B.Tech in Mechanical Engineering
PEOs
PEO1: Our graduates will have successful careers in the mechanical and allied industries by
demonstrating their skills in facing the challenges forced by industrial and research sectors.
PEO2: Our graduates can work in teams discharging social responsibilities as engineers
following ethical practices.
PEO3: Our graduates shall engage in entrepreneurial and professional society activities to
meet the needs of the society.
PEO4: Our graduates will continue to expand their technical competence by developing their
knowledge, skills and engaging themselves in learning activities throughout their life.
PSOs
POS1: Our graduates will be able to apply knowledge of design, thermal, materials and
manufacturing to solve complex problems in mechanical engineering and allied areas.
PSO2: Our graduates will create and implement new ideas on product/process design and
development with the help of modern CAD/CAM/CAE tools while ensuring best engineering
practices
Course Outcomes (COs)
B.Tech in Mechanical Engineering 2019-20 batch
Semester
Subject Code
Subject Name Course Outcomes (COs)
I SEM 14MA11 Engineering Mathematics -I
Upon completion of the course, the student will be able to
CO1 : Employ physical or chemical laws to model the engineering dynamical systems
CO2 : Identify the solution of first and higher order ordinary differential equations
CO3 : Apply Laplace Transforms to solve ordinary differential equations
CO4 : Analyze the system of differential equations with the help of Eigen values and Eigen
I SEM 14PH12 Engineering Physics
CO1: Relate the knowledge of modern physics to the properties of advanced materials such as conductors, dielectrics, lasers and optical fibers etc
CO2: Interpret the physical laws to study the materials properties
CO3: Apply the problem solving ability to identify and construct the applications of the advanced materials in new technologies
I SEM 14EE13 Basics of Electrical Engineering
CO1: Analyze the AC and DC circuits
CO2: Demonstrate the ability to investigate various techniques of earthing & control of lamps
CO3: Demonstrate the working condition, concepts of Rotating machines and transformers
CO4: Distinguish between conventional and non- conventional sources & their applications
CO5: Explain the measurement of power & improvement of Power factor in electrical circuits
I SEM 14CE14 Basics of Civil Engineering
CO1: Apply Civil Engineering, its scope of study, Knowledge about Roads, Bridges and Dams
CO2: Discuss the action of Forces, Moments and other loads on systems of rigid bodies
CO3: Evaluate the reactive forces and the effects that develop as a result of the external loads
CO4: Plan to pursue studies in allied courses in vector mechanics
I SEM 14ED15 Engineering Drawing
CO1: Explain the principles of orthographic projections and projection of points in all quadrants.
CO2: Plot the basic views related to projection of straight lines and planes in first quadrant.
CO3: Plot the projections of simple solids like prisms, pyramids, cylinder and cone.
CO4: Demonstrate the sectional views of solids like cube, prisms, pyramids, cylinders & cones and extend its lateral surfaces.
CO5: Plot the isometric projection of simple solids, truncated prisms, pyramids, cone and cylinders .
CO6: Generate orthographic and isometric views through CAD software
I SEM 14EWL16 Engineering Workshop
CO1: Explain the basic concepts of various manufacturing methods.
CO2: Demonstrate the basic concepts of CNC machining and additive manufacturing process.
CO3: Produce different joints in fitting.
CO4: Design different joints in roofs, doors, windows and furniture.
CO5: Explain the concepts of moulding and casting process.
CO6: Demonstrate various welding processes and know about its applications.
ISEM 14PHL17 Engineering Physics Lab
CO1: Show the working knowledge of optical, mechanical, electrical and electronics experiments
CO2: Explain the procedure to conduct the experiments
CO3: Experiment and correlate with the standard values
ISEM 14MA21 Engineering Mathematics - II
CO1: Interpret the nature of the data and analyze
CO2: Apply the basic concepts of probabi1ity, random variables and its distributions
CO3: Apply least square principle to construct a specific relation for the given bivariate data
CO4: Analyze sampling distributions, estimate the confidence intervals and test the hypothesis
II SEM 14CH22 Engineering Chemistry
CO1: Analyze & design of energy storage devices, Understand the operating principles and the reaction mechanisms of batteries and fuel cells, Able to apply this knowledge to the analysis and design of batteries
CO2: Explain the concepts of corrosion & Apply their knowledge for protection of different metals from corrosion
CO3: Solve energy crisis, knocking in IC engine and emission of toxic pollutants using alternate energy sources (Solar energy, biodiesel and power alcohol)
CO4: Interpret the replacement of conventional materials (metals) by polymers for domestic and industrial applications
CO5: Discuss different types of pollutions and analysis of pollutants, Ability to know and to understand the various process of removing the hardness of water, to enhance the thinking capabilities in the modern trends in conservation of environment
II SEM 14ME24 Mechanical Engineering Systems
CO1: Explain the working principles of Hydraulic and Steam turbines
CO2: Explain the concepts of machine tool operations and different manufacturing process
CO3: Discuss the basic concepts of Refrigeration and working of IC Engines.
CO4: Explain the working principles of various power transmission elements
II SEM 14CS25 Problem Solving Through Programming
CO1: Discuss the components of computing systems, Develop algorithms for mathematical and scientific problems
CO2: Select data types and structures to solve mathematical and scientific problem
CO3: Develop modular programs using control structures
CO4: Write programs to solve real world problems using programming features
II SEM 14EG26 English CO1: Discuss the information and the associated context from listening to presentations, situation conversation and telephone messages in english
CO2: Use prononunciation, stress and intonation correctly in speech
CO3: Use english in situations including role play, situational conversations, presentation and group discussions.
CO4: Analyze passages on science and technology topics.
II SEM 14CHL27 Engineering Chemistry Lab
CO1: Analyze the physical principle involved in the various instruments, also relate the principle to new application
CO2: Illustrate different types of titrations in volumetric analysis
CO3: Experiment based on theoretical fundamentals
II SEM 14CSL28 Problem Solving Through Programming Lab
CO1: Explain the fundamentals of C programming and the concept of algorithm.
CO2: Choose the loops and decision making statements to solve the problem.
CO3: Implement different Operations on arrays and functions.
CO4: Discuss pointers, structures and unions to solve the given problem.
III SEM 14MA31 Engineering Mathematics - III
CO1: Discuss the concept of mean value theorem and partial differentiation.
CO2: Apply method of partial differentiation to functional series and extreme values of function.
CO3: Write given function in terms of sine and cosine terms in Fourier series and also to get knowledge in Fourier transforms.
CO4: Solve the partial differential equation using differential analytical techniques.
III SEM 14EEE32T42
Ecology and Engineering Environment
CO1: Explain the basic concepts of ecological facets of environment.
CO2: Identify different Components of ecosystem and their interactions and interrelationships
CO3: Summarize the impacts of pollution on climate change.
CO4: Use knowledge on Environmental issues and environmental protection acts.
III SEM 14ME33 Material Science and Metallurgy
CO1: Discuss the basic structure and plastic deformation of materials
CO2: Explain the phase diagrams and phenomenon of fatigue and creep
CO3: Classify the various processes of heat treatment and micrstructure of engineering alloys
CO4: Summarize the properties and applications of magnetic materials
CO5: Describe the properties and applications of nano materials
CO6: Select suitable material for various engineering applications.
III SEM 14ME34 Applied Mechanics CO1: Discuss the basic concepts of stress, strain and deformations
CO2: Analyse equilibrium of beams using free body diagram, Shear force and bending moment diagrams under different types of loading
CO3: Calculate the deflection of beams and torional stresses under different types of loading
CO4: Test Principal stresses and strains
CO5: Apply of Euler's theory and Rankine's theory to different types of columns
CO6: Formulate the strength for different loading members
III SEM 14ME35 Fluid Mechanics CO1: Explain the various fluid properties and characteristics
CO2: Determine the hydro static forces and kinematic characteristics of fluids
CO3: Apply Euler's equaiton & Bernoulli’s Equation for Flow measurement
CO4: Formulate different equations based on the complex hydraulic flow applications
CO5: Apply the mathematical knowledge to validate the flow properties by dimensional analaysis
CO6: Analyze problems related to calculation of forces in fluid structure interaction
III SEM 14ME36 Thermodynamics CO1: Understand the fundamental concept of thermodynamics
CO2: Apply the first law of thermodynamics towards flow and non flow process
CO3: Analyze the performance of energy systems using second law of thermodynamics
CO4: Modify the properties of pure substance,
CO5: Formulate thermodynamic relations for Mechanical Engineering applications
CO6: Demonstrate the working principle of thermodynamic systems
III SEM 14MEL37 Fluid Mechanics
Lab CO1: Use coefficient of friction and minor losses in Pipe Flow
CO2: Examine the impact of jet on Vanes
CO3: Experiment with flow measurement devices s and V notch
CO4: Assess the performance of turbines
CO5: Assess the performance of pumps and air blowers
CO6: Apply mathematical knowledge to predict the properties and characteristics of a fluid.
III SEM 14MEL38 Material Testing Lab
CO1: Use specimen for various metallographic examinations
CO2: Demonstrate nondestruting testing
CO3: Estimate impact load of various materials
CO4: Examine the tensile, compression, torsion and bending stresses
CO5: Determine hardness of different materials
CO6: Asses the mechanical strength of different materials
IV SEM
14MA41 Engineering Mathematics - IV
CO1: Solve linear and non-linear system of equations through numerical techniques.
CO2: Compute solutions for ordinary differential equations through numerical techniques.
CO3: Analyze Engineering problems using complex variable techniques.
CO4: Apply Vector differentiation to solve engineering problems.
IV SEM
14ME42 Kinematics of Machines
CO1: Explain the fundamental concepts of machines, mechanisms and related terminologies.
CO2: Analyze kinematics of various linkage mechanisms.
CO3: Assess the working principles of power elements like Gears, belt and Chain drives.
CO4: Prove the gears and gear trains design parmeters.
CO5: Design mechanisms of basic cam systems for different machinery.
IV SEM
14ME43 Manufacturing Processes and Systems - I
CO1: Discuss the Concepts of Manufacturing Process and basic principles of foundry practices.
CO2: Illustrate the various special casting processes, their Advantages, Limitations and Applications
CO3: Compare different metal joining processes.
CO4: list the various hot working processes.
CO5: Explain various Cold working processes.
CO6: Apply the different manufacturing technology to make engineering components.
IV SEM
14ME44 Design of Machine Elements-I
CO1: Demonstrate the ability to apply the concepts of design process, material selection and theories of failures to design machine components.
CO2: Describe the concepts of stress concentration and multidimensional fatigue failure criteria in the design of mechanical components
CO3: Design power transmission shafts, Keys , Couplings, Cotter Joints and Knuckle Joints.
CO4: Analyze the riveted and welded joints under eccentric loading.
CO5: Design the power screws
CO6: Use with standards, safety, reliability, importance of dimensional parameters and manufacturing aspects in mechanical design.
IV SEM
14ME45 Machine Drawing - I CO1: Explain the concepts of orthographic, sectional views, limits, fits and tolerances pertaining to machine components.
CO2: Draw the assembly view of riveted joints.
CO3: Illustrate the drawing of screw threads.
CO4: Construct the assembly view of different types of couplings
CO5: Construct the assembly drawings of various mechanical components in sketcher mode.
CO6: Interpret assembly drawings of various machine components with moderate complexity.
IV SEM
14ME46 Applied Thermodynamics
CO1: Apply thermodynamic concepts to different air standard cycles and kinetics of combustion
CO2: Determine the performance of gas turbines and vapour power cycles.
CO3: Explain the concept of refrigeration systems and I.C. Engines.
CO4: Evaluate the performance of reciprocating air compressors.
CO5: Interpret the principles of psychrometry in analyzing refrigeration systems.
CO6: Demonstrate knowledge of the operating characteristics of common internal combustion engines
IV SEM
14MEL47 Foundry Lab CO1: Illustrate Compression, Shear and tensile tests on Universal Sand Testing Machine.
CO2: Determine the Core Hardness and Mould Hardness of sand specimens.
CO3: Determine moulding sand properties by varying additives
CO4: Demonstrate different foundry tools and equipments
CO5: Design a mould for the required applications
CO6: Experiment with the practical knowledge required in the casting process.
IV SEM
14MEL48 Energy Conversion Lab
CO1: Perform experiments to determine the properties of fuels and oils.
CO2: Understand the complete operation of 2 stroke and 4 stroke IC Engines.
CO3: Describe the effect of various operating variables on engine performance
CO4: Determine the energy flow pattern through the I C Engine
CO5: Discuss the effects of emission formation of IC engines, its effects and the legislation standards.
CO6: Demonstrate the competency towards preventive maintenance of IC engines.
V SEM 14ME51 Precision Engineering
CO1: Understand the fundamental knowledge on metrology techniques and measurement techniques.
CO2: Experimnet with knowledge of linear and angular measurements, Screw thread, gear measurement and Comparators.
CO3: Employ the measurement systems and measurement of Force, Torque and Pressure
CO4: Use knowledge of measurement of Temperature and strain.
CO5: Describe the applications of different measuring machines
CO6: Identify suitable metrological methods for measuring the components.
V SEM 14ME52 Turbo Machinery CO1: Explain basic concepts and energy transfer in turbomachines
CO2: Perform the Turbomachines analysis and preliminary design of Pelton turbine
CO3: Evaluate the performance characteristics of Francis, Kaplan and Steam turbines.
CO4: Discuss the operation and effect of cavitation in centifugal pumps
CO5: Analyze the performance of compressors.
CO6: Select the suitable turbomachines for specific applications based on their performance characteristics.
V SEM 14ME53 Manufacturing Process and Systems – II
CO1: Explain the concept and basic mechanics of metal cutting
CO2: Explain the features and applications of special purpose lathes, Reciprocating machine tools and Drilling Machines.
CO3: Discuss the construction and specification of milling and grinding machines.
CO4: Demonstrate the different types of super finishing process
CO5: Explain the principles and applications of Non-Traditional machining process.
CO6: Choose different machine tools in order to produce components having different shapes and sizes.
V SEM 14ME54 Dynamics of Machines
CO1: Demonstrate static and dynamic analysis of mechanisms
CO2: Explain the issues related to balancing of rotating masses and working of flywheels.
CO3: Analyze the balancing of reciprocating masses and gyroscopes.
CO4: Illustrate various kinematics of cam mechanism.
CO5: Determine sensitiveness, isochronism, effort and power of porter and hartnell governors.
CO6: Demonstrate the ability to design a mechanism as per needs and specifications
V SEM 14ME55 Design of Machine Elements – II
CO1: Design procedures for curved beams and springs.
CO2: Apply BIS standards and catalogues in design and selection of belts, ropes and spur gears for requirement.
CO3: Evaluate the design concepts of bevel and worm gears
CO4: Design the geometry of brakes and clutches.
CO5: Recommend the suitable bearings for machine elements
CO6: Design completely a mechanical system integrating machine elements.
V SEM 14MEL56 Machine Shop Lab CO1: Illustrate the various operations such as taper and eccentric turning, knurling and chamfering in lathe.
CO2: Demonstrate Internal and external thread cutting operations in lathe.
CO3: Estimate machining time for drilling, Reaming and Boring process.
CO4: Create keyways, slots and grooves using shaper machine.
CO5: Experiment gear tooth cutting using milling machine
CO6: Identify the appropriate production process and machine by following precautions and safety norms in machine shop.
V SEM 14DM57 Disaster Mitigation CO1: Explore a wide range of mitigation and preparedness activities for natural hazards.
CO2: Describe various measures for mitigating electrical hazards.
CO3: Recognize tools and techniques for Cyber crime and fire safety mitigation planning.
CO4: Explain the concepts of waste management techniques and Transportation disaster.
V SEM 14MEL58 Precision Engineering Lab
CO1: Examine calibration test on pressure gauge, thermocouple, LVDT, load cell and micrometer.
CO2: Measure angle using Sine Center/ Sine Bar/ Bevel Protractor, alignment using Autocollimator/ Roller set.
CO3: Demonstrate measurements using Optical Projector,Tool maker microscope and Optical flats.
CO4: Examine the gear tooth profile using gear tooth vernier and gear tooth micrometer.
CO5: Determine Screw thread parameters using 2-Wire or 3-Wire method.
CO6: Locate appropriate measuring instrument according to a specific requirement.
VI SEM
14ME61 Finite Element Method
CO1: Explain the concepts behind formulation methods in FEM.
CO2: Explain the concepts of displacement models, shape function using natural, Cartesian coordinates.
CO3: Formulate elemental stiffness matrix and load vector for 2D and 3D problems.
CO4: Develop steady state heat transfer formulation for conduction and convection problems.
CO5: Construct suitable boundary conditions to a global equation for bars, trusses, beams, circular shafts and heat transfer problems.
CO6: Apply finite element methods to real world problems and obtain solutions.
VI SEM
14ME62 Heat and Mass Transfer
CO1: Explain the basic modes of heat transfer and real time applications of solid medium heat transfer.
CO2: Calculate the performance of thermal systems related to Transient Heat Conduction and Forced Convection.
CO3: Explain the phenomena of Free Convection, boiling, condensation and Mass transfer.
CO4: Demonstrate the knowledge of design skills of heat exchangers.
CO5: Examine heat transfer configurations for radiation between objects with simple geometries.
CO6: Explain Heat Transfer theory and application in Industrial and day to day life.
VI SEM
14ME63 Composite Materials
CO1: Explain the basic concepts, Micro and Macro mechanics of composites.
CO2: Identify the common manufacturing techniques of composites and the properties of metal matrix composites.
CO3: Discuss the fabrication process of metal matrix composites.
CO4: Discuss the characteristics and properties of polymer matrix composites.
CO5: Explain the characteristics amd properties of nano composites.
CO6: Acquire the knowledge for the analysis, design, optimization and test simulation of advanced composite structures and components.
VI SEM
14ME64 CAD / CAM CO1: Discuss fundamental knowledge of CAD/CAM.
CO2: Describe the Computer Integrated Manufacturing systems and CNC,DNC technologies.
CO3: Create CNC manual part program and generate tool path.
CO4: Discuss the concepts of modern manufacturing systems
CO5: Examine the configuration, programming concepts and applications of robots.
CO6: Recognize the modern trends in Manufacturing like additive manufacturing, Industry 4.0 leading to smart manufacturing.
VI SEM
14ME651 Heating, Ventilation, Refrigeration and
CO1: Explain the principles and practice of thermal comfort and ventilation.
Air-Conditioning (HVRAC)
CO2: Compute the cooling loads for an air conditioning systems by using the principles of psychometry.
CO3: Discuss the applications of air conditioning systems and basic concepts of Refrigeration.
CO4: Analyze the vapour compression cycle and interpret the usage of refrigerants.
CO5: Explain the theory and concepts of cryogenics
CO6: Design guidelines and standards for energy efficient buildings and building energy systems.
VI SEM
14ME652 Quality Assurance and Reliability Engineering
CO1: Analyze for improving the process quality by using statistical process control charts.
CO2: Apply different sampling plans in a manufacturing environment to improve quality.
CO3: Illustrate the basic concepts and techniques of modern reliability engineering tools.
CO4: Asses reliability of components by using reliability models for different configurations
CO5: Explain the use of redundancy to improve reliability.
CO6: Demonstrate the approaches and techniques to assess and improve process and product quality and reliability.
VI SEM
14ME653 Hydraulics and Pneumatic Systems
CO1: Recall various fluid properties and identify the appropriate pump and actuators for particular application.
CO2: Select various control valves such as pressure control, flow control, direction control valves and use them in hydraulic and pneumatic circuit development.
CO3: Identify maintenance problems associated with fluid power system and basic concepts of Pneumatic controls
CO4: Discuss the various Pneumatic Control Valves
CO5: Design an appropriate hydraulic or pneumatic circuit or combination circuit like electro-hydraulics, electro-pneumatics for a given application.
CO6: Design and analyze problems relating to Pneumatic and Hydraulic control systems and components.
VI SEM
14ME654 Solid Mechanics CO1: Explain the concepts of stress and strain analysis
CO2: Discuss the 2D analysis of elastic structural members.
CO3: Analyze plastic deformation of metals and yield criteria of anisotropic material.
CO4: Discuss the stress strain relations of plastic materials.
CO5: Determine the stress during bending of beams.
CO6: Apply mathematical and physical principles of Theory of Elasticity to the real time examples.
VI SEM
14ME655 Fracture Mechanics CO1: Explain the basic principles of fracture mechanics.
CO2: Explain the Application of Linear Elastic Fracture Mechanics on brittle materials.
CO3: Discuss the Fatigue Crack Growth Rate and materials resistance to crack propagation.
CO4: Employ modern numerical methods to determine critical crack sizes and fatigue crack propagation rates in engineering stuctures.
CO5: Illustrate experimental techniques to determine the fracture toughness.
CO6: Use appreciation of the status of academic research in field of fracture mechanics.
VI SEM
14MEL66 Finite Element Analysis Lab
CO1: Analyze modeling stress analysis of bars
CO2: Demonstrate modeling stress analysis of trusses
CO3: Demonstrate modeling stress analysis of beams
CO4: Solve two dimensional stress analyses in plate
CO5: Analyze the temperature distribution in two dimensional heat transfer problems
CO6: Assess problems on conduction of composite Wall
VI SEM
14SS67 Cyber Security CO1: Define OS, Computer Networks,Software & Database, Design of Protection measures.
CO2: Discuss threats and attack techniques, network security, OS security, software security and database security.
CO3: Assess Security principles and models, and importance of cryptography.
CO4: Discuss ethical & unethical cyber practices, understand access control and authentication.
VI SEM
14MEL68 Heat Transfer Lab CO1: Examine the overall heat transfer coefficient for a composite slab.
CO2: Examine emissivity, Stefan Boltzmann Constant
CO3: Measure the Heat transfer coefficient for Pin Fin, Forced convection, Natural Convection parallel and counter flow heat exchanger
CO4: Experiment on Transient heat conduction.
CO5: Experiment the Thermal conductivity of a given metal Rod.
CO6: Asses the performance of refrigeration and air conditioning systems
VII SEM
14ME71 Mechanical Vibration
CO1: Identify sources of vibrations and evelop schematic models for physical systems
CO2: Discuss the role of damping, stiffness and inertia in mechanical systems
CO3: Analyze problems involving free or forced vibrations with appropriate vibration measurement instruments
CO4: Formulate governing equations of motionfro two degree and multi degree systems
CO5: Analyse vibrations in continuous systems like strings, rods, beams, plates and shells
CO6: Examine on machine supporting structures, vibration isolators and absorbers.
VII SEM
14ME72 Operation Research CO1: Apply linear programming model to domain specific situations
CO2: Analyze the various methods under transportation model and assignment models for testing the closeness of their results to optimal results.
CO3: Analyze the various machine and job(n job and m machines) sequencing models for arriving at optimal decisionsand apply game theory to domain specific situations
CO4: Apply the concepts of PERT and CPM for decision making and optimally managing projects
CO5: Apply queuing theory for performance evaluation of engineering and management systems.
CO6: Solve optimization problems using evolutionary computing methods
VII SEM
14ME73 Control Engineering CO1: Explain feedback control system and discuss the importance of performance, robustness and stability in control design.
CO2: Interpret and apply block diagram representations of control systems and
design PID controllers based on empirical tuning rules.
CO3: Analyse gain and phase margins and their implications in terms of robust stability.
CO4: Compute stability of linear systems using the Routh array test
CO5: Analyse controllability and observability of state space models
CO6: Design a stable control system satisfying requirements of stability and reduced steady state error
VII SEM
14ME74 Mechatronics CO1: Explain mechatronics applications in manufacturing and automation
CO2: Identify sensors, transducers and actuators to monitor and control the behaviour of a process or product.
CO3: Demonstrate knowledge on basic concepts of control systems, microprocessors and microcontrollers
CO4: Identify faults in simple mechatronics systems
CO5: Design of simple mechatronics systems for factory automation and integration
CO6: Design mechatronic based system for industrial and domestic applications
VII SEM
14ME751 Tribology CO1: Apply the basic theories of friction, wear and lubrication to predict about the frictional behaviour of commonly encountered sliding interfaces.
CO2: Analyze mathematical approach of hydrodynamic and hydrostatic lubrication
CO3: Describe the concept of idealized journal bearing and slider bearing under different load carrying conditions
CO4: Explain different bearing materials with their properties and list the advantages and disadvantages
CO5: Illustrate the behavior of tribological components subjected to different working conditions and describe different tribological measures
CO6: Design a tribological system for optimal performance
VII SEM
14ME752 Computational Fluid Dynamics
CO1: Describe fundamentals of CFD analysis, governing equations and their boundary conditions
CO2: Solve the governing equations for fluid flow
CO3: Apply the knowledge of finite element discretization methods for solving explicit and implicit schemes for two dimensionalheat transfer and fluid flow problems
CO4: Apply finite volume techniques for different schemes for solving one dimensional heat conduction equation
CO5: Demonstrate knowledge on advances topics in CFD
CO6: Illustrate the impact and applications of CFD in Engineering
VII SEM
14ME753 Automotive Engineering
CO1: Explain the constructional details of automotive engines and their cooling, fuel supply and lubrication systems
CO2: Illustrate the functioning of superchargers, turbochargers and ignition systems
CO3: Describe the working of various components of power train and steering systems in automobiles
CO4: Explain the different suspension systems, brake systems used in automobiles
CO5: Explain the functioing of automotive emission control systems
CO6: Discuss recent advances in automotive technology
VII SEM
14ME754 Gas Dyanmics & Jet Propulsion
CO1: Describe the basic fundamental equations of one dimensional flow of compressible fluid and isentropic flow of an ideal gas
CO2: Compare Fanno flow and Rayleigh flow
CO3: Solve the Prandtl Meyer equation for shock waves and flow equations for quasi one dimensional flow through variable area ducts.
CO4: Recognize the different configurations of flames and boundary layer combustion.
CO5: Compare the working of various jet engines and calculate thrust & efficiency in jet propulsion using gas dynamics principles.
CO6: Apply basis calculations for gas dynamics ans jet propulsion
VII SEM
14ME755 Foundry Technology
CO1: Discuss the technology, variables and complexity involved in producing a casting.
CO2: Discuss on solidifcation of castings and the effects of gates and risers design on it.
CO3: Illustrate the special molding processes and when their use is warranted.
CO4: Examine casting of ferrous and non-ferrous alloys
CO5: Discuss on modernization, mechanization and pollution control related to foundary
CO6: Use foundry practice for different applications considering cost and feasibility
VII SEM
14ME756 Computer Integrated Manufacturing
CO1: Describe the elements of CIM system & an automated system, Production system and mathematical models of production performance & manufacturing control.
CO2: Analyse Automated flow lines and automated material handling systems
CO3: Develop an FMS (Flexible Manufacturing System) layout for given simple part family, using group technology concepts and computer aided quality control
CO4: Apply the concept of total integration of all industrial functions
CO5: Apply the knowledge of production planning through computers
CO6: Develop solutions or to do research in the areas of Design and simulation in Mechanical Engineering.
VII SEM
14ME757 Non Destructive Testing
CO1: Explain the basic theory and principles of NDT methods.
CO2: Discuss common types of defects arising in different types of manufactured products and the NDT method(s) best suited to evaluate them.
CO3: Explain the scope, limitations and applications of the NDT methods
CO4: Explain the procedure followed in various NDT techniques.
CO5: Interpret and evaluate the results based on the procedure
CO6: Discuss the considerations for selection of appropriate NDT technique(s) for various applications
VII SEM
14ME7614 Financial Management
CO1: Explain the concept of financial management and indian financial systems
CO2: Describe time value of money and financial statements
CO3: Explain capital budgeting theories and capital struture
CO4: Apply concepts of working capital management.
CO5: Compare various dividend policies
CO6: Develop skills for interpretation business information and application of financial theory in corporate investment decision
CO6: Develop skills for interpretation business information and application of financial theory in corporate investment decision
VII SEM
14CE7604 Solid Waste Management
CO1: Identify improper practices of solid waste disposal and their environmental implications.
CO2: Explain various types of collection systems and processing techniques of solid waste.
CO3: Discuss the technologies used for treatment of waste and recovery of value from waste.
CO4: Describe methods of disposal of hazardous solid waste.
VII SEM
14ME77 CAD/CAM Lab CO1: Demonstrate knowledge on CNC control in modern manufacturing system
CO2: Create manual part programs for simple geometry jobs using standard codes
CO3: Test Turning/Milling operations on a computer using CAM packages
CO4: Choose tool path and CNC codes using CAM packages
CO5: Examine finite element analysis of thermal problems involving conduction and convection
CO6: Discuss finite element analysis of systems subjected to dynamic and buckling loads
VII SEM
14ME78 Engineering Design Lab
CO1: Solve natural frequency of Longitudinal and torsional vibrations
CO2: Test critical speed of rotating shafts
CO3: Evaluate mechanism used for speed control using governors
CO4: Describe principal stresses, principal strains and stress concentration
CO5: Experiment on Balancing of Rotating masses
CO6: Evaluate mechanism used for stability control using gyroscopic couple
VII SEM
14ME79 Mini Project - Project Phase-I
CO1: Plan the course of action and hypothesize the project work using literature survey.
CO2: Formulate the problem statement &invent possible solutions.
CO3: Identify promising new directions of various cutting edge technologies
CO4: Write detailed report describing the seminar topic.
CO5: Assess effectively by making an oral presentation before an evaluation committee
CO6: Support as a team member/leader to manage projects in a multidisciplinary environment.
VIII SEM
14ME81 Management Ethics and Entrepreneurship
CO1: Demonstrate knowledge on the desirable basic human values required for a good professional
CO2: Explain the concepts and importance of ethics in ones profession and practice it
CO3: Demonstrate entrepreneurship, creativity and the ability to critical and logical thinking concepts function as an entrepreneur or work in a corporate system
CO4: Discuss on process related to business planning, costing and estimation
CO5: Evaluate the different aspects of government policy and support relating to entrepreneurship
CO6: Demonstrate how to be an empowered professional and how to empower colleagues
VIII SEM
14ME82 Power Plant Engineering
CO1: Illustrate the various circuits in steam power plant.
CO2: Discuss the working of diesel and gas turbine power plants
CO3: Explain the working of hydroelectric and renewable power plants
CO4: Summarize the various nuclear reactors and waste disposal methods
CO5: Discuss the economics of powerplants
CO6: Differentiate the various components, operations and applications of different types of power plants
VIII SEM
14ME831 Non Conventional Energy Systems
CO1: Discuss the different types of non-conventional energy technologies that are currently available
CO2: Explain solar energy and applications of solar thermal energy
CO3: Analyse wind regimes to effectively use wind energy
CO4: Explain bio gas generation and its impact on environment
CO5: Explain the Ocean thermal, Tidal energy, its mechanism of production and its applications
CO6: Discuss issues and methods related to Non conventional energy systems.
VIII SEM
14ME832 Product Design and Manufacturing
CO1: Identify, select and evaluate innovative conceptsconcepts of product design and outline product planning process
CO2: Discuss the importance of industrial design, protyping and design for manufacturing processes
CO3: Demonstrate knowledge on TRIZ methodology and process on product development
CO4: Identify concept generation activities and summarize the methodology involved in concept selection and testing
CO5: Design product that are environment friendly
CO6: Apply principles of prototyping, TRIZ and industrial design in product design and manufacuring
14ME833 Micro Electro Mechanical Systems
CO1: Explain the basics of electronics, VLSI, MEMS and nano technology
VIII SEM
CO2: Discuss different sensors used in the MEMS
CO3: Identify various manufacuring techniques, processes and modeling software required for MEMS design
CO4: Explain working of AFM and STM
CO5: Demonstrate knowledge on applications of nano engineering
CO6: Design the micro devices, micro systems using the MEMS fabrication process.
VIII SEM
14ME834 Industrial Automation & Robotics
CO1: Identify potential areas for automation and justify need for automation
CO2: Demonstrate skill to develop Assembly systems, Automated Material Handling and Storage System
CO3: Demonstrate an ability to use compueter networks for manufacuring and to solve inverse kinematics of simple robot manipulators.
CO4: Develop basic control system models
CO5: Choose actuation mechanism for robots
CO6: Demonstrate skill to design and develop automation systems and robots
VIII SEM
14ME835 Operation Management
CO1: Explain the concepts of Operations management in overall Business Strategy of the firm and operations decisionn making process.
CO2: Develop demand forecasting models and systems design for production/ operation management system
CO3: Develop aggregate plans, master schedules using standard tools and control inventory efficiently.
CO4: Develop capacity and materials requirements plan effectively
CO5: Apply supply chain management techniques
CO6: Apply techniques for effective utilization of operational resources and managing the processes to produce good quality products and services at competitive prices.
VIII SEM
14ME836 Non Traditional Machining
CO1: Apply ultrasonic and abrasive jet based non destructive mahcining processes
CO2: Explain the concept of machining the using electrical discharge machining and chemical machining
CO3: Demonstrate knowledge on electrochecmical, plasma arc and electron beam based maching processes
CO4: Demonstrate knowledge on laser beam based machining processes.
CO5: Demonstrate familiarity ith high velocity forming processes.
CO6: Appreciate the merits of non-traditional machining and its application in Industries.
VIII SEM
14ME8413 Intellectual Property Rights and Technology Commercialization
CO1: Explain the meaning and evolution of Intellectual property law, and also the importance of protecting Intellectual property.
CO2: Outline the concepts of Trademarks and Copyrights, and also know the registration process along with infringement, offences, and penalties.
CO3: Demonstrate knowledge on patents and patent filing procedure
CO4: Demonstrate knowledge on industrial design and geommetrical indications as intellectual properties
CO5: Demonstrate technology commercialisation
CO6: Demonstrate procedural knowledge to Legal System and solving the problem relating to intellectua property rights
VIII SEM
14ME8414 Project Management
CO1: Explain the basic concepts of project management
CO2: Demonstrate knowledge on effective project planning, scheduling and resource allocation
CO3: Appraise project monitoring system as well as the environmental impact of a project
CO4: Test economic feasibiltiy of a project
CO5: Explain project financing concepts, institutions and norms
CO6: Use project management knowledge, processes, lifecycle and the embodied concepts, tools and techniques in order to achieve project success.
VIII SEM
14ME85 Technical Seminar CO1: Use research papers for understanding of a new field, in the absence of a textbook , to summarise and review them.
CO2: Identify promising new directions of various cutting edge technologies
CO3: Explain the topic and defend the panel question.
CO4: Write detailed report describing the seminar topic.
CO5: Illustrate Effectively by making an oral presentation before an evaluation committee
CO6: Propose well-organised technical presentations at conferences and other symposia.
VIII SEM
14ME86 Project work CO1: Plan the course of action and hypothesize the project work using literature survey.
CO2: Formulate the problem statement &invent possible solutions.
CO3: Organize the project activity with the constraints required to implement it.
CO4: Design the working model and test its functioning.
CO5: Employ effective communication to a diverse audience and develop technical reports and publications.
CO6: Support as a team member/leader to manage projects in a multidisciplinary environment.
M.Tech in Energy and Environmental Management
PEOs
PEO1: Our graduates will become professionals equipped with the ability to discriminate,
evaluate, analyse and synthesise the information related to energy and environmental
management.
PEO2: Our graduates will be able to define energy policy inline with global policy initiatives
and meet the emerging challenges with feasible and optimal solutions using modern
engineering and IT tools in the field of energy and environmental management.
PEO3: Our graduates will work and communicate effectively in inter-disciplinary
environment, either independently or in a team, and demonstrate leadership qualities.
PEO4: Our graduates will continue their lifelong learning to remain effective professionals to
maintain and enhance technical and professional growth.
PSOs
PSO1: Our graduates will able to develop model, analyze and system simulation for
performance evaluation and optimization of energy systems.
PSO2: Our graduates will able to apply eco-friendly technologies for energy security.
Course Outcomes (COs)
M.Tech in Energy and Environmental Management 2019-20 batch
Semester
Course Code
Course Name Course Outcomes (COs)
I 18MTEEM101
Foundation for Energy Engineering
CO1 :Apply laws of thermodynamics to various processes and systems
CO2: Apply Bernoulli’s equation for flow measurements.
CO3: Describe the principles of heat transfer mechanisms and importance of efficient energy utilization.
CO4: Demonstrate knowledge on the basic concepts of electrical machines.
CO5: Discuss on potential application of various sources of energy
CO6: Describe the concepts related to energy management.
I 18MTEEM102
Non conventional Energy Conversion System
CO1: Discuss energy scenario of world as well as India
CO2: Discuss on the concepts of Biomass power generation
CO3: Explain working of wind power generation systems
CO4: Explain OTEC, wave and Tidal power generation systems
CO5: Discuss on the geothermal energy conversion and fuel cells
CO6: Demonstrate the working principle of non conventional energy conversion
I 18MTEEM101L
Heat Transfer Lab CO1: Determine thermal conductivity of metal rod
CO2: Determine Effectiveness of a metallic fin
CO3: Determine radioactive properties of a surface
CO4: Evaluate performance of heat exchangers
CO5: Apply Bernoulli’s equation for flow measurement
CO6 :Determine fluid properties
I 18MTEEM102L
Energy Conversion Lab
CO1: Discuss on various instrument applied in the field of energy management
CO2: Analyze energy conversion efficiency internal combustion engines with gasoline
CO3: Determine fuel properties
CO4: Explain the construction and working of Solar Energy Minilab Apparatus
CO5: Determination of efficiency of solar panel
CO6: Evaluate performance of a solar flat plate thermosyphon water heating system
1 18MTEEM131
Energy conservation CO1: Discuss about energy conservation in various thermal and electrical utilities.
CO2: Desribe working principle and applications of waste heat recovery systems
CO3: Discuss on the methods for improvement of thermal comfort and enegy efficieny of bhildings
CO4: Explain the design, significance and applications of various energy storage systems
CO5: Apply the methods of energy conservation in industrial and residential sector based on similar case studies
CO6: Disucss in the significane, application and management of energy conservation technologoes.
1 18MTEEEM132
Smart Grid Technologies
CO1: Discuss smart grids and analyze grid policies and development in smart grids.
CO2: Develop concepts of smart grid technologies in hybrid electrical vehicles etc.
CO3: Describe smart substation, feeder automation, and GIS.
CO4: Analyze micro grids and distributed generation systems.
CO5: Analyze the effect of power quality in smart grid
CO6: Discuss on the latest developments in ICT for smart grid
1 18MTEEEM133
Instrumentation for thermal systems
CO1: Discuss on characteristics of measurements. experimental planning and selection of measuring instruments
CO2: Discuss on application of microprocessors and computers in measurements
CO3: Select suitable instrument for measurement of thermo-physical properties,
CO4: Discuss on advanced measurement techniques
CO5: Apply suitable analyzers based on situations
CO6: Implement measurements systems for various thermal systems
1 18MTEEEM141
Industrial Waste Management And Recycling
CO1: Develop sustainable strategies to support the application of ISWM plan
CO2: Discuss on landfills, leachate production and storm water management
CO3: Categorize the waste from various industries & recycle for energy extraction.
CO4: Discuss on basics of water treatment processes
CO5: Describe environmental issues in agriculture
CO6: Explain the importance of treatment, Disposal and energy recovery of waste from various industries
1 18MTEEM142
Environmental Impact Analysis
CO1: Demonstrate scoping and screening of developmental projects for environmental and social assessments
CO2: Explain different methodologies for environmental impact prediction and assessment
CO3: Assess environmental impact assessments and environmental management plan
CO4: Examine the issues related to the Project Affected People
CO5: Evaluate environmental impact assessment reports
CO6: Use environment assessment for infrastructure projects, dams, highways and multi storey buildings
1 18MTEEM143
Ecology and Eco system Dynamics
CO1: Discuss on scope of ecology, population ecology and species interactions
CO2: Explain community structure and organization
CO3: Discuss on ecological pyramids and biogeochemical cycles
CO4: Create awareness about the consequences of our actions on aquatic biome
CO5: Identify changes in ecosystem structure caused by environmental disturbances or by internal forces
CO6: Demonstrate knowledge on the interdependence between people and nature that is vital for food production, maintaining clean air and water, and sustaining biodiversity in a changing climate.
2 18MTEEM201
Design of water and Waste water treatment systems
CO1: Select the appropriate processes necessary to supply potable water or to treat wastewater system for a community
CO2: Develop the conceptual schematics required for the treatment of water and wastewater
CO3: Discuss the role and importance of industrial wastewater management.
CO4: Explain the basics of industrial waste water treatment methodologies.
CO5: Select the effective residual management system and methods.
CO6: Describe suitable treatment processes and develop a water and wastewater management plan.
2 18MTEEM202
Photovoltaic and Solar Thermal Energy
CO1: Demonstrate the fundamentals of solar radiation and its measurements
CO2: Discuss the physics of PV system
CO3: Explain the principles of various PV cell manufacturing technologies
CO4: Design the ON and OFF grid PV system for the given application
CO5: Explain the importance of various solar thermal systems
CO6: Estimate the system size requirement for different PV systems.
2 18MTEEM2
01L Water treatment Lab CO1: Determine the phenolphthalein
alkalinity and methyl orange alkalinity or total alkalinity
CO2: Determine the methyl orange acidity and phenolphthalein acidity or total acidity of a given sample of water.
CO3: Determine the carbonate, non carbonate, calcium hardness and magnesium hardness of a given sample of water
CO4: Determine the amount of chloride in a given sample of water
CO5: Estimate of residual chlorine and percentage of chlorine available in a given sample
CO6: Determine the quantity of Dissolved Oxygen present in a given sample using Wrinkler’s method
2 18MTEEM202L
Solar and wind energy Lab
CO1: Discuss on greenhouse effect, various types of wind mill, direct and diffused beam solar radiation
CO2: Evaluate performance of solar flat plate collector
CO3: Analyse the effect of solar flat plate collector in parallel combination
CO4: Evaluate performance of concentrating solar collector, solar PV panel and PV panel in series and parallel combination
CO5: Analyse the effect of tilt angle on solar PV panel
CO6: Discuss on the effect of surrounding temperature on PV panel
2 18MTEEM231
Design And Optimization Of Energy Systems
CO1: Discuss on basic concepts of energy systems design
CO2: Demonstrate energy systems based on system models
CO3: Formulate optimization problems for energy systems
CO4: Select suitable search methods and gradient methods for unconstrained optimization problems
CO5: Apply dynamic and geometric programming for energy systems
CO6: Apply suitable optimization techniques in energy system design
2 18MTEEM232
Environment laws, Standards & Certifications
CO1: Discuss on need, origin and development of environmental laws
CO2: Explain how climate change is measured and the reason for it
CO3: Discuss on acts and effects of air pollutions related to automobile and industrial sectors
CO4: Explain laws and standards related to water pollution
CO5: Assess noise pollution through proper identification of source and suitable mitigation measures
CO6: Examine climate changes and suggest mitigation actions
2 18MTEEM233
Energy Auditing CO1: Demonstrate knowledge on the energy auditing procedures and types.
CO2: Discuss on the energy conservation opportunities in lighting and electrical load management.
CO3: Discuss on the energy conservation opportunities in boilers
CO4: Assess the performance and efficiency of thermal fluid heaters and compressed air networks.
CO5: Discuss on the energy conservation opportunities in refridegeration and air conditioning systems.
CO6: Use energy audit report for industrial, residential and commercial applications.
2 18MTEEM234
Climate Change and Mitigation
CO1: Discuss on climate change and elements of the climate
CO2: Explain how climate change is measured and the reason for it
CO3: Discuss on ecological effects of climate change
CO4: Explain technologies of carbon capturing and storage
CO5: Explain on carbon dioxide transportation
CO6: Discuss climate changes and suggest mitigation actions
2 18MTEEM241
Energy systems Modeling and Analysis
CO1: Identify the suitable method of optimization
CO2: Model thermal systems and thermal equipments
CO3: Apply various methods of numerical simulation
CO4: Solve problems related to linear and dynamic programming and geometric programming
CO5: Compare different elimination methods
CO6: Apply Uniform Exhaustive Search and Dichotomous Search Methods for thermal systems
2 18MTEEM242
Energy Scenario and Energy Policy
CO1: Explain on role of energy in economic development and social transformation and energy resources
CO2: Discuss on future energy options, energy crisis and energy security
CO3: Discuss various modes of consumption of energy
CO4: Explain the acts enacted related to energy conservation
CO5: Discuss on energy polices of various countries, industries and organizations
CO6: Judge alternate energy resources and policy implications
2 18MTEEM243
Wind Power conversion
CO1: Describe the concepts of atmospheric stability and wind mechanics
CO2: Measure and analyse wind patterns
CO3: Identify the aerodynamics and engineering components of wind turbines and power systems
CO4: Discuss on principles of horizontal, vertical and combined wind turbines
CO5: Conduct economic and environmental assessment of wind power plants
CO6: Analyse the capacities and efficiencies of wind power systems as per the industrial requirements
2 18MTEEM244
Energy Management CO1: Discuss on the basics of energy scenario and energy security
CO2: Evaluate the energy saving potentials in boilers, furnaces and steam & condensate systems.
CO3: Conduct financial evaluation of various alterntives of energy management solutions
CO4: Discuss on the methods and applications of waste heat recovery.
CO5: Apply the energy conservation solutions to electrical utility systems
CO6: Implement the energy management systems for various industrial backgrounds
3 18MTEEM311
Design of Heat Transfer Equipments
CO1 :Apply design procedures of double pipe heat exchanger, shell and tube heat exchanger, recuperative air pre Heater and economizers
CO2: Estimate sulphur acid due point
CO3: Estimate flow in each element of a tub assembly, attenuation factor and direct radiation from furnace
CO4: Discuss on the effect of tube side velocity on surface area and pressure drop for various tube sizes
CO5: Use of psychometric chart for the design of cooling tower
CO6: Apply design procedures of double Pipe Heat Exchanger, design of shell and tube heat exchanger
3 18MTEEM312
Pollution Control in Power Plants
CO1: Enumerate pollutants from power generation points
CO2: Discuss on effects, measurement and monitoring of air pollution caused by power plants
CO3: Develop air pollution models to predict the effects
CO4: Discuss on fundamentals of sound generation, propagation and measurement
CO5: Discuss on noise prevention and mitigation measures
CO6: Recognize measures to minimize impacts on the environment emissions of air pollutants emitted from power stations
3 18MTEEM313
Energy Storage Devices
CO1 :Explain the importance of various energy storage technologies
CO2: Demonstrate the fundamentals and components of electrochemical storage technology
CO3: Analyze the thermodynamics of hydrogen fuel cell
CO4: Discuss the various types of fuel cells
CO5: Apply energy storage technology in Food preservation, Waste heat recovery, Solar energy storage applications
CO6: Develop the energy storage technology in mechanical, chemical and electrical systems
3 18MTEEM314
Energy Management in Buldings
CO1 :Discuss factors affecting the energy usage in buildings
CO2: Analyse heat transmission in and out of buildings
CO3: Discuss on the fundamentals of lighting load and means of managing it in buildings
CO4: Apply technuques for energy consumption in buildings through active and passive methods
CO5: Discuss on the building design required for different climate conditions
CO6 :Provide solutions for setting energy efficient buildings
3 18MTEEM315
Nuclear Engineering CO1: Discuss on the findamentals of nuclear physics
CO2: Explain the mechanism of nuclear fission and fusion reactions and characteristics of reactor materials
CO3: Explain reprocessing techniques employed in nuclear reactors.
CO4: Discuss on the construction and working principles of different nuclear reactors.
CO5: Demonstrate knowledge on the safety measure implemented in nucelar reactors
CO6: Discuss on the latest developments in construction, working principle and environmental concerns related to nuclear power generation.
3 18MTOE322
Industrial Safety CO1: Discuss various types of hazards and its prevention by applying suitable equipment and methods
CO2: Demonstrate the knowledge of industrial safety in various fields
CO3: Apply the knowledge of maintenance, replacement economy and Service life of equipment
CO4: Use knowledge on failure of materials with respect to wear, corrosion and its prevention methods
CO5: Apply the knowledge of recognizing the types of faults in machine tools and their general causes
CO6: Design and analyze the safety practices, measures and policies in industrial workplace.
B.Tech in Automobile Engineering
PEOs
PEO1: Our graduates will have successful careers in the mechanical and allied industries by
demonstrating their skills in facing the challenges forced by industrial and research sectors.
PEO2: Our graduates can work in teams discharging social responsibilities as engineers
following ethical practices.
PEO3: Our graduates shall engage in entrepreneurial and professional society activities to
meet the needs of the society.
PEO4: Our graduates will continue to expand their technical competence by developing their
knowledge, skills and engaging themselves in learning activities throughout their life.
PSOs
POS1: Our graduates will be able to apply knowledge of design, thermal, materials and
manufacturing to solve complex problems in Automobile engineering and allied areas.
PSO2: Our graduates will create and implement new ideas on product/process design and
development with the help of modern CAD/CAM/CAE tools while ensuring best engineering
practices.
Course Outcomes (COs)
B.Tech in Automobile Engineering 2019-20 batch
Semester Course Code
Course Name Course Outcomes (COs)
III 18AU31 MATERIALS SCIENCE & ENGINEERING
CO1 :
Discuss the basic structure and plastic deformation of materials
CO2 :
Describe the phase diagrams and phenomenon of fatigue and creep
CO3 :
Categorize the various processes of heat treatment and microstructure of engineering alloys
CO4 :
Summarize the properties and applications of magnetic materials
CO5 :
Appraise the properties and applications of nano materials
CO6 :
Select suitable material for various engineering applications.
III 18AU32 ENGINEERING MECHANICS
CO1 :
Discuss the basic concepts of stress, strain and deformations
CO2 :
Analyze equilibrium of beams using free body diagram, Shear force and bending moment
diagrams under different types of loading
CO3 :
Calculate the deflection of beams and torional stresses under different types of loading
CO4 :
Determine Principal stresses and strains
CO5 :
Apply of Euler's theory and Rankine's theory to different types of columns
CO6 :
Formulate the strength for different loading members
III 18AU33 FLUID MECHANICS
CO1 :
Explain the various fluid properties and characteristics
CO2 :
Determine the hydro static forces and kinematic characteristics of fluids
CO3 :
Apply Euler's equaiton & Bernoulli’s Equation for Flow measurement
CO4 :
Formulate different equations based on the complex hydraulic flow applications
CO5 :
Apply the mathematical knowledge to validate the flow properties by dimensional analaysis
CO6 :
Analyze problems related to calculation of forces in fluid structure interaction
III 18AU31L MATERIALS TESTING LABORATORY
CO1 :
Prepare specimen for various metallographic examinations
CO2 :
Exhibit nondestruting testing
CO3 :
Estimate impact load of various materials
CO4 :
Predict the tensile, compression, torsion and bending stresses
CO5 :
Determine hardness of different materials
CO6 :
Predict the mechanical strength of different materials
III 18AU33L FLUID MECHANICS & MACHINERY LAB
CO1 :
Predict of coefficient of friction and minor losses in Pipe Flow
CO2 :
Discuss the impact of jet on Vanes
CO3 :
Experiment with flow measurement devices s and V notch
CO4 :
Estimate the performance of turbines
CO5 :
Estimate the performance of pumps and air blowers
CO6 :
Apply mathematical knowledge to predict the properties and characteristics of a fluid.
IV 18AU41 Theory Of Machines
CO1 :
Discuss the fundamental concepts of machines, mechanisms and related terminologies.
CO2 :
Interpret kinematics of various linkage mechanisms.
CO3 :
Design mechanisms of basic cam and flywheel systems for different machinery.
CO4 :
Apply the principles of governing and gyroscopic effect in automobiles, aeroplanes and ships.
CO5 :
Analyze systems with unbalanced masses
CO6 :
Utilize analytical, mathematical and graphical aspects of kinematics of machines for effective design.
IV 18AU32 Thermal Engineering
CO1 :
Apply thermodynamic concepts to different air standard cycles and kinetics of combustion
CO2 :
Determine the performance of gas turbines and vapour power cycles.
CO3 :
Explain the concept of refrigeration systems and I.C. Engines.
CO4 :
Evaluate the performance of reciprocating air compressors.
CO5 :
Interpret the principles of psychrometry in analyzing refrigeration systems.
CO6 :
Demonstrate knowledge of the operating characteristics of common internal combustion engines
IV 18AU33 Manufacturing Technology
CO1 :
discuss the Concepts of Manufacturing Process and basic principles of foundry practices.
CO2 :
Illustrate the various special casting processes, their Advantages, Limitations and Applications
CO3 :
Compare different metal joining processes.
CO4 :
List the various hot working processes.
CO5 :
Explain various Cold working processes
CO6 :
Apply the different manufacturing technology to make engineering components.
IV 18AU34 Metrology and Measurements
CO1 :
Discuss the fundamental knowledge on metrology techniques and measurement techniques
CO2 :
Equip with knowledge of linear and angular measurements, Screw thread, gear measurement and Comparators.
CO3 :
Discuss the measurement systems and measurement of Force, Torque and Pressure
CO4 :
Acquire knowledge of measurement of Temperature and strain.
CO5 :
Describe the applications of different measuring machines
CO6 :
Identify suitable metrological methods for measuring the components.
IV 18AU35 Machine Drawing CO1 :
Draw the orthographic views from pictorial drawing
CO2 :
Draw the assembly views of riveted joints.
CO3 :
Illustrate the drawing of screw threads
CO4 :
Illustrate the drawing of screw threads
CO5 :
Construct the assembly drawings of various mechanical components in sketcher mode.
CO6 :
Interpret assembly drawings of various machine components with moderate complexity.
IV 18HSS04 Business communication and Presentation skills
CO1 :
Overcome common obstacles in public speaking.
CO2 :
Demonstrate critical and innovative thinking.
CO3 :
Display complete in oral, written and visualization
CO4 :
Discuss the importance of research in developing your topic
CO5 :
Use resources to gather information effectively.
CO6 :
Write the reports and interpret the results for the projects, case studies and able to prepare the resume
IV 18AU44L Metrology and
Measurements lab CO1 :
Perform calibration test on pressure gauge, thermocouple, LVDT, load cell and micrometer.
CO2 :
Measure angle using Sine Center/ Sine Bar/ Bevel Protractor, alignment using Autocollimator/Roller set.
CO3 :
Demonstrate measurements using Optical Projector, Tool maker microscope and Optical flats.
CO4 :
Examine the gear tooth profile using gear tooth vernier and gear tooth micrometer.
CO5 :
Determine Screw thread parameters using 2-Wire or 3-Wire method.
CO6 :
Locate appropriate measuring instrument according to a specific requirement
IV 18AU43L Workshop-II CO1 :
Practice the various operations such as taper and eccentric turning, knurling and chamfering in lathe.
CO2 :
Perform Internal and external thread cutting operations in lathe.
CO3 :
Estimate machining time for drilling, Reaming and Boring process.
CO4 :
Create keyways, slots and grooves using shaper machine.
CO5 :
Perform gear tooth cutting using milling machine
CO6 :
Identify the appropriate production process and machine by following precautions and safety norms in machine shop.
V 18AU51 VEHICLE DYNAMICS
CO1 :
Discuss vibrating systems and its analysis, modelling and simulation and modal analysis
CO2 :
Describe the multi-degree freedom system
CO3 :
Describe the stability of vehicles on curved track and slope, gyroscopic effects and cross wind handling
CO4 :
Classify various Suspension systems, selection of springs and dampers
CO5 :
Analyze dynamics of tyre, effects of braking and torque on steering
CO6 :
Classify how passenger comfort is achieved along with vehicle stability.
V 18AU52 Heat & Mass Transfer
CO1 :
Discuss the basics of conduction mode heat transfer
CO2 :
Interpret and analyze forced and free convection heat transfer
CO3 :
Solve the problems based on thermal radiations
CO4 :
Analyze heat exchanger performance by using the method of log mean temperature difference
CO5 :
Solve problems involving mass transfer due to diffusion, chemical reaction, and convection
CO6 :
Solve problems involving steady and unsteady heat conduction, convection, and radiation.
V 18AU53 INTERNAL COMBUSTION ENGINES
CO1 :
Explain working and performance of IC Engines through thermodynamic cycles.
CO2 :
Analyze combustion phenomena in SI engines.
CO3 :
Analyze combustion phenomena of CI engines and factors influencing combustion chamber design.
CO4 :
Outline emission formation mechanism of IC engines, its effects and the legislation Standardds
CO5 :
Describe the working principles of instrumentation used for engine performance and emission parameters.
CO6 :
Demonstrate knowledge in construction, working principles and performance of IC engine with fossil and alternate fuels.
V 18AU54 FUELS, LUBRICANTS AND ADDITIVES
CO1 :
Acquire sound knowledge on manufacturing methods of lubricants
CO2 :
Describe the theory of lubrication
CO3 :
Demonstrate the various additives and its mechanism in lubricants
CO4 :
Analyze the thermal, chemical and physical properties of fuel
CO5 :
State the combustion phenomena of fuel in SI and CI engines.
CO6 :
Understand the importance fuel additives to control the petrol and diesel knock
V 18AU55 AUTOMOTIVE MATERIALS AND COMPONENT MANUFACTURING PROCESSES
CO1 :
Demonstrate knowledge of applications of composite materials in Automobiles
CO2 :
Discuss the principles of smart materials, sensors and actuator technologies
CO3 :
List and discuss the various forming processes used to manufacture the automobile components
CO4 :
Analyze the methods of Gear manufacturing processes
CO5 :
Asses the recent trends in manufacturing of auto components
CO6 :
Analyze the materials and methods of manufacturing of automobile components
V 18AU56 EMISSIONS AND NVH CONTROL
CO1 :
Summarize the complete emission scenario in the world which includes the laws which were implemented and background reason for it.
CO2 :
Identify the influence of fuel properties on various emissions
CO3 :
Describe different after treatment devices used to reduce the emission level.
CO4 :
Discuss the basic concepts of Noise, vibration and Harshness
CO5 :
Explain the measurement techniques of noise and vibration
CO6 :
Explain the effect and application of emission, noise, vibration and harshness
V 18AU53L I.C ENGINE LABORATORY
CO1 :
Differentiate among different lubricating oils, Calorific value of fuels
CO2 :
Recognize and illustrate the differences among Viscosity of a lubricating oils characteristics of different engine types and designs.
CO3 :
Illustrate the Valve/port timing diagram of an I.C. Engine
CO4 :
Analyze the Performance characteristics of Four Stroke
Single Cylinder Diesel and Petrol Engine.
CO5 :
Analyze the Performance characteristics of Four Stroke Multi Cylinder Petrol Engine.
CO6 :
Describe the various performance characteristics of I C Engine
V 18AU54L AUTOMOTIVE FUELS AND LUBRICANTS LABORATORY
CO1 :
Acquire sound knowledge on International and National standards for fuels and lubricants
CO2 :
ineterpret the rating of Octane and Cetane number of petrol and diesel fuels
CO3 :
Demonstrate the ASTM distillation test procedure of liquid fuels and Aniline Point test of diesel fuel
CO4 :
Describe the fire and flash point of different liquid petroleum fuels
CO5 :
Illustrate experimental analysis of corrosion rate, cloud and Pour point testing of fuels.
CO6 :
Describe the importance fuel additives to control the petrol and diesel knock
VI 18AU51 AUTOMOTIVE POWER TRAINS
CO1 :
Explain the fundamentals, principle of operation and performance of various clutches and gear boxes
CO2 :
Gain the knowledge about various hydromatic drives
CO3 :
Classify various types of gear boxes used for Automotive transmission
CO4 :
Discuss the principle of operation and performance of various hydrostatic drives.
CO5 :
Demonstrate the principle of operation and performance of various electric drives
CO6 :
Work independently on overhauling of transmissions
VI 18AU52 DESIGN OF MACHINE ELEMENTS
CO1 :
Demonstrate the design procedure, selection of materials and stress analysis.
CO2 :
Apply the theories of failure in the design of machine components.
CO3 :
Analyze the stress concentration and impact loading and fatigue loading
CO4 :
Design solid, hollow shafts and springs.
CO5 :
Design clutches, brakes and gears
CO6 :
Use standard practices and standard data for the design of machine elements.
VI 18AU53 AUTOMOTIVE CHASSIS AND SUSPENSION
CO1 :
Explain different chassis layouts and frames.
CO2 :
Describe various Front Axles, factors of wheel alignment Steering systems
CO3 :
Design dimensions of Front Axle
CO4 :
Describe various types Propeller Shaft, Differential and Rear axles and can find dimensions of these components.
CO5 :
Explain principles, types and applications of differential.
CO6 :
Explain basic principles of suspension system.
VI 18AU54 AUTOMOTIVE REFRIGERATION AND AIR CONDITIONING
CO1 :
Illustrate the principles, nomenclature and applications of refrigeration systems.
CO2 :
Explain vapour compression refrigeration system and identify methods for performance improvement
CO3 :
Study the working principles of air, vapour absorption, thermoelectric and steam-jet and thermoacoustic refrigeration systems
CO4 :
Estimate the performance of air-conditioning systems using the principles of psychometry.
CO5 :
Compute and Interpret cooling and heating loads in an air-conditioning system
CO6 :
Identify suitable refrigerant for various refrigerating systems
VI 18AUDE611 VEHICLE INSPECTION AND MAINTENANCE
CO1 :
Identify and diagnose the causes of malfunctioning of an engine.
CO2 :
Solve engine troubles based on symptoms and causes.
CO3 :
Use the suitable instrument and tools for diagnosis and testing of automotive engine systems.
CO4 :
Resolve engine from automobile, disassemble and rectify faults.
CO5 :
Resolve electrical systems and troubleshooting of battery, starter motor, alternator rectifier and transistorized regulator.
CO6 :
Develop an attitude of relying on systematic method of working using standard trouble shooting procedure rather than taking ad-hoc decisions
VI 18AUDE612 TRIBOLOGY CO1 :
Apply the basic theories of friction, wear and lubrication to predict about the frictional behaviour of commonly encountered sliding interfaces.
CO2 :
Analyze mathematical approach of hydrodynamic and hydrostatic lubrication
CO3 :
Describe the concept of idealized journal bearing and slider bearing under different load carrying conditions
CO4 :
Explain different bearing materials with their properties and list the advantages and disadvantages
CO5 :
Illustrate the behavior of tribological components subjected to different working conditions and describe different tribological measures
CO6 :
Design a tribological system for optimal performance.
VI 18AUDE613 AUTOMOTIVE AERODYNAMICS
CO1 :
Illustrate various flow phenomenon related to vehicles.
CO2 :
Demonstrate and analyze different types of drag forces, Optimize various shape configurations in automobiles.
CO3 :
Demonstrate various techniques used for drag reduction.
CO4 :
Comprehend stability of vehicle under aerodynamics forces.
CO5 :
Illustrate the principle of wind tunnel technology.
CO6 :
Explain the fundamentals of aerodynamics, vehicle body optimization, measuring aerodynamics forces etc.
VI 18AUDE621 FINITE ELEMENT ANALYSIS
CO1 :
Comprehend the concepts of finite element analysis, RR method and weight residual technique.
CO2 :
Comprehend the concepts of discretization process and properties of Stiffness matrix
CO3 :
Establish displacement models.
CO4 :
Establish shape function using natural, cartesian coordinates for various elements.
CO5 :
Derive element stiffness matrices and load vectors for 2D problems.
CO6 :
Formulate and solve the problems of 1D bar, beam, truss using elimination and penalty approach.
VI 18AUDE622 MOTOR CYCLE DYNAMICS
CO1 :
Define the kinematics of motor cycles
CO2 :
Analyze the different types of forces and moments acting on the motor cycles.
CO3 :
Analyze the resistance forces, centre of gravity and moment of inertia acting on motor cycles.
CO4 :
Describe the directional behaviour of the motor cycles during turning and rolling.
CO5 :
Examine the in-plane dynamics of the motor cycles.
CO6 :
Analyze in detail the dynamics of motor cycles.
VI 18AUDE623 TOTAL QUALITY MANAGEMENT
CO1 :
Explain basic concepts of TQM, leader ship qualities, different factors of customer satisfaction and benefits of involvement of employee in quality management
CO2 :
Describe various techniques for continuous process improvement and its benefits, importance of HR dept.
CO3 :
Describe use of various graphical representation of process behavior in TQM
CO4 :
Implement effective human resource practices.
CO5 :
Demonstrate knowledge on basics of statistical process control.
CO6 :
Implement total quality management practices in a company.
VI 18AU65L ENGINE PERFORMANCE AND EMISSION
CO1 :
Explain the study of hydraulic, electrical and eddy current dynamometers Valve timing and
TESTING LABORATORY
port timing diagrams of IC engines.
CO2 :
Analyze the Performance and emission test on two wheeler SI engine and CI engine
CO3 :
Describe the experimental procedure retardation test on I.C. Engines
CO4 :
Discuss the procedure of heat balance test on automotive multi-cylinder SI engine and CI engine.
CO5 :
Describe the Morse test experimental analysis on multi-cylinder SI engine
CO6 :
Demonstrate the Engine cylinder pressure measurement of P-θ and P-V diagrams for IC engine
VI 18AU63L AUTOMOTIVE CHASSIS COMPONENTS LABORATORY
CO1 :
Identify the various chassis frames of cars, bus (front engine & rear engine), truck and articulated vehicles.
CO2 :
Analyze the various specifications of different two and four wheeled vehicles.
CO3 :
Explain the methods of Disassembling, cleaning, inspection for wear and tear, servicing and assembling of single plate clutch and multi plate clutch.
CO4 :
Summarize the methods of Disassembling, cleaning, inspection for wear and tear, servicing and assembling of different types of gear box and calculation of gear ratios.
CO5 :
Summarize the methods of Disassembling, cleaning, inspection for wear and tear, servicing and assembling of braking system, bleeding in hydraulic brakes
CO6 :
Explain the methods of Disassembling, cleaning, inspection for wear and tear, servicing and assembling of front independent suspension, shock absorber and leaf spring suspension system.
VII 18AUDE711 Computational Fluid Dynamics
CO1 :
Discuss the principles of momentum and continuity
equations and their implications on Computational fluid dynamics
CO2 :
Formulate and solve 2D steady state heat diffusion problems using Finite difference and finite volume methods
CO3 :
Formulate and solve convection heat diffusion problems using finite volume method
CO4 :
Analyse the flow field using finite volume methods and use of simple algorithms
CO5 :
Use the turbulence models and mixing length concepts using K-ε models and able to generate mesh using adoptive mesh generation tools
CO6 :
Model and analyse the flow field problems using CFD
VII 18AUDE712 Automotive Testing
CO1 :
Test on effectiveness and efficiency of all the components
CO2 :
Incorporate all the automotive testing,
CO3 :
Test the vehicle in static and dynamic conditions
CO4 :
Regulate while testing a vehicle
CO5 :
Prepare the vehicle for testing according to standards
CO6 :
Analyse the vehicle and report the results
VII 18AUDE713 Computer Simulation of Engines
CO1 :
Explain the Basic Concept of Modeling & simulation
CO2 :
Analyze the combustion and stoichiometry process in IC Engine
CO3 :
Describe the detailed concept of air standard, fuel air cycle, progressive and actual cycle of simulation of SI engine
CO4 :
Analyse Simulation of IC Engines and its new concepts.
CO5 :
Develop modeling of IC engines
CO6 :
Discuss about the Simulation of IC Engines
VII 18AUDE721 New Generation and Hybrid Vehicles
CO1 :
Illustrate various flow phenomenon related to hybrid technologies of vehicles
CO2 :
Demonstrate and analyze different types of drag forces, Optimize various shape configurations in automobiles
CO3 :
Demonstrate various techniques used for new generation vehicles.
CO4 :
Explain stability of vehicle under aerodynamics forces
CO5 :
Illustrate the principle of automated tracks.
CO6 :
Describe the fundamentals of power system, suspensions and brakes.
VII 18AUDE722 Fundamentals of Noise & Vibration
CO1 :
Analyse the effects of noise, blast, vibration, and shock on people
CO2 :
Discuss the fundamental concept of noise, vibration and harshness pertain to an automobile
CO3 :
Predict the vibrational sources and its control
CO4 :
Differentiate between different types of vibrational transducers
CO5 :
Analysis the Equipment, Signal Processing, and Measuring Techniques
CO6 :
Discuss the sources, effects, prediction, control techniques, measurement techniques noise,vibration pertaining to an automobile.
VII 18AUDE723 Ergonomics and Styling
CO1 :
Sketch of automobile with new style, prepare clay models of the car and study the model.
CO2 :
Apply the basic techniques of ergonomics on vehicle design.
CO3 :
Design a vehicle with good visibility from inside.
CO4 :
Classify the vehicles and define basic terms.
CO5 :
Explain the ergonomics, stability the vehicle
CO6 :
Discuss various safety aspects in a given vehicle.
VII 18AUDE731 Industrial Engineering and Management
CO1 :
Employ management strategies
CO2 :
Use knowledge to industrial engineering.
CO3 :
Evaluate strategies for running the industry in profit
CO4 :
Employ estimating the auto components industries
CO5 :
Apraise Knowledge about MIS
CO6 :
Judge knowledge about factory management
VII 18AUDE732 Automotive Safety CO1
: Describe the various systems that enhances vehicle safety, passenger comfort, recent technologies in automobile field
CO2 :
Identity the various types of safety systems and its concepts
CO3 :
Evaluate the safety equipment’s and its functions
CO4 :
Examine collision warning and its avoidance
CO5 :
Design the automotive body for safety and comfort
CO6 :
Interpret comfort and convenience systems in automotive vehicle
VII 18AUDE733 Automotive pollution control
CO1 :
List and explain various effects of pollution on environment
CO2 :
Identify the various effects of operating variables on emission formation in SI Engine
CO3 :
Discuss the various effects of operating variables on emission formation in CI Engine
CO4 :
Analyse the control techniques for reduction of emission SI Engine
CO5 :
Propose the different areas of automobile pollution and control
CO6 :
Describe the fundamentals of formation of automobile pollutions in SI and CI Engines, various control
VII 18AUDE741 Off Road Vehicles CO1 :
Illustrate various requirements of off road vehicles
CO2 :
Demonstrate and analyze different types of off road vehicles
CO3 :
Demonstrate various techniques used for new generation vehicles
CO4 :
Explain stability of vehicle under aerodynamics forces.
CO5 :
Illustrate the principle of Farm equipments, military and combat vehicles
CO6 :
Discuss the fundamentals of vehicle systems and features.
VII 18AUDE742 New Product Development
CO1 :
Enumerate the working principle of engineering design.
CO2 :
Demonstrate needs of customer
CO3 :
Identify creative thinking.
CO4 :
Interpret the product architecture
CO5 :
simplyfy decision making
CO6 :
Demonstrate cost analysis
VII 18AUDE743 Alternate Energy sources for automobiles
CO1 :
Describe and explore the options for the alternative fuels for the Automotive engin
CO2 :
Comprehend and identify the methods to implement ethanol and methanol as fuels for IC engines
CO3 :
Comprehend and identify the methods to implement CNG, LPG and biogas as fuels for IC engines
CO4 :
Identify the sources of biodiesel fuels and understand the harvesting technologies and also utilise the fuel cell technologies for automotive vehicles
CO5 :
Implement the solar energy technology for the hybrid vehicles
CO6 :
Harvest and utilise the Renewable energy sources for Automotives
VII 18AUOE711 Auto Electronics & EMC
CO1 :
Enumerate the working principle of various batteries and starting systems
CO2 :
Demonstrate the construction and working of charging and lighting system
CO3 :
Identify various sensors in EMS and link the actuators.
CO4 :
Explain the fundamentals of electronics control system
CO5 :
Describe working of control systems
CO6 :
Demonstrate various control systems in automobiles
VII 18AUOE712 Automotive Safety CO1 :
summarize the various systems that enhances vehicle safety, passenger comfort, recent technologies in automobile field
CO2 :
Identity the various types of safety systems and its concepts
CO3 :
Evaluate the safety equipment’s and its functions
CO4 :
Predict of collision warning and its avoidance
CO5 :
Design the automotive body for safety and comfort
CO6 :
Gain Knowledge on comfort and convenience systems in automotive vehicle
VII 18AUOE721 Transport Management
CO1 :
Discuss the objectives and functions of personnel management
CO2 :
Describe different aspects related to transport system and management.
CO3 :
Discuss Features of scheduling, fixing the fares
CO4 :
Describe the motor vehicle act in the transport system
CO5 :
Describe the maintenance systems in transport industry
CO6 :
Identify transport fleet and their related activities for minimizing operational cost.
VII 18AUOE722 Industrial Engineering and Management
CO1 :
Identify competent to do management strategies
CO2 :
Acquire knowledge to industrial engineering.
CO3 :
Explain strategies to evaluate strategies for running the industry in profit
CO4 :
Expedite estimating the auto components industries
CO5 :
Discuss Knowledge about MIS
CO6 :
Acquire knowledge about factory management
VII Project work -I CO1 :
Identify project goals, constraints, deliverables, performance criteria, control needs and requirements
CO2 :
Demonstrate concepts, tools and techniques to do quality projects.
CO3 :
Adapt projects in response to issues that arise internally and externally.
CO4 :
Interact with team and stakeholders in a professional manner, respecting differences, to ensure a collaborative project environment.
CO5 :
Utilize technology tools for communication, collaboration, information management, and decision support
CO6 :
identify the real time complex real time problems and solution techniques
VII 18AUOE811 New Generation
and Hybrid Vehicles
CO1 :
Illustrate various flow phenomenon related to hybrid technologies of vehicles
CO2 :
Demonstrate and analyze different types of drag forces, Optimize various shape configurations in automobiles
CO3 :
Demonstrate various techniques used for new generation vehicles.
CO4 :
Comprehend stability of vehicle under aerodynamics forces
CO5 :
Illustrate the principle of automated tracks.
CO6 :
Discuss the fundamentals of power system, suspensions and brakes.
VIII 18AUOE812 Automotive Testing
CO1 :
Test on effectiveness and efficiency of all the components
CO2 :
Use all the automotive testing,
CO3 :
Test the vehicle in static and dynamic conditions
CO4 :
Assess while testing a vehicle
CO5 :
Prepare the vehicle for testing according to standards
CO6 :
Analyse the vehicle and report the results
VIII 18AUOE821 Automotive pollution control
CO1 :
Define various effects of pollution on environment
CO2 :
Identify the various effects of operating variables on emission formation in SI Engine
CO3 :
Discuss the various effects of operating variables on emission formation in CI Engine
CO4 :
Analyse the control techniques for reduction of emission SI Engine
CO5 :
Predict the different areas of automobile pollution and control
CO6 :
Demonstrate the fundamentals of formation of automobile pollutions in SI and CI Engines, various control
VIII 18AUOE822 Alternate Energy Sources for Automobiles
CO1 :
list and explain and explore the options for the alternative fuels for the Automotive engines
CO2 :
Identify the methods to implement ethanol and methanol as fuels for IC engines
CO3 :
Identify the methods to implement CNG, LPG and biogas as fuels for IC engines
CO4 :
Identify the sources of biodiesel fuels and understand the harvesting technologies and also utilise the fuel cell technologies for automotive vehicles
CO5 :
Implement the solar energy technology for the hybrid vehicles
CO6 :
Use the Renewable energy sources for Automotives
VIII Internship / Project work -II
CO1 :
Summarize the work completed in the form of technical documents
CO2 :
Identify the techniques implemented or to be implemented
CO3 :
Explain the results obtained in Project Phase I
CO4 :
Summarize the ultimate finding of the project.
CO5 :
Fomulate and present work carried out
CO6 :
Design, develop, test and comprehend the ideas in to realtime practice