Students are expected to know and be able –
Graduates from our program will
Student should be able to
|
First Year Engineering |
|
|
Course code and Name: 102003 - Systems in Mechanical Engineering |
|
|
102003.1 |
Describe and compare the conversion of energy from renewable and non-renewable energy sources |
|
102003.2 |
Explain basic laws of thermodynamics, heat transfer and their applications |
|
102003.3 |
List down the types of road vehicles and their specifications |
|
102003.4 |
Illustrate various basic parts and transmission system of a road vehicle |
|
102003.5 |
Discuss several manufacturing processes and identify the suitable process |
|
102003.6 |
Explain various types of mechanism and its application |
|
Course code and Name: 102012: Engineering Graphics |
|
|
102012.1 |
Explain the fundamental engineering objects using basic rules and able to construct the simple geometries. |
|
102012.2 |
Construct fully-dimensioned 2D, 3D drawings using computer aided drafting tools. |
|
102012.3 |
Construct the various engineering curves using the drawing instruments. |
|
102012.4 |
Apply the concept of orthographic projection of an object to draw several 2D views and its sectional views for visualizing the physical state of the object. |
|
102012.5 |
Apply the visualization skill to draw a simple isometric projection from given orthographic views precisely using drawing equipment. |
|
102012.6 |
Construct the development of lateral surfaces for cut section of geometrical solids |
|
Second Year Engineering |
|
|
Course code and Name: 202041 - Solid Mechanics |
|
|
202041.1 |
Identify the type of stresses and strain developed on determinate and indeterminate members. |
|
202041.2 |
Draw shear force and bending moment diagram for transverse loading acting on the beam |
|
202041.3 |
Compute the slope & deflection, bending stresses and shear stresses on a beam. |
|
202041.4 |
Calculate torsional shear stress in shaft and buckling on the column |
|
202041.5 |
Apply the concept of principal stresses and theories of failure to determine stresses on a 2-D element |
|
202041.6 |
Employ the concepts of sfd & bmd, torsion and principal stresses to solve combined loading application based problems. |
|
Course code and Name: 202042 - Solid Modeling and Drafting |
|
|
202042.1 |
Understand basic concepts of CAD system, need and scope in Product Lifecycle Management |
|
202042.2 |
Utilize knowledge of curves and surfacing features and methods to create complex solid geometry |
|
202042.3 |
Construct solid models, assemblies using various modeling techniques & PERFORM mass property analysis, including creating and using a coordinate system |
|
202042.4 |
Apply geometric transformations to simple 2D geometries |
|
202042.5 |
Use CAD model data for CAD based engineering applications. Production drawings, 3D printing, FEA, CFD, MBD, CAE, CAM. |
|
202042.6 |
Use product manufacturing information and model-based definitions approach for communication |
|
Course code and Name: 202043 - Engineering Thermodynamics |
|
|
202043.1 |
Corelate the basics of thermodynamics with heat and work interactions |
|
202043.2 |
Analyze laws of thermodynamics to steady flow and non-flow processes. |
|
202043.3 |
Apply entropy, available and non-available energy for an Open and Closed System |
|
202043.4 |
Devise the properties of steam and their effect on performance of vapour power cycle. |
|
202043.5 |
Analyze the fuel combustion process and products of combustion |
|
202043.6 |
Analyze the steam generator with all aspects. |
|
Course code and Name: 202044 - Engineering Materials and Metallurgy |
|
|
202044.1 |
Implement the knowledge of crystal structures and different lattice parameters |
|
202044.2 |
Determine the crystal structures and imperfections in crystals with mechanical behavior of materials. |
|
202044.3 |
Determine mechanical properties using destructive and non-destructive testing of material |
|
202044.4 |
Estimate the different parameters of the system viz., phases, variables, component, grains, grain boundary, and degree of freedom. Etc |
|
202044.5 |
Analyse effect of alloying element & heat treatment on properties of ferrous & nonferrous alloy |
|
202044.6 |
Implement the knowledge of various materials to select appropriate materials for various applications |
|
Course code and Name: 203156 - Electrical and Electronics Engineering |
|
|
203156.1 |
Describe programming concepts of microprocessor and microcontroller in embedded systems |
|
203156.2 |
Apply programming concepts to interface peripheral devices with atmega328 based arduino board |
|
203156.3 |
Apply the fundamentals of the operation of dc motor, its speed control methods and braking |
|
203156.4 |
Apply the fundamentals of three phase induction motor and its characteristics features |
|
203156.5 |
Explain about emerging technology of Electric Vehicle (EV) and its modular subsystems |
|
203156.6 |
Choose energy storage devices and electrical drives for EVs |
|
Course code and Name: 202045 - Geometric Dimensioning and Tolerancing Lab |
|
|
202045.1 |
Select appropriate IS and ASME standards for drawing |
|
202045.2 |
Analyse variety of industrial drawings |
|
202045.3 |
Select geometric and dimensional tolerance, surface finish symbols in drawing |
|
202045.4 |
Select dimensional tolerance based on type of fit, etc. |
|
202045.5 |
Identify an appropriate manufacturing process using DFM, DFA, etc |
|
Course code and Name: 207002 - Engineering Mathematics - III |
|
|
202045.1 |
Solve higher order linear differential equations and its applications to model and analyze mass spring systems |
| 202045.2 | Apply Integral transform techniques such as Laplace transform and Fourier transform to solve differential equations involved in vibration theory, heat transfer and related mechanical engineering applications |
| 202045.3 | ApplyStatistical methods like correlation, regression in analysing and interpreting experimental data applicable to reliability engineering and probability theory in testing and quality control. |
| 202045.4 | Perform Vector differentiation & integration, analyse the vector fields and APPLY to fluid flow problems. |
| 202045.5 | Solve Partial differential equations such as wave equation, one and two dimensional heat flow equations. |
|
Course code and Name: 202047 - Kinematics of Machinery |
|
|
202047.1 |
Applykinematic analysis to simple mechanisms |
|
202047.2 |
Analyse velocity and acceleration in mechanisms by Analytical method |
|
202047.3 |
Analyse velocity and acceleration in mechanisms by graphical method |
|
202047.4 |
Synthesize a four bar mechanism with analytical and graphical methods |
| 202047.5 | Apply fundamentals of gear theory as a prerequisite for gear design |
| 202047.6 | Construct cam profile for given follower motion |
|
Course code and Name: 202048 - Applied Thermodynamics |
|
|
202048.1 |
Determine COP of refrigeration system and demonstrate psychometric processes. |
|
202048.2 |
Explain basics of engine terminology, air standard, fuel air and actual cycles. |
|
202048.3 |
Idetify factors affecting the combustion performance of SI and CI engines. |
|
202048.4 |
Calculate performance parameters of IC Engines |
|
202048.5 |
Describe working of various IC Engine systems and use of alternative fuels. |
|
202048.6 |
Calculate performance of single and multi-stage reciprocating compressors |
|
Course code and Name: 202049 - Fluid Mechanics |
|
|
202049.1 |
Determine various properties of fluid |
|
202049.2 |
Apply the laws of fluid statics and concepts of buoyancy |
|
202049.3 |
Identify types of fluid flow and terms associated in fluid kinematics |
|
202049.4 |
Apply principles of fluid dynamics to laminar flow |
|
202049.5 |
Estimate friction and minor losses in internal flows and DETERMINE boundary layer formation over an external surface |
|
202049.6 |
Construct mathematical correlation considering dimensionless parameters, also ABLE to predict the performance of prototype using model laws |
|
Course code and Name: 202050 - Manufacturing Processes |
|
|
202050.1 |
Select appropriate moulding, core making and melting practice and calculate pouring time, solidification rate for sand casting process |
|
202050.2 |
Understand mechanism of metal forming techniques and calculate load required for flat rolling |
|
202050.3 |
Design dies and tools for formning and shearing operatins and exhibit press working operations |
|
202050.4 |
Explain a variety of arc welding and resistence welding processes used in joining of metals |
|
202050.5 |
Differentiate thermoplastics and thermosetting |
|
202050.6 |
Understand the principle of manufacturing of fibre-reinforce composites and metal matrix composites |
| Course code and Name: 202051 - Machine Shop | |
|
202051.1 |
Perform welding using TIG/ MIG/ Resistance/Gas welding technique |
| 202051.2 | Calculate machine time for cylindrical /surface grinding operation |
| 202051.3 | Determine number of indexing movements required and acquire skills to PRODUCE a spur gear on a horizontal milling machine |
| 202051.4 | Understand procedure of plastic processing |
| 202051.5 | Prepare industry visit report |
|
Course code and Name: 202052 - Project Based Learning - II |
|
|
203152.1 |
Identify the real-world problem (possibly of interdisciplinary nature) through a rigorous literature survey and formulate / set relevant aims and objectives. |
|
203152.2 |
Analyse the results and arrive at valid conclusions. |
|
203152.3 |
Propose a suitable solution based on the fundamentals of mechanical engineering by possibly integration of previously acquired knowledge. |
|
203152.4 |
Contribute to society through proposed solutions by strictly following professional ethics and safety measures. |
|
203152.5 |
Use of technology in proposed work and demonstrate learning in oral and written form |
|
203152.6 |
Develop ability to work as an individual and as a team member. |
|
Third Year Engineering |
|
| Course code and Name: 302041 - Numerical & Statistical Methods |
|
|
302041.1 |
Solve system of equations using direct and iterative numerical methods |
|
302041.2 |
Estimate solutions for differential equations using numerical techniques. |
|
302041.3 |
Develop solution for engineering applications with numerical integration. |
|
302041.4 |
Construct and create a model using a curve fitting and regression analysis. |
|
302041.5 |
Apply statistical Technique for quantitative data analysis. |
|
302041.6 |
Demonstrate the data, using the concepts of probability and linear algebra. |
|
Course code and Name: 302042 - Heat Transfer |
|
|
302042.1 |
Analyse the heat transfer rate in conduction for one dimensional thermal system |
|
302042.2 |
Design a thermal system considering fins, thermal insulation and Transient heat conduction. |
|
302042.3 |
Evaluate the heat transfer rate in natural and forced convection and validate with experimentation results. |
|
302042.4 |
Correlate the heat transfer by radiation between objects with simple geometries, for black and grey surfaces. |
|
302042.5 |
Analyze the rate of mass transfer using Fick’s Law of Diffusion and understands mass diffusion in different coordinate systems. |
|
302042.6 |
Design of heat transfer equipment for different applications. |
|
Course code and Name: 302043- Design Of Machine Elements |
|
|
302043.1 |
Design simple machine elements based on failure modes |
|
302043.2 |
Apply principles of design of shafts, keys and coupling for industrial applications |
|
302043.3 |
Design of power screws for screw jack, lead screw of lathe machine and c-clamp applications |
|
302043.4 |
Evaluate performance of machine elemets subjected to fluctuating loads |
|
302043.5 |
Decide dimensions fasteners and welded joints subjected to loading conditions |
|
302043.6 |
Solve problems on springs for strength and stiffness. |
|
Course code and Name: 302044 - Mechatronics |
|
|
302044.1 |
Define key elements of mechatronics, principle of sensor and its characteristics |
|
302044.2 |
Apply the concept of signal processing and use of interfacing systems such as ADC, DAC, Digital I/O. |
|
302044.3 |
Determine the transfer function by using block diagram reduction technique. |
|
302044.4 |
Evaluate Poles and Zero, frequency domain parameter for mathematical modeling for mechanical system. |
|
302044.5 |
Apply the concept of different controller modes to an industrial application. |
|
302044.6 |
Develop the ladder programming for industrial application. |
|
Course code and Name: 302045B - Elective I- Machining Science & Technology |
|
|
302045.1B |
Describe principles of metal cutting. |
|
302045.2B |
Explain gear and thread manufacturing processes. |
|
302045.3B |
Select appropriate grinding wheel based on type of operation. |
|
302045.4B |
Classify jigs and fixtures |
|
302045.5B |
Describe steps of process planning. |
|
302045.6B |
Write CNC program for Turning / Milling processes |
|
Course code and Name: 302046 - Digital Manufacturing Laboratory |
|
|
302046.1 |
Develop a component using conventional machines, CNC machines and Additive Manufacturing Techniques |
|
302046.2 |
Define cutting tool parameters used for machining . |
|
302046.3 |
Demonestrate simulation of manufacturing process |
|
302046.4 |
Design jigs and fixtures for a given component |
| 302046.5 | Describe parameters of CNC retrofitting and reconditioning. |
|
Course code and Name: 302047 - Skill Development |
|
|
302047.1 |
Apply &Demonestrate procedure of assembly & disassembly of various machines. |
|
302047.2 |
Build models/prototypes to develop a diverse set of design solutions |
|
302047.3 |
Evaluate fault with diagnosis on the machines, machine tools and home appliances |
|
302047.4 |
Demonstrate the various activities performed in an industry such as maintenance, design of components, material selection. |
|
Course code and Name: 302049 -Artificial Intelligence & Machine Learning |
|
|
302049.1 |
Demonstrate fundamentals of artificial intelligence and machine learning. |
|
302049.2 |
Apply the knowledge of feature extraction and selection techniques. |
|
302049.3 |
Implement the machine learning algorithms for classification and regression problems. |
|
302049.4 |
Develop a machine learning model using several steps. |
|
302049.5 |
Explain concepts of reinforced and deep learning. |
|
302049.6 |
Simulate machine learning model in mechanical engineering problems. |
|
Course code and Name: 302050 - Computer Aided Engineering |
|
|
302050.1 |
Determine the polynomial shape functions using natural coordinate system for bar and triangular elements |
|
302050.2 |
Estimate the quality of 2d & 3d mesh using element quality criterion for better approximation of analysis results |
|
302050.3 |
Determine the nodal displacements, element stresses developed in 1-d stepped bar & truss by hand calculation and software tool |
|
302050.4 |
Calculate the nodal displacements and element stresses in a plate using 2d elements for stated material properties and boundary conditions |
|
302050.5 |
Summarize the solution techniques used to solve a non-linear and dynamic analysis problems |
|
302050.6 |
Illustrate the role of cae tools used to solve cfd simulations, crash analysis, nvh and manufacturing process simulations |
|
Course code and Name: 302051 - Design of Transmission Systems |
|
|
302051.1 |
Apply the principle of Spur & Helical gear design for industrial application |
|
302051.2 |
Solve Bevel & Worm gear considering design parameters as per design standards |
|
302051.3 |
Select Rolling and Sliding Contact Bearings from manufacturer's catalogue for dynamic loading |
|
302051.4 |
Design various types of Clutches, Brakes, used in automobile. |
|
302051.5 |
Develop Machine Tool Gear box |
|
302051.6 |
Interprete modes of operation, degree of hybridization and allied terms associated with hybrid electric vehicles. |
|
Course code and Name: 302052 A - Elective II- Composite Materials |
|
|
302052.1A |
Compare composites with traditional materials. |
|
302052.2A |
Estimate different parameters of the Polymer Matrix Composite |
|
302052.3A |
Apply Metal Matrix Process from possessions landscape. |
|
302052.4A |
Determine volume/weight fraction and strength of Composites. |
|
302052.5A |
Select appropriate testing and inspection method for composite materials. |
| 302052.6A |
Select composite materials for various applications. |
|
Course code and Name: 302053 - Measurement Laboratory |
|
|
302053.1 |
Evaluate causes of errors in measuring instruments-vernier calipers, micrometers. |
|
302053.2 |
Explain concepts, uses, applications of go –no go gauges and design of gauges |
|
302053.3 |
Examine surface Textures, surface finish, surface finish requirements of metrological Equipment. |
| 302053.4 | Measure the dimensional accuracy using Comparator and limit gauges and comparison with standards set to reduce measurement lead time. |
| 302053.5 | Perform Testing of Flow rate, speed and temperature measurements and their effect on performance in machines and mechanisms |
| 302053.6 | Compile the information of opportunities in sectors of metrology calibrations, testing, coordinate and laser metrology . |
|
Course code and Name: 302054 - Fluid Power & Control Laboratory |
|
|
302054.1 |
Explain working principle of components used in hydraulic and pneumatic systems. |
|
302054.2 |
Identify applications of hydraulic and pneumatic systems. |
|
302054.3 |
Select an appropriate component required for hydraulic and pneumatic systems |
|
302054.4 |
Analyse hydraulic and pneumatic systems for industrial/mobile applications. |
| 302054.5 | Design a hydraulic and pneumatic systems according to requirement |
| 302054.6 | Design IoT, PLC based controlling system using hydraulic and pneumats. |
|
Course code and Name: 302055 - Internship/ Mini Project * |
|
| 302055.1 |
Apply science and engineering fundamentals to systematic investigation and interpretation of an engineering problem. |
| 302055.2 |
Demonstrate application of engineering techniques and tools. |
| 302055.3 |
Develop and apply systematic approach to conduct (execute) and manage engineering projects.. |
| 302055.4 |
Demonstrate abilities of a responsible professional and use ethical practices in day to day life. |
| 302055.5 |
Build , develop & maintain relationships with stake holders |
| 302055.6 |
Analyse various career opportunities and DECIDE career goals. |
|
Course code and Name: 302056- Audit Course VI - International Business |
|
| 302056.1 | Demonstrate knowledge of international trade and theories of exchange rate. |
| 302056.2 |
Illustrate the significance of ethics in business decision making process. |
| 302056.3 |
Deliver effective presentations on the business proposal as a team |
|
Final Year Engineering |
|
| Course code and Name: 402041 - Heating, Ventilation, Air Conditioning and Refrigeration | |
|
402041.1 |
Select the refrigerant based on properties, application and environmental issues |
|
402041.2 |
Analyze multi pressure refrigeration system for the refrigeration applications. |
|
402041.3 |
Explain types of compressors, condensers, evaporators and expansion valves along with regulatory and safety controls. |
|
402041.4 |
Estimate cooling load for air conditioning systems used by considering the design conditions and indoor quality of air. |
|
402041.5 |
Design air distribution system along with consideration of ventilation and infiltration. |
|
402041.6 |
Illustrate the working of types of desiccants, evaporative, thermal storage, radiant cooling, clean room and heat pump systems. |
|
Course code and Name: 402042 - Dynamics of Machinery |
|
|
402042.1 |
Apply balancing technique for static and dynamic balancing of multi cylinder inline and radial engines |
|
402042.2 |
Analyze the gyroscopic couple or effect for stabilization of ship, airplane and four-wheeler vehicles |
|
402042.3 |
Estimate natural frequency for single DOF un-damped & damped free vibratory systems |
|
402042.4 |
Determine response of forced vibrations due to harmonic excitation, base excitation and excitation due to unbalance forces |
|
402042.5 |
Estimate natural frequencies, mode shapes for two DOF undamped free longitudinal and torsional vibratory systems |
|
402042.6 |
Describe noise and vibration measuring instruments for industrial / real life applications along with suitable method for noise and vibration control |
|
Course code and Name: 402043 - Turbomachinery |
|
|
402043.1 |
Validate impulse moment principle using flat, inclined and curved surfaces and investigate performance characteristics of hydraulic turbines. |
|
402043.2 |
Determine performance parameters of impulse and reaction steam turbine along with discussion of nozzles, governing mechanism & losses. |
|
402043.3 |
Analyze the performance parameters of single & multistage centrifugal pumps by considering efficiency, head and cavitation. |
|
402043.4 |
Explain performance parameters of centrifugal compressor along with discussion of theoretical aspects of axial compressor. |
|
Course code and Name: 402044A - Automobile Design |
|
|
402044A.1 |
Apply the knowledge of design principal engine components |
|
402044A.2 |
Apply the knowledge and design of drive train, axel and steering |
|
402044A.3 |
Interprete the knowledge to design the various types automotive brakes. |
|
402044A.4 |
Interprete the knowledge of hybrid and electric vehicles |
|
402044A.5 |
Interprete the knowledge of energy source-battery |
|
402044A.6 |
Illustrate the knowledge of fuel cell vehicles |
|
Course code and Name: 402044C - Modern Machining Processes |
|
|
402044C.1 |
Apply the mechanism, process parameters of mechanical assisted modern machining processes. |
|
402044C.2 |
Apply the mechanism, construction and working of laser, plasma and electron beam assisted machining. |
|
402044C.3 |
Apply the mechanism, process parameters of the chemical and electrochemical machining. |
|
402044C.4 |
Apply the mechanism and select process parameters electrical discharge machining for an application. |
|
402044C.5 |
Demonstrate the application of micromachining processes |
|
402044C.6 |
Compare and suggest appropriate Nano machining process for the specific application. |
|
Course code and Name: 402044D - Industrial Engineering |
|
|
402044D.1 |
Evaluate productivity of industry and use technology based, material based, employee based, product-based productivity improvement techniques. |
|
402044D.2 |
Apply work study techniques and recording techniques and charts for better productivity. |
|
402044DA.3 |
Select plant location, plant layout and material handling equipment. |
|
402044D.4 |
Use of production planning and control tools for effective planning, scheduling and managing the shop floor control. |
|
402044D.5 |
Implement inventory control models and exercise effective control on manufacturing requirements. |
|
402044D.6 |
Apply ergonomics and legislations for human comfort at work place and understand the role of value engineering in improving productivity. |
|
Course code and Name: 402045A - Product Design and Development |
|
|
402045A.1 |
Explain product design and product development processes |
|
402045A.2 |
Illustrate processes, tools and techniques for market survey & product specification finalization |
|
402045A.3 |
Demonstrate processes, tools and techniques for concept inception, verification and selection |
|
402045A.4 |
Explain processes, tools and techniques for concept exploration & development |
|
402045A.5 |
Demonstrate processes, tools and techniques for design verification and validation |
|
402045A.6 |
Interpret processes, tools and techniques for robust design and development |
|
Course code and Name: 402045C - Additive Manufacturing |
|
|
402045C.1 |
Exlain the fundamentals of additive manufacturing technologies for engineering applications. |
|
402045C.2 |
Illustrate the methodology to manufacture the products using light-based and laser based technologies. |
|
402045C.3 |
Illustrate the methodology to manufacture the products using extrusion and energy based technologies. |
|
402045C.4 |
Recommend the suitable material and process for manufacturing of verities of products by using additive manufacturing technologies. |
|
402045C.5 |
Design the additive manufacturing equipment’s for appropriate applications. |
|
402045C.6 |
Explain the applications of additive manufacturing for real-life applications. |
|
Course code and Name: 402045D: Operations Research |
|
|
402047.1 |
Justify a decision using game theory and decision analysis technique for production planning |
|
402047.2 |
Apply Appropriate model for queuing and sequencing situation for optimal process time. |
|
402047.3 |
Solve linear programming problem using graphical and simplex method for profit maximization and loss minimization. |
|
402047.4 |
Solve transportation and assignment problem using graphical and simplex method of linear programming approach |
|
402047.5 |
Plan optimum project schedule using network model arising from network planning and situation. |
|
402047.6 |
Apply concepts of simulation and Dynamic programming. |
|
Course code and Name: 402048 - Computer Integrated Manufacturing |
|
|
402048.1 |
Identify CIM and factory automation |
|
402048.2 |
Understand the integration of hardware and software elements for CIM |
|
402048.3 |
Apply CNC program for appropriate manufacturing techniques |
|
402048.4 |
Analyze processes planning, quality and MRP integrated with computers |
|
402048.5 |
Interpret flexible, cellular manufacturing and group technology |
|
402048.6 |
Analyze the effect of IOT, industry-4.0 and cloud base manufacturing. |
|
Course code and Name: 402049 - Energy Engineering |
|
|
402049.1 |
Analyze the thermal power plant and ranking cycle. |
|
402049.2 |
Analyze the performance of steam condensers, cooling tower system; |
|
402049.3 |
Plan the layout, component details of diesel engine plant, hydel and nuclear energy systems. |
|
402049.4 |
Analyze gas power plant and gas power cycles. |
|
402049.5 |
Devise principles of energy management, energy storage and economics of power generation. |
| 402049.6 |
Illustrate the fundamentals of renewable energy systems. |
| Course code and Name: 402050A: Quality & Reliability Engineering | |
|
402050A.1 |
Understand basic concepts of quality and reliability for various quality tools |
|
402050A.2 |
Calculate control charts and process capability for analytical competencies. |
|
402050A.3 |
Illustrate fundamental concepts of reliability and safety and reliability, modes of failure. |
|
402050A.4 |
Evaluate system reliability and importance of reliability, uncertainty analysis. |
|
402050A.5 |
Identify various failure modes and for fault tree diagram and stress strength interaction. |
|
402050A.6 |
Understand the concept of reliability cantered maintenance and reliability tests methods. |
|
Course code and Name: 402050B - Energy Audit and Management |
|
|
402050B.1 |
Identify the energy need and role of energy management. |
|
402050B.2 |
Proposed an energy saving opportunities in the institute/industry/organization through energy audit. |
|
402050B.3 |
Determine the energy conservation opportunities using energy economics. |
|
402050B.4 |
Analyse the energy conservation performance of thermal utilities |
|
402050B.5 |
Analyse the energy conservation performance of electrical utilities. |
|
402050B.6 |
Illustrate the energy performance improvement by cogeneration and whr method. |
| Course code and Name: 402051B: Renewable Energy Technologies | |
|
402051B.1 |
Describe fundaments, needs and scopes of renewable energy systems. |
|
402051B.2 |
Explain performance aspects of flat and concentric solar collectors along with applications |
|
402051B.3 |
Design solar photovoltaic system for residential applications. |
| 402051B.4 | Design of wind energy conversion system. |
| 402051B.5 | Apply installation practices of wind and solar photovoltaic systems for grid connection. |
| 402051B.6 | Determine performance parameters of bio-energy conversion systems. |
|
Course code and Name: 402051E: Electric and Hybrid Vehicle |
|
|
402051E.1 |
Describe the fundamentals of electric vehicle and impact of ev on environment and economy |
|
402051E.2 |
Classify the hybrid electric vehicle drive trains |
|
402051E.3 |
Apply the fundamentals of prime movers, energy storage devices and electric vehicle controllers |
|
402051E.4 |
Categorize the electric vehicle configuration with respect to propulsion, power distribution and drive-train topologies |
| 402051E.5 |
Explain the body frame with appropriate suspension system and the testing methods for electric vehicles |
| 402051E.6 |
Describe battery charging techniques and battery management system of electric vehicle |
|
Course code and Name: 402047 & 402053: Project-I & II |
|
|
402047.1 |
To implement systems approach. |
|
402053.1 |
|
|
402047.2 |
To conceptualize a novel idea / technique into a product. |
|
402053.2 |
|
|
402047.3 |
To think in terms of a multi-disciplinary environment. |
|
402053.3 |
|
|
402047.4 |
To take on the challenges of teamwork and document all aspects of design work. |
|
402053.4 |
|
|
402047.5 |
To understand the management techniques of implementing a project. |
|
402053.5 |
|