st.joseph’s college of engineering department of chemical...
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St.JOSEPH’S COLLEGE OF ENGINEERING
Department of Chemical Engineering
List of CO'S of all the programmes R2013
Semester I
HS6151 Technical English - I
Course
Outcomes STATEMENT
C101.1 Speak clearly, confidently, comprehensibly, and communicate with one or many listeners
using appropriate communicative strategies.
C101.2 Write cohesively and coherently and flawlessly avoiding grammatical errors, using a wide
vocabulary range, organizing their ideas logically on a topic.
C101.3 Read different genres of texts adopting various reading strategies.
C101.4 Listen/view and comprehend different spoken discourses/excerpts in different accents
C101.5 Identify topics and formulate questions for productive inquiry
MA6151 Mathematics - I
Course Outcomes STATEMENT
C102.1 The students will have a clear idea of matrix algebra pertaining eigen values and eigen
vectors in addition dealing with quadratic forms.
C102.2
The students will learn infinite series and their convergence and acquire the knowledge
of with limitations of using infinite series approximations for solutions arising in
mathematical modelling.
C102.3 Understand and characterize phenomena which evolve around circle of curvature and
envelope.
C102.4 Students will have the idea of extension of a function of a one variable to several
variables. Multivariable functions of real variables arise inevitable in engineering.
C102.5 The student will be exposed to double and triple integration so that they can handle
integrals of higher order which are applied in engineering field.
PH6151 Engineering Physics - I
Course
Outcomes STATEMENT
C103.1 Able to understand the different structures of crystalline solids like SC, BCC ,FCC, HCP,
NaCl, ZnS, Diamond and the various types of defects in crystalline solids.
C103.2
Able to understand the concept of stress, strain and types of modulii, factors affecting
elasticity, bending of beam, depression of a cantilever, young’s modulus and I-shape
girders. To understand the basics of thermal conduction, linear flow of heat through a rod,
flow through a rubber.
C103.3 Able to understand the concept of wave nature and apply in electron microscope like SEM
and TEM.
C103.4
Able to understand the production , properties and detection of ultrasonic waves, measure
the velocity of ultrasonic waves using acoustic grating , applied techniques in material
testing by Non- destructive methods like pulse – echo technique using transmissions and
reflection modes. To apply the reflective properties of ultrasonic waves in the medical field
for sonograms and A, B, C Scan display.
C103.5
Able to understand the concept, properties of lasers, working of different types of lasers like
He- Ne, CO2, Nd-YAG and Semiconductor lasers. Apply the properties of lasers in industry
for welding, heat treatment, and holography and in medicine for diagnosis and therapy. Able
to understand the principle and propagation of light (Lasers) in optical fibres, the various
types of optical fibres and the loss mechanisms in optical fibres, fabrication of optical fibres.
Apply the characteristics of laser and fibre in fibre optic communication system and sensors,
endoscope.
CY6151 Engineering Chemistry - I
Course
Outcomes STATEMENT
C104.1
Able to understand about types of polymerization and its mechanism along with
polymers of Nylon 66 , epoxy resins and plastics, properties of polymers and techniques
of polymerisation.
C104.2
Able to understand the concept of terminology of thermodynamics, entropy change for
reversible and irreversible process and phase transitions, clausius inequality, free energy
and work function, Gibbs – Helmholtz equation, Maxwell relations , vant hoff isotherm
and isochore.
C104.3 Able to understand the concept of laws of photochemistry , photo physical process and
photochemical process, electromagnetic spectrum, principle and instrumentation of UV
& IR spectroscopy
C104.4 Able to understand the concept of phase rule and its components, one component and
two component system, alloys and its types.
C104.5 Able to understand the synthesis of nanomaterials, nanoclusters, nanorods, nanowires
and nanotubes.
GE6151 Computer Programming
Course
Outcomes STATEMENT
C105.1
Understand the basics of digital computer and the number systems. To define problem
statements and derive solutions in non-programming ways including Flowchart and
Pseudo code.
C105.2 Understand the structure of C program and various control structures associated with C
language.
C105.3 Understand the basics of arrays and their effective usage, the purpose of strings and
various string operations
C105.4 Understand the concept and importance of functions and pointers.
C105.5 Understand the user defined data types like structure, union and their application and
introduction to preprocessor directives
GE6152 Engineering Graphics
Course
Outcomes STATEMENT
C106.1 To understand the fundamentals and standards of Engineering graphics
C106.2 To perform freehand sketching of basic geometrical constructions and multiple views of objects
C106.3 To understand the concept of orthographic projections of lines and plane surfaces
C106.4 To draw the projections of section of solids and development of surfaces
C106.5 To visualize and to project isometric and perspective sections of simple solids
Semester II
HS6251 Technical English - II
Course
Outcomes STATEMENT
C110.1 Speak convincingly, express their opinions clearly, initiate a discussion, negotiate, and
argue using appropriate communicative strategies.
C110.2 Write effectively and persuasively and produce different types of writing such as
narration, description, exposition and argument as well as creative, critical, analytical
and evaluative writing.
C110.3 Read different genres of texts, infer implied meanings and critically analyse and evaluate
them for ideas as well as for method of presentation.
C110.4 Listen/view and comprehend different spoken excerpts critically and infer unspoken and
implied meanings.
C110.5 Identify topics and formulate questions for productive inquiry
MA6251 Mathematics - II
Course
Outcomes STATEMENT
C111.1 The students were imbibed with techniques in solving ordinary differential equations that
model most of the engineering problems.
C111.2
The students were acquainted with the concepts of vector calculus-like Gradient, Divergence,
Curl, Directional derivative, Irrotational vector and Solenoidal vector. The course gives an
understanding of Vector integration, needed for problems in all engineering disciplines.
C111.3 To make the students to appreciate the purpose of using transforms to create new domain in
which it is easier to handle the problem that is being investigated.
C111.4 To develop an understanding of the standard techniques of complex variable and mapping so
as to enable the student to apply them with confidence, in application areas such as heat
conduction, elasticity, fluid dynamics and flow of electric current .
C111.5 The student will be exposed to the concept of Cauchy’s integral theorem, Taylor and Laurent
expansions, Singular points, Application of residue theorem to evaluate complex integrals.
PH6251 Engineering Physics - II
Course
Outcomes STATEMENT
C112.1 Speak convincingly, express their opinions clearly, initiate a discussion, negotiate,
and argue using appropriate communicative strategies.
C112.2 Write effectively and persuasively and produce different types of writing such as
narration, description, exposition and argument as well as creative, critical,
analytical and evaluative writing.
C112.3 Read different genres of texts, infer implied meanings and critically analyse and
evaluate them for ideas as well as for method of presentation.
C112.4 Listen/view and comprehend different spoken excerpts critically and infer unspoken
and implied meanings.
C112.5 Identify topics and formulate questions for productive inquiry
CY6251 Engineering Chemistry - II
Course
Outcomes STATEMENT
C113.1 Able to understand about the boiler feed water, scale deposits in boilers, sludge formation
in boilers, boiler corrosion, caustic embrittlement ,priming and foaming, internal and
external treatment of water and desalination process
C113.2
Able to understand the concept of Electrochemical cell, origin of electrode potential,
electrochemical series and its significance, Nernst equation, corrosion and its types,
prevention of corrosion – sacrificial anode method, impressed current method, paints
,electroplating and electrolysis plating
C113.3 Able to understand the concept of nuclear energy, nuclear fission and fusion, nuclear
reactor and its types, storage devices like solar cells ,wind energy and batteries.
C113.4 Able to understand the concept of abrasives and its types, refractories, properties of
refractories, preparation and properties of cement and glass.
C113.5 Able to understand the concept of classification of fuels, analysis of coal, manufacture of
metallurgical coke, manufacture of synthetic petrol, fractional distillation of petroleum,
preparation and properties of natural gas, compressed natural and flue gas analysis.
GE6252 Basic Electrical and Electronics Engineering
Course
Outcomes STATEMENT
C114.1 To explain the basic theorems used in Electrical circuits and the different
components
C114.2 To explain the function of electrical machines
C114.3 To explain the fundamentals of semiconductor and applications
C114.4 To explain the principles of digital electronics
C114.5 To impart knowledge of communication
GE6253 Engineering Mechanics
Course
Outcomes STATEMENT
C115.1 Ability to explain the differential principles applies to solve engineering problems
dealing with force, displacement, velocity and acceleration.
C115.2 Ability to explain the Equilibrium of Rigid Bodies
C115.3 Ability to analyse the forces in any structures
C115.4 Ability to solve rigid body subjected to dynamic forces
C115.5 Ability to explain the Friction and Elements of Rigid Body Dynamics
Semester III
CH6301-ORGANIC CHEMISTRY
C203.1 Basics of Organic Reaction Mechanism C203.2 Organic reactions in Carbohydrates
C203.3 Synthesis of various organic compounds C203.4 Biomolecule amino acids and proteins C203.5 Preparation of Drugs and dyes .
CH6302-MECHANICS OF SOLIDS
C204.1 Through understanding of the fundamental concepts of Stress, Strain and deformation of solids with application
to bars and thin cylinders. Also stress due to thermal stress and impact load. C204.2 Analyseand design the determinate beams by calculating shear force, Bending Moments variation and stresses
due to bending. C204.3 Determine the slope and deflection of determinate beams for various types of loadings
C204.4 Analyse and design shafts to transmit required power and also springs for its maximum energy storage
capacities. C204.5 Calculate stress due to Torsion and also analyseeulers theory using various methods.
CH6303–PHYSICAL CHEMISTRY
C205.1 Properties of ideal and real mixtures
C205.2 Principles of phase equilibrium
C205.3 The concepts of activity coefficient models.
C205.4 Rate constants and the concept of equilibria data.
C205.5 Processes involving power production, refrigeration, and liquefaction
CH6304–FLUID MECHANICS
C206.1 To gain engineering knowledge on types of fluids based on Newton’s law of viscosity.
C206.2 To educate the students about hydrostatic pressure distribution, manometry and law of
conservation of mass.
C206.3 To score engineering knowledge on analyzing the system using dimensional analysis and
scale-up.
C206.4 To be conversant with types of fluid flow and pressure drop involved with it, major losses
and minor losses and flow through fluidized and packed beds.
C206.5 Flow measurement techniques.
MA6351-TRANSFORMS OF PARTIAL DIFFERENTIAL EQUATIONS
C201.1 To introduce Fourier series analysis which is central to many applications in
engineering apart from its use in solving boundary value problems.
C201.2 To acquaint the student with Fourier transform techniques used in wide variety of
situations.
C201.3 To introduce the effective mathematical tools for the solutions of partial differential
equations that model several physical processes and to develop Ztransform techniques
for discrete time systems.
EE6351-PRINCIPLE OF ELECTRICAL AND ELECTRONICS
E202.1 Ability to Understand electric circuits and working principles of electrical machine
E202.2 Understand the concepts of various electronic devices
E202.3 Choose appropriate instruments for electrical measurement for a specific application
E202.4 Analyze the Working principles of Electrical Machines
E202.5 Various electronic devices and measuring instruments
Semester IV
CH6401 CHEMICAL PROCESS INDUSTRIES I
C211.1 To understand the process in chloro alkali industries
C211.2 To learn the manufacturing process in Sulphur and Sulphuric Acid Industries
C211.3 To learn the manufacturing process in Silicate Industries
C211.4 To understand the process in nitrogen and phosphorous industries
C211.5 To understand the process in fertilizer industries
CH6402–CHEMICAL ENGINEERING THERMODYNAMICS-I
C212.1 Students will be able to understand the Basic concepts of Thermodynamics and basic
terminology in thermodynamics
C212.2 Students will be able to understand anddetermine changes in the properties of gases, fluids
and solids undergoing changes in temperature, pressure and volume.
C212.3 To understand the concept on first law and second law of thermodynamics and its
applications
C212.4 To learn the knowledge on thermodynamics potentials and thermodynamics diagram.
C212.5 To understand the concept on compression fluids and application on power plant and
engine.
CH6403–CHEMICAL PROCESS CALCULATIONS
C213.1 To familiarize the students basic concepts of units, dimensions and other technical terms, and
enable them to do unit conversions.
C213.2 To introduce the concepts of material balances by taking industrial experience and train in
mathematical computations with respect to bypass, purging and recycle operations.
C213.3 To introduce the concept of ideal and non ideal systems and related problems and training the students
C213.4 Effectively bring in the concepts of energy balances and computations in various types of
energy balance problems related to chemical industries.
C213.5 To bring in the latest advancements in design and modelling, related process simulators and
problems on non ideal reactors.
CH6404 –MECHANICAL OPERATIONS
C214.1 To gain engineering knowledge on particle size, shape and its characteristics including various
methods of screen analysis, equipments and its effectiveness.
C214.2 To educate the students about various laws of crushing and suitable design equipments.
C214.3 To score engineering knowledge on settling charcteristics, its types and design of continuous
thickners using batch sedimentation.
C214.4 To be conversant with types of filtration, design of various filtration equipments and optium
cycle of operation.
C214.5 To make the students understand the importance of mixing and agitation of different mixtures,
storage and transportation of solids.
GE6351- ENVIRONMENTAL SCIENCE AND ENGINEERING
C215.1 To obtain knowledge about environment, ecosystems and biodiversity.
C215.2 To take control measures of environmental pollution.
C215.3 To gain knowledge about natural resources and energy sources.
C215.4 To find and implement scientific, technological, economic and political solutions to
environmental problems
C215.5 To understand the impact of environment on human population.
MA6468 -PROBABILITY AND STATISTICS
C210.1 The course gives exposure to random variables and well-founded knowledge of standard
distributions which can describe real life phenomena.
C210.2 The course paves ideas to handle situations involving more than one random variable and
functions of random variables.
C210.3
Students will gain the knowledge on Large Samples and Samples. These concepts are very
useful in biological, economical and social experiments and all kinds of generalizations based
on information about a smaller sample and larger samples. Apply the appropriate test in the
problems related with sampling.
C210.4
ANOVA statistical significance result is independent of constant bias and scaling errors as well
as the units used in expressing observations. In the era of mechanical calculation it was
common to subtract a constant from all observations (when equivalent to dropping leading
digits) to simplify data entry.
C210 .5 Learn the concept of the Control charts to apply in the field of quality assessment, Production
processes, to monitor process stability and control of the manufacturing product.
Semester V
MA6459 NUMERICAL METHODS
C301.1 To teach the students about find the roots of algebraic and transcendental equation using Newton’s
and Iterative methods, solve system of equation using Gaussian elimination ,Gauss Jordon and
Guass seidal methods, find dominating Eigen values by power method and Jacobi methods. where
analytical methods fail to give solution
C301.2 To teach the students about interpolation and extrapolation of a function from a given set of tabular
values by Newton’s forward formula and Newton’s backward formula .Find the intermediate values
of unequal intervals by Newton’s divided difference and Lagrange’s interpolation formula. Find the
third degree polynomial employed to connect each pair of data by cubic spline . To introduce
interpolation in which it will be useful in construction approximate polynomial to represent the
data and to find the intermediate values
C301.3 To teach the students about compute the values of first derivative and second derivative for some
values of x from given data (xi,yi), evaluate the value of definite integrals from set of values (xi
,yi)
by means of Trapezoidal rule and Simpson one third rule and Quadrature formula. Numerical
differentiation and integration find application when the function in the analytical form is too
complicated. C301.4
To teach the students about find the solution of first order and second order differential equation by
Tailor’s series formula, solve the first and second order differential equation by Fourth order Runge-
Kutta method, find the solution of first order PDE by Milne’s and Adam’s predictor and corrector
methods. it will be useful in attempting any engineering problems.
C301.5 To make the student to understand find the finite difference solution of second order ordinary
differential equation, find the one dimensional heat flow equation by explicit method and implicit
method, find the solution of one dimensional wave equation and two dimensional Laplace and
poison equations.
Motivate the study of numerical methods through engineering applications.
Approximate solutions are normally sufficient for engineering applications, allowing the use of
approximate solution by numerical methods.
CH6501-INSTRUMENTAL METHODS OF ANALYSIS
C302.1 To Learn About Introduction of Spectrometry
C302.2 To Understand concept of molecular spectroscopy
C302.3 To learn about magnetic resonance spectroscopy and mass spectroscopy
C302.4 To Understand separation methods
C302.5 To learn about electro analysis and surface microscopy
CH6502 CHEMICAL PROCESS INDUSTRIES II
C303.1 To gain engineering knowledge on various aspects of production engineering and the
practical methods of production of wood extracts, sugar and starch derivatives.
C303.2 To understand the practical methods of production of vegetable oils, fats, alcohols and
detergents. C303.3 To understand the practical methods of production of petroleum and petrochemical industries.
C303.4 To understand the practical methods of production of rubbers and polymers.
C303.5 To gain engineering knowledge on various aspects of production engineering of synthetic fibres
and film industries.
CH6503–CHEMICAL ENGINEERING THERMODYNAMICS II
C304.1 Properties of ideal and real mixtures
C304.2 Principles of phase equilibrium
C304.3 The concepts of activity coefficient models.
C304.4 Rate constants and the concept of equilibria data.
C304.5 Processes involving power production, refrigeration, and liquefaction
CH6504 -HEAT TRANSFER
C305.1 To learn about heat conduction, Thermal conductivity measurement
C305.2 To understand Concepts of heat transfer by convection.
C305.3 To learn Heat transfer to boiling liquids & condensing vapours
C305.4 To understand Theory of evaporation - single effect and multiple effect evaporation
C305.5 To learn about design of heat exchanger
CH6505 – MASS TRANSFER I
C306.1 Principles of Diffusion
C306.2 Principles of interphase mass transfer
C306.3 Principles of Humidification
C306.4 Principles of Drying
C306.5 Principles of crystallization
Semester VI
CH6601 ENERGY ENGINEERING
C310.1 Energy and Energy Scenario
C310.2 Various Conventional Sources of Energy
C310.3 Various Non-Conventional Sources of Energy
C310.4 Various Energy Alternatives from Biomass
C310.5 Various energy conservation methodologies, energy audit, energy management etc.
CH 6602 CHEMICAL REACTION ENGINEERING-I
C311.1 Learn rate equation, theories of rate and prediction, performance equation for batch reactors and
C311.2 Learn design of continuous reactors, combined reactors and recycle reactors
C311.3 To design of reactors for multiple reactions, factors affecting choice, selectivity and yield.
C311.4 To learn heat effects on rate, Non isothermal, adiabatic reactors and optimum temperature progression
C311.5 To learn Non ideality, Non ideal reactors, factors causing non-ideality.
CH6603–MASS TRANSFER II
C312.1 Principles of Absorption
C312.2 Principles of Distillation
C312.3 Principles of Liquid Liquid Extraction
C312.4 Principles of Leaching
C312.5 Principles of Adsorption and Ion Exchange & Membrane Separation Process
CH6604 MATERIALS SCIENCE AND TECHNOLOGY
C313.1
To teach the general criteria of selection of material in process industries
C313.2 To educate the students about the mechanical behavior of material
C313.3 To teach the students about phase diagram and phase transformation
C313.4
To educate the students about ferrous, non-ferrous metals and composites
C313.5
To make the student to understand nanotechnology and nanomaterials
CH6605 - PROCESS INSTUMENTATION DYNAMICS AND CONTROL
C314.1 Measurements And Classification Of Process Control Instruments,
C314.2 Laplace Transformation, Dynamics of First Order Systems And Second Order Systems
C314.3 Closed Loop Control Systems, Servo and Regulator Problems, Transfer Functions for
Controllers and Final Control Element C314.4 Frequency response of closed loop systems, stability criterion and tuning of controller
settings.
C314.5 Various Advanced control systems
CH 6001 – FOOD TECHNOLOGY
C315.1 understand the general aspects of food industry, world food needs and Indian situation.
C315.2 learn the constituents of food, analyse the quality and nutritive aspects, understand the food
additives , deteriorative factors and their control
C315.3 understand the preliminary processing methods, conversion and preservation operations
C315.4 learn different food preservation methods, to design processing equipments for food
industries
C315.5 learn the production and utilization of food products
Semester VII
CH6701 Chemical Reaction Engineering II
C401.1 To learn about solid catalysis, surface area and its pore volume distribution.
C401.2 To understand Heterogeneous Reactors and its rate equation.
C401.3 To learn Gas – solid catalytic reactors with its effectiveness factor
C401.4 To understand Gas – Solid Non-Catalytic reactors and its Kinetics.
C401.5 To learn about Gas-liquid reactions, Absorption combined with chemical reactions
CH6702 Transport Phenomena
C402.1 To enable the students to understand different types of fluids, rheological models, conservation laws,
theories of transport properties of gases and liquids.
C402.2 To enable the students to acquire knowledge in the field General method of shell balance approach to
transfer problems; Choosing the shape of the shell; most common boundary conditions; momentum
flux and velocity distribution for flow of Newtonian and non-Newtonian fluids
C402.3 To enable the students to acquire knowledge in the field of equations of change and their
applications
C402.4 To enable the students to acquire knowledge in the field turbulents phenomena; phenomenological
relations for transfer fluxes; time smoothed equations of change and their applications for turbulent
flow
C402.5 To enable the students to acquire knowledge in the field of development and applications of
analogies between momentum and mass transfer
CH6703 Chemical Process Plant Safety
C403.1 Introduction to safety programmes C403.2 Principles of industrial safety
C403.3 Safety performance C403.4 Introduction to accidents C403.5 Health hazards and legal aspects
CH6704 Process Economics
C404.1 Principles Of Management and Organisation
C404.2 Investment Costs And Cost Estimation
C404.3 Profitability, Investment Alternative and Replacement
C404.4 Annual Reports And Analysis Of Performance
C404.5 Economic Balance
CH6705 Biochemical Engineering
C405.1 Industrial Biochemical Processes
C405.2 Enzymes and enzyme kinetics
C405.3 Microbial kinetics
C405.4 Transport in microbial systems
C405.5 Bioreactors
CH6009 Fertilizer Technology
C406.1 To enable the students to learn methods of production of nitrogenous fertilizer-ammonium sulphate,
nitrate, urea and calcium ammonium nitrate; ammonium chloride and their methods of production,
characteristics and specifications, storage and handling
C406.2 To enable the students to learn Raw materials; phosphate rock, sulphur; pyrites etc., processes for
the production of sulphuric and phosphoric acids; phosphates fertilizers - ground rock phosphate;
bone meal-single superphosphate, triple superphosphate, triple superphosphate, thermal
phosphates and their methods of production, characteristics and specifications
C406.3 To enable the students to methods of production of potassium chloride, potassium schoenite,
their characteristics and specifications
C406.4 To enable the students to methods of production of ammonium phosphate, sulphate diammonium
phosphate, nitrophosphates, urea, ammonium phosphate, mono-ammonium phosphate and various
grades of NPK fertilizers produced in the country
C406.5 To enable the students to mixed fertilizers and granulated mixtures; biofertilisers, nutrients,
secondary nutrients and micro nutrients; fluid fertilizers, controlled release fertilizers,
controlled release fertilizers
SEMESTER- VIII
CH6013 Petroleum Technology
C410.1 To bring in the engineering knowledge on petroleum refinery products, crude distillation aspects
and various coking and thermal process.
C410.2 To make the students conversant with various petro chemical conversion processes and
hydroprocessing operations.
C410.3 To make the students understand various petroleum products obtaining by reforming and
isomerization.
C410.4 To bring thorough engineering knowledge on lubricating oil blending stocks and petrochemical
feed stocks.
C410.5 To train the students in project management and finance with cost evaluation
principles and economic evaluation of the petroleum refineries.
CH6018 Process Plant Utilities
C411.1 Students will be able to understand the Basic concepts of Thermodynamics and basic terminology
in thermodynamics
C411.2 Students will be able to understand and determine changes in the properties of gases, fluids and
solids undergoing changes in temperature, pressure and volume.
C411.3 To understand the concept on first law and second law of thermodynamics and its applications C411.4 To learn the knowledge on thermodynamics potentials and thermodynamics diagram. C411.5 To understand the concept on compression fluids and application on power plant and engine.