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Department of Chemical Engineering
S.E. Sem III (R2016): Course Outcomes
CHC301 – Applied Mathematics III
Learners will be able to:
CHC301.1 Apply the knowledge of Laplace and Inverse Laplace to evaluate specific
integrals and can solve differential equations by using Laplace transform
CHC301.2 Manipulate matrices and compute Eigen values and Eigen vectors
CHC301.3 Understand basic concepts of statistics, distributions
CHC301.4 Apply different techniques for sampling in engineering problems, Illustrate basic
theory of correlations and regression
CHC301.5
Identify the analytic function, application of harmonic conjugate to get
orthogonal trajectories and analytic function, Plot the image of the curve by a
complex transformation from z-plane to w-plane
CHC302 – Engineering Chemistry I
Learners will be able to:
CHC302.1 Study advances in bonding in different molecules.
CHC302.2 Study chelation and its advantages.
CHC302.3 Study importance of iron compounds for life.
CHC302.4 Study the effect of temperature and time on chemical reactions.
CHC302.5 Become aware of industrially important reactions.
CHC302.6 Become aware of different concepts related to photochemistry.
Department of Chemical Engineering
CHC303 – Fluid Flow Operations
Learners will be able to:
CHC303.1 Understand concept of transport properties, Pascal’s law.
CHC303.2 Carry out Pressure measurement using manometers. Flow measurement using flow
meters.
CHC303.3 Application of Bernoulli’s equation for flow and pressure calculations. Pressure
drop calculations in pipes for compressible and incompressible fluids using
Bernoulli’s theorem.
CHC303.4 Understand Valves, Agitators, pumps selection and power consumption
calculations. Particle settling mechanism.
CHC304 – Chemical Engineering Thermodynamics I
Learners will be able to:
CHC 304.1 Differentiate between reversible and irreversible processes. Identify system and
surroundings.
CHC 304.2 Understand and apply First Law of Thermodynamics to systems
CHC 304.3
Analyse systems using Second Law of Thermodynamics. Understand and apply
concepts fo Gibbs Free Energy, Helmholtz Free Energy to find irreversibility in
process
CHC 304.4 Apply Ideal and Real gas laws to calculate material and thermodynamic
properties of fluid
CHC 304.5 Calculate fugacity and fugacity coefficient
Department of Chemical Engineering
CHC305 – Process Calculations
Learners will be able to:
CHC305.1 Make the conversions for temperature, pressure, energy etc. and Students will learn to
calculate mass and energy flow rates into and out of various process equipments.
CHC305.2 Calculate conversion, selectivity etc. for various reactions with and without recycle.
CHC305.3 Learn to carry out material balance for various units with reaction.
CHC305.4 Learn to carry out energy balance for various units with reaction
CHC305.5 Learn to carry out the material and energy balance of entire flow sheet, find out
various properties of air water mixture from Psychrometric chart
CHC306 – Chemical Technology
Learners will be able to:
CHC306.1 demonstrate various manufacturing processes,
CHC306.2 explain industrial processing and overall performance of any chemical
process
CHC306.3 find out the overall process aspects including yield, waste etc.,
CHC306..4 draw and illustrate the process flow diagram.
Department of Chemical Engineering
CHL301 – Engineering Chemistry I Lab
Learners will be able to:
CHL301.1 Standardize the given unknown solution
CHL301.2 Estimate the given component
CHL301.3 Quantitatively analyse the magnesium content in talcum and purity of aspirin
CHL301.4 Synthesize the derivative of given compound
CHL302 – Chemical Engineering Lab I (FFO)
Learners will be able to:
CHL302.1 Measure Fluid properties which affect flow of fluid.
CHL302.2 Do Pressure measurement using manometers.
CHL302.3 Apply of Bernoulli’s equation for flow and pressure calculations. Pressure drop
calculations in pipes for compressible and incompressible fluids using Bernoulli’s
theorem.
CHL302.4 Valves, Agitators, pumps selection and power consumption calculations.
Department of Chemical Engineering
CHL303 – Chemical Engineering Lab II (Synthesis)
Learners will be able to: synthesize
CHL303 1 Soap and detergent
CHL303 2 Biodiesel , aspirin
CHL303 3 Alum, methyl orange
CHL303 4 Banana ester,
Department of Chemical Engineering
S.E. Sem IV (R2016): Course Outcomes
CHC401 – Applied Mathematics IV
Learners will be able to:
CHC401.1 Find Fourier series expansion, Complex form of Fourier series expansion.
Understand the concept of Fourier Transform and Fourier Integral.
CHC401.2 Solve Partial Differential Equation and its different types
CHC401.3 Solve boundary value Problem using Finite Differences Approximations.
CHC401.4 Apply the method of solving complex integration and computing residues. Use
residues to evaluate various contour integrals
CHC401.5 Understand the basics of optimization using Kuhn-Tucker conditions.
CHC402 – Engineering Chemistry II
Learners will be able to:
CHC402.1 Describe different types of cells and compare cells with transference and without
transference
CHC402.2 Understand the principles of different instrumental techniques and
chromatography
CHC402.3 To solve numerical on solvent extraction and ion exchange
CHC402.4 To acquire knowledge of colloids, emulsions and emulsifying agents in various
fields and recognize the importance of catalysis in various reactions
CHC402.5 Explain the reactions containing compounds with active methylene group and
aromatic character
Department of Chemical Engineering
CHC403 – Chemical Engineering Thermodynamic II
Learners will be able to:
CHC 403.1 Students should be able to calculate the heat of reaction for reactors
CHC 403.2 Students should be able to calculate VLE for ideal and non ideal systems.
CHC 403.3 Students should be able to calculate the equilibrium concentration for reactions at
any condition.
CHC 403.4 Students should be able to calculate the mass and energy flows of refrigerant in
the refrigerator.
CHC 403.5 Students should be able to calculate the thermodynamic and physical properties.
CHC404 – Solid Fluid Mechanical Operations
Learners will be able to:
CHC406.1 Understand the size reduction theory , the use of different equipment’s for size
reduction & to apply knowledge for up gradation of equipment’s which will be
safer in use ,more economical & having production capacity.
CHC406.2 Understand concept of free settling & hindered settling in sedimentation
phenomenon & to apply the knowledge in designing environment friendly
continuous settlers.
CHC406.3 Understand the concept of solid storage, solid mixing solid conveying &to appy
the knowledge for safe handling of bulk materials.
CHC406.4 Understand the concept of flow through packed bed & fluidized bed & it”s
application in chemical industries.
Department of Chemical Engineering
CHC405 – Mechanical Equipment Design
Learners will be able to:
CHC 405.1 To understand the basics for design as per the codes & standards for the mechanical
design of equipment used in the process industry.
CHC 405.2 Selection of material of construction and stress analysis by determining
values of stresses arising out of different loading conditions
CHC 405.2 Design of vessels under external pressure
CHC 405.2 Design of various components of agitators : shaft, blade, flange coupling
CHC406 – Chemical Engineering Economics
Learners will be able to:
CHC406.1 sstudents should be able to basics of economics, Students should be able to
understand cconcepts of demand, supply and elasticity, Students should be able to
understand cconcepts of growth strategy
CHC406.2 Sstudents should be able to calculate interest, annuities, capitalized costs and
ddepreciation
CHC406.3 Sstudents should be able to calculate the total product cost and understand balance
sheet, iiincome statement and calculate different ratios.
CHC406.4 sstudents should be able to calculate the profitability by various methods
Department of Chemical Engineering
S.E. Sem IV (R2016): Course Outcomes
CHL401 – Engineering Chemistry II Lab
Learners will be able to:
CHL401.1 Carry out analysis using instrumental methods
CHL401.2 Estimate the given component
CHL401.3 Identify elements, functional group and physical constant of a given unknown
compound
CHL402 – Chemical Engineering Lab III (SFMO)
Learners will be able to:
CHL402.1 Understand and do analysis of particle size using sieves
CHL402.2 Understand and perform size reduction of solid particles
CHL402.3 Understand flow patterns in different solid-fluid bed configurations
CHL402.4 Understand and use techniques of operations like Mixing, Sedimentation,
Filtration, Elutriation etc.
CHL402.5 Understand and use equipments like cyclone separator, Froth Floatation unit
Department of Chemical Engineering
CHL403 – MED Lab
Learners will be able to:
CHL403.1 Students should be able to draw the figures of different components of pressure vessels.
CHL403.2 Students should be able to draw vessels under external pressure.
CHL403.3 Students should be able to draw vessels under external pressure.
CHL403.4 Students should be able to draw different parts of storage vessels.
CHL403.5 Student should be able to agitator shaft, blade, stuffing box and flange coupling.
Department of Chemical Engineering
T.E. Sem V (R2016): Course Outcomes
CHC501 – Computer Programming and Numerical Methods
Learners will be able to:
CHC501.1 Solve linear algebraic equations.
CHC501.2 Solve non-linear algebraic equations.
CHC501.3 Solve differential equations.
CHC501.4 Solve partial differential and difference equations
CHC502 – Mass Transfer Operations I
Learners will be able to:
CHC502.1 Calculate diffusion coefficient and mass transfer coefficients.
CHC502.2 Know about interphase mass transfer and its calculation.
CHC502.3 Do problems on gas absorption in liquid and design of different absorption
column.
CHC502.4 Know about Humidification Operations, design of cooling towers, various drying
curves and design of various driers.
Department of Chemical Engineering
CHC503 – Heat Transfer Operations
Learners will be able to:
CHC503.1 Students get introduced to basic modes of heat transfer and are able to apply
principles of heat transfer by conduction to solve steady state numerical for
composite solids of different geometries.
CHC503.2 They are able to use various correlations to calculate Heat Transfer Coefficients
in condensation and boiling.
CHC503.3 Students learn fundamentals of radiation, forced convection, natural convection
and extended surfaces and able to calculate heat transfer rate for all cases.
CHC503.4 Students are able to identify various conditions with respect to unsteady state heat
transfer and are able to design double pipe heat exchanger.
CHC504 – Chemical Reactions Engineering I
Learners will be able to:
CHC504.1 Calculate kinetics of various reactions like- Reversible and irreversible,
homogeneous and heterogeneous, single and multiple, temperature dependency of
reactions- various theories.
CHC504.2 Analyse experimental data for batch reactors of Constant and Variable volume
system, determine the order and rate constant of the reactions.
CHC504.3 Design various reactors like batch, PFR, CSTR etc, PFR/CSTR in Series/Parallel,
design for complex reactions.
CHC504.4 Calculate effect of temperature on the equilibrium conversion and the equilibrium
constant, optimum temperature progression, Design of reactors under Adiabatic
and non-adiabatic conditions.
CHC504.5 Calculate kinetics of various reactions like- Reversible and irreversible,
homogeneous and heterogeneous, single and multiple, temperature dependency of
reactions- various theories.
Department of Chemical Engineering
CHC505 – Business Communication and Ethics
Learners will be able to:
CHC505.1
Prepare a project report by assimilating, analysing, organizing and formatting
data in the prescribed format.
CHC505.2
Prepare notice agenda and minutes of a meeting and plan and conduct an
effective meeting
CHC505.3
Participate in group discussions and interviews and write a cover letter and
resume in the latest format
CHC505.4
Apply presentation techniques to deliver power point presentations
CHC505.5
Understand the concept and application of soft skills in real life situations
CHDE501X – Advanced Material Science
Learners will be able to:
CHDE501X.1 To Identify the various advanced [Mettalic/Ceramic/Polymer composite ]materials.
CHDE501X.2 To Understand the properties & application of above
[Mettalic/Ceramic/Polymer composite ] advanced materials
CHDE501X.3 To Know the fabrication & manufacturing methods of above Mettalic
,Ceramic/Polymer composite advanced Materials
CHDE501X.4 To Get the knowledge of different types of Nanotubes/ Nanosensors & their
Applications.
Department of Chemical Engineering
CHL501 – Computer Programming and Numerical Methods Lab
Learners will be able to:
CHL501.1 Solve linear equations
CHL501.2 Solve non-linear equations
CHL501.3 Solve differential equations
CHL501.4 Solve partial differential equations
CHL502 – Chemical Engineering Lab IV (MTO I)
Learners will be able to:
CHL502.1 Calculate diffusion coefficient and mass transfer coefficients.
CHL502.2 Know about interphase mass transfer and its calculation.
CHL502.3 Determine drying characteristics of various materials of industrial importance.
CHL502.4 Cooling towers and absorption column design calculations.
Department of Chemical Engineering
CHL503 – Chemical Engineering Lab V (HTO )
Learners will be able to:
CHL503.1 Calculate rate of heat transfer coefficient for various modes of heat transfer such
as conduction, convection, condensation, radiation
CHL503.2 Implement the basic principles involved in mechanism and calculation of heat
transfer rates.
CHL503.3 Able to demonstrate unsteady state heat transfer process for Newtonian
cooling/heating
CHL503.4 Should be competent to operate typical heat transfer equipment’s used in industry
CHL504 – Chemical Engineering Lab VI (CRE I)
Learners will be able to:
CHL504.1 Calculate Kinetics of a reaction by various methods.
CHL504.2 Calculate conversion in a real reactor.
Department of Chemical Engineering
T.E. Sem VI (R2016): Course Outcomes
CHC601 – Environmental Engineering
Learners will be able to:
CHC601.1 Understand Importance of environmental pollution, such as air, water, solid,
noise. Various pollutants sources, adverse effects, Environmental Legislation
CHC602.2 To understand meteorological aspects air pollutant dispersion. Sampling and
measurement, Control Methods and Equipment:
CHC603.3
To understand classification, sources and effect of water pollutant on human
being and ecology, Sampling, measurement and standards of water quality,
Determination of organic matters: DO, BOD,
COD, TOC. inorganic substances, physical characteristics
CHC601.4
To understand various Waste Water Treatment:
Primary treatment: pre-treatment, settling tanks and their sizing.
Secondary treatment: micro-organisms growth kinetics, aerobic biological
treatment, activated sludge process, evaluation
of bio-kinetic parameters, trickling filters, sludge treatment and disposal. Tertiary
treatment:
CHC602 – Mass Transfer Operations II
Learners will be able to:
CHC602.1 Students should be aware of Vapour Liquid Equilibrium, Azeotropes and
methods of distillation
CHC602.2 Students should be aware of calculation of number of stages for distillation
column by various methods.
CHC602.3 Students should be able to find number of stages for cross current and counter
current extraction, leaching and adsorption process.
CHC602.4 Students should be aware of the types of membrane processes and crystallization
theories and processes.
Department of Chemical Engineering
CHC603 – Transport Phenomena
Learners will be able to:
CHC 603.1 The student should be able to recall and use the fundamental equations of
transport processes.
CHC 603.2 The students should be able to do a shell balance for Momentum, heat and mass
transport
CHC 603.3 The students should be able to get the analytical solutions for the differential
equations that are formed from the shell balance.
CHC 603.4 The students should be able to understand and do friction factor calculations,
velocity calculation for turbulent flow
CHC604 – Chemical Reactions Engineering II
Learners will be able to:
CHC604.1 Determine kinetics and mechanism of various Heterogeneous reactions and
design consideration of reactors used during different operating conditions,
properties of solid catalysts, adsorption theories, general mechanism of solid
catalysed fluid phase reactions and their special cases, intrinsic kinetics and
various cases of adsorption and reaction stage controls.
CHC604.2 Observe operation of packed, fluid bed, slurry and such reactors, product
distribution in multiple and complex reaction, effects of temperature and
instability, strategies for stable operation of reactor, design of fluid-solid catalytic
reactors, including Fluid bed reactors, various models and their specific cases and
design of Non Catalytic reactors, application of fluid bed reactors.
CHC604.3 Analyse reaction with mass transfer, the rate equation pertaining to fast to very
slow reactions and their applications to design for fluid-fluid reactions.
CHC604.4 Understand concept of residence time distribution (RTD), Measurement and
characteristics of RTD, RTD in Ideal batch reactors, Plug flow reactor and CSTR,
various parameter models for RTD analysis.
Department of Chemical Engineering
CHC605 – Plant Engineering and Industrial Safety
Learners will be able to:
CHC605.1 Understand causes, initiating factors of Industrial accidents, Understand
Industrial Hygiene and Ventilation Techniques.
CHC605.2 Calculate Time weighted average concentration of release, estimation of
Vaporization of liquids, To calculate the amount of time required to create
vacuum in a system and to understand flaring and venting systems.
CHC605.3 To do HAZOP and event tree analysis of a given control loop.
CHC605.4 Understand construction and working of various types of Boiler, perform
Enthalpy calculation of steam, calculation of Boiler Efficiency, Percentage of
heat utilized in boiler.
CHC605.5 Understand uses and types of compressors, calculate power requirement of single
stage, multistage air compressors.
CHDE 6023 – Biotechnology
Learners will be able to:
CHDE 6023.1 demonstrate the knowledge of Biotechnologyin in various fields, types &
structure of cells and their metabolic activities.
CHDE 6023.2 know various types of biological polymers.
CHDE 6023.3 know various enzymes and enzyme technology.
CHDE 6023.4 know the application of Biotechnology in health care & genetics, agriculture,
food and beverage industries, chemical industries, environment and energy
sectors.
CHDE 6023.5 understand how biological products are recovered by Dialysis, reverse osmosis,
Ultrafiltration, chromatography and Electrophoresis.
Department of Chemical Engineering
CHDE602X – Computational Fluid Dynamics
Learners will be able to:
CHE602X.1 Formulate and solve finite difference equations.
CHE602X.2 Apply Weighted Residual Methods to solve differential equations.
CHE602X.3 Solve Finite Element Equations for simple applications.
CHE602X.4 Solve problems in Finite Volume Method
CHL601 – Chemical Engineering Lab VII (EE)
Learners will be able to:
CHL601.1 analyse dissolved oxygen content in water
CHL601.2 Measure and analyse chloride content, turbidity
CHL601.3 Measure and analyse COD and BOD
CHL601.4 Measure sound pollution and various inorganic and organic pollutants in water.
Department of Chemical Engineering
CHL602 – Chemical Engineering Lab VI (MTO II)
Learners will be able to:
CHC602.1 Students should be aware of Vapour Liquid Equilibrium, Azeotropes and
methods of distillation
CHC602.2 Students should be aware of calculation of number of stages for distillation
column by various methods.
CHC602.3 Students should be able to find number of stages for cross current and counter
current extraction, leaching and adsorption process.
CHC602.4 Students should be aware of the types of membrane processes and crystallization
theories and processes.
CHL603 – Chemical Engineering Lab IX (CRE II)
Learners will be able to:
CHL603.1 Calculate residence time distribution function for PFR and CSTR
CHL603.2 Calculate dispersion coefficient and dispersion number for PFR and CSTR
CHL603.3 Determine the characteristics of a porous catalyst
CHL603.4 Know about various heterogeneous reactors
Department of Chemical Engineering
B.E. Sem VII: Course Outcomes
CHC701 – Process Equipment Design
Learners will be able to:
CHC701.1
The objective of this course is to acquire basic understanding of design
parameter, complete knowledge of mechanical design procedures for commonly
used process equipment and their attachments (e.g., heat exchangers, evaporators,
tall vessels, high pressure vessels, etc. under internal and external pressure
vessels with various heads and closures including nozzles, openings and
reinforcements, bolts, flanges, gaskets).
CHC701.2 Importance of codes and standards and their applications in complete designing
heat exchangers to be able to design equipment safely.
CHC701.3
Should be able to study documents as PFD, P & ID and use of symbols of various
equipments in PFDs. To be able to produce equipment specification sheets and
equipment drawings. To be able to develop and draw process flow sheets and
plant layouts.
CHC701.4 Determining values of stresses arising out of different loading conditions for
design of tall vessels
CHC702 – Process Engineering
Learners will be able to:
CHC 702.1 Students should be able to understand and recollect the common symbols for
block and Process flow diagram.
CHC 702.2 Students should be able to evolve block diagram and Process Flow diagram for a
given product. Student should be able write and solve mass and energy balance
equation for process flow diagrams.
CHC 702.3 Students should be able to do a process design of heat exchangers, distillation
columns and use Gutherie’s method to cost of various equipment’s.
CHC 702.4 Students should be able to find control loops for distillation column, reactors,
evaporators, heat exchangers and do a HAZOP of the loop.
Department of Chemical Engineering
CHC703 – Process Dynamics and Control
Learners will be able to:
CHC703.1 model dynamical systems, and study their response.
CHC703.2 study dynamic behaviour of process systems.
CHC703.3 study stability of dynamical systems.
CHC703.4 design controllers.
CHE704 – High Performance Leadership
Learners will be able to:
CHE 704.1 learn the types of Leadership theories and strengths & weaknesses of one’s
leadership behavior
CHE 704.2 analyse various ways of leadership development and evaluate how they may be
applied in practice
CHE 704.3 understand how the most successful leaders influence followers through effective
communication
CHE 704.4 improve one’s self leadership skills through effective emotional intelligence
CHE 704.5 apply concepts of leadership and effective communication to individuals,groups
and organizations
CHE705 – Petroleum Refining Technology
Learners will be able to:
CHE705.1 To understand the evaluation study of different types of crude oil obtained
from different reservoirs & deposits on the word.
CHE705.2 To understand the different products obtained from petroleum Refineries and
also the di fferent evaluation techniques of the same
CHE705.3 To understand the different treatment techniques of the petroleum products
CHE705.4 To understand the various cracking processes which are carried out in refineries
Department of Chemical Engineering
CHP705 – Project A
Learners will be able to:
CHP705.1 Application of basic concept.
CHP705.2 Find solution towards chemical engineering problems using software tools/
mathematical techniques.
CHP705.3 Understand importance of conservation of resources, team work and professional
ethics.
CHP705.4 Know how to write technical report and present it. Project management ability
and independent learning ability.
CHS706 – Seminar
Learners will be able to:
CHS706.1 Application of basic concept.
CHS706.2 Find solution towards chemical engineering problems using software tools/
mathematical techniques.
CHS706.3 Understand importance of conservation of resources and professional ethics.
CHS706.4 Know how to write technical report and present it. Project management ability
and independent learning ability.
Department of Chemical Engineering
CHL707 – Chemical Engineering Lab (PED)
Learners will be able to:
CHL707.1 Drawing of different types of shell and Tube Heat exchangers,
CHL707.2 Basic drawing of calendria type evaporators
CHL707.3 Complete drawing of distillation column with trays
CHL707.4 Complete design of high pressure vessels and calculation of stress distribution
and graphical representation.
CHL708 – Chemical Engineering Lab (PDC)
Learners will be able to:
CHL708.1 Develop dynamic models for process systems
CHL708.2 To analyse dynamic behaviour of process systems
CHL708.3 To study stability of process systems
CHL708.4 To design controllers
Department of Chemical Engineering
B.E. Sem VIII: Course Outcomes
CHC801 – Modelling Simulation and Optimization
Learners will be able to:
CHC801.1 Write and solve linear mass and energy balance equations for individual as well
as multiple units.
CHC801.2 Write and solve non-linear mass and energy balance equations for individual as
well as multiple units.
CHC801.3 Carry out sequential and equation oriented simulation of complete flow sheets.
CHC801.4 The student will be able to optimize typical chemical processes.
CHC802 – Project Engineering and Entrepreneurship Management
Learners will be able to:
CO 1 To prepare students for an exciting, challenging and rewarding managerial career.
CO 2 To develop a schedule, the students must establish a Work Breakdown Structure
(WBS) and an Execution Plan for the work
CO 3 Students should be able to determine various benefits of the project to the
individual, project and society.
CO 4 Students should understand how entrepreneurship contributes for economic
growth and social welfare
Department of Chemical Engineering
CHC803 – Environmental Engineering
Learners will be able to:
CHC803.1 Understand Importance of environmental pollution, such as air, water, solid,
noise. Various pollutants sources, adverse effects, Environmental Legislation
CHC803.2 To understand meteorological aspects air pollutant dispersion. Sampling and
measurement, Control Methods and Equipment:
CHC803.3
To understand classification, sources and effect of water pollutant on human
being and ecology, Sampling, measurement and standards of water quality,
Determination of organic matters: DO, BOD,
COD, TOC. inorganic substances, physical characteristics
CHC803.4
To understand various Waste Water Treatment:
Primary treatment: pre-treatment, settling tanks and their sizing.
Secondary treatment: micro-organisms growth kinetics, aerobic biological
treatment, activated sludge process, evaluation of bio-kinetic parameters, trickling
filters, sludge treatment and disposal. Tertiary treatment:
CHE804 – Energy System Design
Learners will be able to:
CHE804.1 Practice energy audit methods and concept.
CHE804.2 Understand how to Energy-integrate the process.
CHE804.3 Understand cogeneration systems.
CHE804.4 Understand waste heat recovery methods.
Department of Chemical Engineering
CHE805 – Biotechnology
Learners will be able to:
CHE805.1 demonstrate the knowledge of Biotechnologyin in various fields, types &
structure of cells and their metabolic activities.
CHE805.2 know various types of biological polymers.
CHE805.3 know various enzymes and enzyme technology.
CHE805.4 know the application of Biotechnology in health care & genetics, agriculture,
food and beverage industries, chemical industries, environment and energy
sectors.
CHE805.5 understand how biological products are recovered by Dialysis, reverse osmosis,
Ultrafiltration, chromatography and Electrophoresis.
CHE805 – Total Quality Management
Learners will be able to:
CHE805.1 Appreciate the importance of quality and its dimensions in striving for
excellence.
CHE805.2 Understand the conscious compromise between cost and quality.
CHE805.3 Develop competency in the selection and use of appropriate quality tools in
various manufacturing and service functions.
CHE805.4 Integrate quality approaches for productivity improvement. Acquire knowledge
base and develop skills for conducting quality audits.
Department of Chemical Engineering
CHP806 – Project B
Learners will be able to:
CHP806.1 Application of basic concept.
CHP806.2 Find solution towards chemical engineering problems using software tools/
mathematical techniques.
CHP806.3 Understand importance of conservation of resources, team work and professional
ethics.
CHP806.4 Know how to write technical report and present it. Project management ability
and independent learning ability.
CHL807 – Chemical Engineering Lab (EE)
Learners will be able to:
CHL807.1 analyse dissolved oxygen content in water
CHL807.2 Measure and analyse chloride content, turbidity
CHL807.3 Measure and analyse COD and BOD
CHL807.4 Measure sound pollution and various inorganic and organic pollutants in water.
CHL808 – Chemical Engineering Lab (MSO)
Learners will be able to:
CHL808.1 Develop linear and non-linear models
CHL808.2 Solve resulting sets of equations.
CHL808.3 Carry out flow sheet analysis.
CHL808.4 Use NLP to optimise processes