Job Oriented Engineering Course in Engine and Hybrid/Electricvehicle Technology

Job Oriented Engineering Course in Engine and Hybrid/ElectricVehicle Technology

Sr. No. / Subject
1 / Engine Technology
2 / Hybrid And Electric Vehicles Technology
3 / Hybrid and Electric Vehicle analysis and simulation
4 / Computer Programming
5 / Professional Development courses
6 / Project

Course Name: ENGINE TECHNOLOGY

Unit I: Engine Components, its design and manufacturing: (8 hrs)

Unit II: Engine Systems: 12 (hrs)

Fuel supply systems of Engine:

Conventional individual pump and injector systems, fuel injectors and nozzles, Rotary pump injection systems, CRDI system components and working, theory of injection

Nozzle tests - Spray characteristics - Injection timing - Factors influencing fuel spray atomization, penetration and dispersion of diesel - pump calibration. Design of elementary carburetor, effect of altitude, various types of carburetors, Gasoline injection systems, MPFI systems and components

: Engine Cooling and Lubrication System

Air cooled and water cooled systems forced circulation-pressure cooling system - properties of coolant, additives for coolants

Pressure lubrication systems, mist lubrication system, wet and dry sump lubrication - Properties of lubricants.

Unit III: Intake and Exhaust Systems (6 Hrs)

Intake system components and working, Exhaust system components and working, supercharging and turbocharging systems Effects on engine performance - engine modification required - Thermodynamics of supercharging and turbo charging - Turbo lag- Turbocharging methods – VGT- Engine exhaust manifold arrangements-Types and methods of supercharging-Limitations.

Unit IV: Sensors and Actuators in Engine and Engine Management: (6 Hrs)

Sensors - Crank Position, Throttle Position, Air flow, Pressure, Temperature, Speed, Exhaust gas, Oxygen and Knock, Principle of operation, construction and characteristics. Actuators –Pneumatic, EGR Valve, Waste Gate

Unit V: Engine performance determination :( 8 Hrs)

Engine classification, Engine geometry,

Engine Performance parameters:Brake Performance, Indicated Performance, Friction power.

Engine combustion Performance: P-Theta analysis, Heat release analysis

•Engine Emission performance:Various emissions from Engines, Engine emission norms, Exhaust aftertreatment systems.

Unit VI; Future Fuels for engines and its Technologies (8 hrs)

CNG, Hydrogen, biodiesels and its blends, Engine development prospects Stratified charge, Lean burn engines, direct injection systems Homogeneous charge compression ignition, Low temperature diesel combustion, Advanced electronic-controlled engines, Hybrids and fuel cells

List of Books:

1. Ganesan V, Internal Combustion Engines, 4th edition, Tata McGraw Hill Book Cop., 2015
2. Mathur. M. L, and Sharma. R. P., A course in Internal Combustion Engines, Dhanpat Rai Publications Pvt.Ltd., 1998
3. Internal Combustion Engine Fundamentals – John B Heywood.
4. The Internal Combustion Engine in Theory and Practice: Vol. 1 & 2 – Charles Fayette Taylor.
5. Engine Emissions by Pundir
6. Engine management system Bosch Handbook
7. Alternative fuels by Thipse

Project Bases Labs:

Conduct any five Project based labs

Projects 1: Project based on testing of Diesel injection system

Project 2: Project based on MPFI system testing of petrol engine

Project 3: Project based on Design of Cooling system/lubrication system/exhaust system

Project 4: Project based on intake system design and swirl testing

Project5: Project based on EGR system, EGR valve andits control

Project 6: Project based on CRDI system management

Project 7: Project based on valve system fitting and testing

Course Outcomes:

Students will be able to

1. Demonstrate steps for engine components design and its manufacturing
2. Demonstrate, compare, analyze and design the fuel supply systems, cooling systems and Lubrication systems of Engines
3. Demonstrate, compare, analyze and design the intake systems and exhaust systems of Engines
4. Demonstrate, compare various sensors and actuators used on the engines
5. Determine the performance of the engines
6. Demonstrate, compare and analyze alternative fuels for engines and its future technologies

Course code: ME711THP
Course Name: HYBRID AND ELECTRIC VEHICLES TECHNOLOGY
Unit I: Introduction to Hybrid Electric Vehicles:(6 Hrs)
History of hybrid and electric vehicles, social and environmental importance of hybrid and electric vehicles, impact of modern drive-trains on energy supplies
Conventional Vehicles:Basics of vehicle performance, vehicle power source characterization, transmission characteristics, and mathematical models to describe vehicle performance.
Unit II: Hybrid Electric Drive-trains:(8 Hrs)
Basic concept of hybrid traction, introduction to various hybrid drive-train topologies, power flow control in hybrid drive-train topologies, fuel efficiency analysis
Electric Drive-trains:Basic concept of electric traction, introduction to various electric drive-train topologies, power flow control in electric drive-train topologies, fuel efficiency analysis.
Unit III: Electric Propulsion unit:(6 Hrs)
Introduction to electric components used in hybrid and electric vehicles, Configuration and control of DC Motor drives, Configuration and control of Induction Motor drives, configuration and control of PermanentMagnet Motor drives, Configuration and control of Switch Reluctance Motor drives, drive system efficiency.
Unit IV: Energy Storage:(6 Hrs)
Introduction to Energy Storage Requirements in Hybrid and Electric Vehicles, Battery based energy storage and its analysis, Fuel Cell based energy storage and its analysis, Super Capacitor based energy storage and its analysis, Flywheel based energy storage and its analysis, Hybridization of different energy storage devices.
Unit V: Sizing the drive system: (8 Hrs)
Matching the electric machine and the internal combustion engine (ICE), Sizing the propulsion motor, sizing the power electronics, selecting the energy storage technology, Communications, supporting subsystems
Unit VI: Energy Management Strategies:(6 Hrs)
Introduction to energy management strategies used in hybrid and electric vehicles, classification of different energy management strategies, comparison of different energy management strategies, implementation issues of energy management strategies
TEXTBOOK:

1. “Electric and Hybrid Vehicles Design Fundamentals” (2nd Edition), by Iqbal Husain

REFERENCES:

1. “Hybrid Electrical Vehicle Principles and Application with Practical Perspectives” byChris MI, M. Abul and David Wenzhong Gao
2. “Propulsion System for Hybrid Vehicle” 2nd Edition” by John M. Miller
3. “Modern Electric, Hybrid Electric and Fuel Cell Vehicles Fundamentals, Theory andDesign” By Mehrdad Ehsani, Yimin Gao and AliEmadi

Project Based labs:

Project 1: Project based on Hybrid vehicles drive train

Project 2: Project based on Electric vehicles drive train

Project 3: Project based on determination the power requirement of hybrid /electric vehicles

Project 4: Project based on sizing of the various components for hybrid /electric vehicles

Project 5: Project based on testing of hybrid /electric vehicles

Course Outcomes:

Students will be able to

1. Demonstrate, andcompare the conventional vehicles and hybrid vehicles
2. Demonstrate, andanalyze the drive trains of hybrid vehicles and electric vehicles
3. Demonstrate, compare andanalyze the motors used in hybrid vehicles and electric vehicles
4. Demonstrate, compare and analyze the energy storage systems used in hybrid vehicles and electric vehicles
5. Analyze the sizing of the components for the hybrid and electric vehicles
6. Demonstrate the utilization of various energy management strategies in the hybrid vehicles

Course code: ME712THP

Course Name: Hybrid and Electric Vehicle analysis and simulation

Unit I: Hybrid vehicles Analysis (6 Hrs)

Unit II: Hybrid vehicles Analysis:(6 Hrs)

Unit III: Electric vehicles Analysis:(6 Hrs)

Unit IV: Electric vehicles Analysis:(6 Hrs)

Unit V: Hybrid vehicles simulation (6 Hrs)

Unit VI: Hybrid vehicles simulation (6 Hrs)

Reference Books:

1. User Manuals Hybrid Vehicle simulation Software’s
2. “Electric and Hybrid Vehicles Design Fundamentals” (2nd Edition), by Iqbal Husain
3. “Modern Electric, Hybrid Electric and Fuel Cell Vehicles Fundamentals, Theory and Design” By Mehrdad Ehsani, Yimin Gao and AliEmadi

Project Based labs:

Project 1: Project based on Hybrid vehicle analysis

Project 2: Project based on Electric Vehicle analysis

Project 3: Project based on software

Project 4: Project based on simulation of hybrid vehicles

Project 5: Project based on simulation of electric vehicles

Course Outcomes:

Students will be able to

1. Analysis of hybrid vehicles
2. Analysis of electric vehicles
3. Understanding the use of Simulation software
4. Do the simulation of Hybrid vehicle with MATLAB
5. Demonstrate, the skill for Engine simulation software’s and Hybrid vehicles simulation software’s
6. Have hands on experience for Engine simulation and Hybrid /Electric vehicle simulation