materials. Thermoplastics composite
materials: matrix resins, Reinforced fibers,
interfaces and interphases; application. Future
development: new composites, design
strategies, process technology, resource
managements, and added function. Thermal and
photo-degradation behavior of glass fiber.
Book Recommended:
1.
F. N. Cogswell, “Thermoplastic
Aromatic Polymer Composites”
2.
Donald. R.
Askeland, “The Science &
Engineering of Materials”
3.
Lawrence H. Van.
Vlack, “Elements of Material Science
and Engineering”
4.
George S.
Springer, “Envirinmental
Effects on composite Materials, Vol-2”
CEP 401 ELEMENTS
OF CHEMICAL ENGINEERING AND TECHNIQUES OF
ENVIRONMENTAL ANALYSES (for CEE)
2 Hours/Week ,2
Credits
Mechanical
separation; gravity settlers, impingement
separators; centrifugal separators and scrubbers.
Crushing and grinding : solid handling machinery,
Fluid moving machinery, ejectors and vacuum
systems, pressure relieving devices, Mixing and
agitation, Crystallization, drying and
evaporation. Scope of chemical engineering,
Principles of chemical engineering calculations,
system of units, basic concepts of dimensional
analysis, process variables, basis of calculation
, conversion of mass and energy material balance,
overall component balance, recycle and bypass,
simple reactive systems and combustion reactions,
Energy balance, forms of energy and first law of
thermodynamics, thermodynamics data and tables,
energy balances on open closed systems.
Application of mass and energy balance to real
process, Measurement of process variables; fluid
static's and manometer, temperature measurement
and flow measurement.
1. Introduction to
instrumental analysis; introduction to analytical
spectrometry; absorption laws; spectral
interfaces,
2. UV-VIS
spectroscopy; introduction, electronic
transitions, instrumentation, qualitative and
quantitative analysis.
3. Atomic
spectroscopy : (a) Frame emission spectroscopy.
(b) Atomic absorption spectroscopy. (c)
Inductively coupled plasma emission spectroscopy.
4. X- ray
spectroscopy : Introduction, general theory and
instrumentation. X-ray absorption and emission
methods. X-ray diffraction methods; X-ray flume
scheme.
5. Neutron
activation analysis: Anionic stripping voltametry.
6. Chromatography
: Principles and classification of chromatographic
techniques; paper chromatography TLC; column
chromatography; Gas chromatography, high
performance liquid chromatography.
Books Recommended:
1.Geankopolise- Unit Operation
2.Mc Cabe and Smith, Unit
Operation of Chemical Engineering
3. Faoust,
A. S., Principles of
Unit Operations.
4. Coulson and
Rechardson Chemical Engineering
5. B. Christian,
Analytical
chemistry.
CEP 402
ENVIRONMENTAL ANALYSIS (FOR CEE)
2 Hours/Week, 1
Credit
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