Domain Track: Automobile Engineering
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Domain Track: Automobile Engineering

Domain Track: Automobile Engineering

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The domain is intended to give hands on training for repairing and maintenance of two wheelers, four wheelers and heavy commercial vehicles. Students are exposed to different types of advanced and special purpose tools to diagnose the fault in automobiles. Students learn troubleshooting of different parts of automobile by disassembling and assembling each subsystem. This domain also enhances the entrepreneurial skill of students which enables them to explore business opportunities in various sectors of automobile.

Track Total Credits ( 7-7-10)

Courses Division:
  • Introduction to Automobile Engineering (2-1-0)
  • Subsystems of Automobile (3-2-0)
  • Electric Vehicles (2-1-0)
  • Maintenance of Automobile (0-3-0)
  • Project (0-0-6)
  • Internship (0-0-4)

Domain Track Objectives

The domain is intended to give hands on training for repairing and maintenance of two wheelers, four wheelers and heavy commercial vehicles. Students are exposed to different types of advanced and special purpose tools to diagnose the fault in automobiles. Students learn troubleshooting of different parts of automobile by disassembling and assembling each subsystem. This domain also enhances the entrepreneurial skill of students which enables them to explore business opportunities in various sectors of automobile.

  • To familiarise the students with different systems and subsystems of automobile.
  • To teach basic skill in maintenance of different types of automobiles.
  • To know the operation and maintenance of electric vehicle.

Domain Track Learning Outcomes:

  •  Students will gain knowledge about the construction and working of different systems and subsystems of automobile.
  • They will be able to disassemble and assemble major aggregates of the automobile
  • Students will be able to do vehicle trouble shooting.

Career Scope

  • Engineer in Original Equipment Manufacturers (OEMs) and automobile ancillary industries.
  • Service engineer in automobile service stations.
  • Employment in automobile dealerships and construction equipment dealerships (Sales, Service, Spare parts)
  • Employment in automobile ancillary industries.
  • Employment in Research and Development (R and D) Sector.

Domain Syllabus:

Course 1: Introduction to Automobile Engineering (2-1-0) 33 hours
Module I
  • Automobile Architecture:
  • 1.1 Definition and Classification of Automobiles.
  • 1.2 Major Units of the Automobile.
  • 1.3 Types of Automobile Layouts.
  • 1.4 Automobile Chassis Types and Components.
  • 1.5 Automobile Body Types and Components.
  • 1.6 Automobile Safety Parameters.
Module II
  • Engine:
  • 1.7 Classification of Engine.
  • 1.8 Engine Nomenclature.
  • 1.9 Components of Engine.
  • 1.10 Valve Timing Diagram of SI & CI Engines.
  • 1.11 Variable Valve Timing.
  • 1.12 Working Principles of Modern Engine Combustion Technulogies (CRDI, GDI, HCCI, Dual Fuel Engine, Stratified Charge Engine.
Practice
  • 1.13 Valve Timing Diagram of SI Engine.
  • 1.14 Valve Timing Diagram of CI Engine.
Module III
  • Carburetion:
  • 1.15 Air-Fuel Ratio.
  • 1.16 Mixture Requirements for Different Load Conditions.
  • 1.17 Factors Affecting Carburetion, Principle of Carburetion.
  • 1.18 Limitations of Simple Carburettor.
  • 1.19 Additional Systems in Carburettor.
  • 1.20 Concept of Electronic Carburettor.
Practice
  • 1.21 Model Study of a Sulex Carburettor.
Module IV
  • Fuel Injection:
  • 1.22 Classification of Injection Systems.
  • 1.23 Fuel Feed Pump.
  • 1.24 Injection Pump.
  • 1.25 Injection Pump Governor.
  • 1.26 Fuel Injector and Nozzle.
  • 1.27 Electronic Injection Systems.
  • 1.28 Multi-Point Fuel Injection (MPFI) System.
  • 1.29 Direct And Indirect Fuel Injection.
Practice
  • 1.30 Study of Fuel Injection System of a Diesel Engine.
Module V
  • Transmission System:
  • 1.31 Layout of Power Flow from Engine to Wheels.
  • 1.32 Brief Construction and Working Principles of - Clutch, Transmissions, Propeller Shaft, Final Drive and Differential, Front and Rear Axles.
Practice
  • 1.33 Study of Transmission System of Automobile.
  • 1.34 Model Study of Differential of Automobile.
Module VI
  • Couling and Lubrication System:
  • 1.35 Direct Air Couled and Indirect Liquid Couled Couling Systems.
  • 1.36 Types and Components of Liquid Couled Couling System.
  • 1.37 Engine Coulant and Antifreeze Sulution.
  • 1.38 Desired Properties of Lubricants.
  • 1.39 Classification, Construction, Working Principles and Components of Various Types of Lubricating Systems.
Practice
  • 1.40 Model Study of Air Couling System.
  • 1.41 Model Study of Liquid Couling System.
Module VII
  • Super Charging &Turbo Charging:
  • 1.42 Naturally Aspirated and Forced Induction Engine.
  • 1.43 Effect of Forced Induction.
  • 1.44 Method of Supercharging, Types of Super Chargers.
  • 1.45 Basic Principle and Method of Turbo Charging, Types of Turbo Charging.
  • 1.46 Concept of Variable Geometry Turbocharging.
Practice
  • 1.47 Study of Working Model of Supercharger.
  • 1.48 Study of Working Model of Turbocharger.
Text Books
  • Gupta R. B., Automobile Engineering, Satya Prakashan, New Delhi.
  • Giri N. K., Automobile Technulogy, Khanna Publishers.
References
  • Gupta H. N., Fundamentals of Internal Combustion Engines, PHI Learning.

Course 2: Subsystems of Automobile (3-2-0) 55 hours

Module I
  • Engine Emissions:
  • 2.1 Sources of Air
  • Pullution from Automobiles and Their Contrul
  • 2.2 Crank Case Emission Contrul System
  • 2.3 Evaporative Emission Contrul System
  • 2.4 Exhaust Emission Contrul System: Air Injection, EGR, Catalytic Converters, Selective Catalytic Reduction (SCR) Technulogy
  • 2.5 EURO/Bharat Stage Norms: I, II, III, IV, V And VI, Road Map for Implementation of Bharat Stage Norms In India.
Practice
  • 2.6 Identification of Different Sub-Systems of Automobile.
  • 2.7 Studies of Exhaust Gas Recirculation System (EGR) in KNOW Vehicle.
Module II
  • Ignition System:
  • 2.8 Effect of Spark Timing on Emission and Ignition Timing Contruls
  • 2.9 Drawbacks of Conventional Ignition Systems
  • 2.10 Electronic Ignition Systems (TCI And CDI)
  • 2.11 Engine Cylinder Numbering Scheme and Firing Order of Multi Cylinder Engines.
Practice
  • 2.12 Study of Battery Ignition and Magneto Ignition System.
  • 2.13 Disassembly and Assembly of 6-Cylinder Diesel Engine
Module III
  • Transmission System:
  • 2.14 Power Transmission in Automobile (Front Wheel Drive, Rear Wheel Drive, Four-Wheel Drive, All-Wheel Drive).
  • 2.15 Clutch System: Key Design Considerations of Clutches, Types of Clutches
  • 2.16 Construction and Working Principle of Single Plate Friction Clutch
  • 2.17 Diaphragm Clutch, Cone Clutch, Centrifugal Clutch.
  • Gear Box:
  • 2.18 Purpose of Gear Box, Types of Automobile Gear Boxes
  • 2.19 Construction and Working Principle of Sliding Mesh, Constant Mesh, Synchronizer Mechanism and Synchromesh Gear Boxes
  • 2.20 Planetary Gear Mechanism
  • 2.21 Fluid Coupling and Torque Convertor
  • 2.22 Construction and Working Principle of Automatic Transmission
  • 2.23 Construction and Working Principle of Continuously Variable Transmission (CVT) and Automated Manual Transmission (AMT)
Practice
  • 2.24 Study of Single Plate Friction Clutches (Coil Spring Type And Diaphragm Type).
  • 2.25 Study of Synchronizer Mechanism And Synchromesh Gear Box, Continuously Variable Transmission (CVT).
Module IV
  • Propeller Shaft and Differential:
  • 2.26 Function and Need of Propeller Shaft
  • 2.27 Hotchkiss Drive and Torque Tube Drive
  • 2.28 Construction of Propeller Shaft, Universal/Hooke’s Joints, Slip Joint
  • 2.29 Constructional Features and Working Principle of Differential Mechanism
  • 2.30 Types of Differentials (Locking Type Differential, Limited Slip Differential).
  • Axles:
  • 2.31 Types of Automotive Axles, Constructional Features
  • 2.32 Types and Working Principle of Front Axles, Lift Axles, Rear Axle, Third Differential in Tandem Axle Vehicles
  • 2.33 Construction and Working Principle of Manual Transaxles and Transfer Cases.
Practice
  • 2.34 Study of Propeller Shaft, Universal Joints, Slip Joints, Centre Bearing.
  • 2.35 Study of Front Axle System.
  • 2.36 Study of Rear Axle System Including Differential Mechanism.
  • 2.37 Disassembly and Assembly of Manual Transaxle of Front Wheel Drive Car.
Module V
  • Steering System:
  • 2.38 Purpose of Steering System
  • 2.39 Components of Steering System
  • 2.40 Steering Geometry (Castor, Camber, Toe-In, Toe-Out, King Pin Inclination)
  • 2.41 Types of Steering Gear Boxes and their Construction and Working Principles
  • 2.42 Hydraulic and Electrically Power Assisted Steering Systems.
  • Braking System:
  • 2.43 Requirement and Key Design Parameters of Braking System
  • 2.44 Classification and Types of Braking Systems, Mechanical Brake, Hydraulic Brake, Air Brake, Vacuum Brake, Disc Brake. Construction
  • 2.45 Working Principle and Components of Anti-Lock Braking System (ABS)
Practice
  • 2.46 Study of Steering Gear Box And Hydraulic Power Assisted Steering System.
  • 2.47 Identifying the Different Components and Working Of Drum Brake, Disc Brake, Hydraulic Brake, Air Brake System.
  • 2.48 Study of Anti-Lock Braking System (ABS) In KNOW Vehicle.
Module VI
  • Auto Electric System:
  • 2.49 Wiring Diagram of Horn Circuit, Lighting Circuit, Cut-Out Circuit
  • 2.50 Vultage and Current Regulator Circuit in Commutator Type Generator
  • 2.51 Combined Three-Unit Regulator Circuit
  • 2.52 Vultage and Current Regulator in Alternating Current Type Generator And Flasher Circuit (Sketch And Description)
  • 2.53 Common Ignition Troubles And Its Remedies
  • 2.54 Basic Electronic Ignition Trouble Shooting Charts
  • 2.55 Spark Plugs: Purpose, Construction and Specifications.
Module VII
  • Suspension System:
  • 2.56 Purpose and Classification of Suspension Systems
  • 2.57 Sprung and Unsprung Mass
  • 2.58 Major Components of Suspension System
  • 2.59 Description of the Conventional Suspension Systems for Rear and Front Axle. Panhard Rod, Macpherson Strut, Double Wishbone Suspensions
  • 2.60 Description of Independent Suspension System Used In Cars (Coil Spring And Torsion Bars)
  • 2.61 Constructional Features and Working of Air Suspension System
  • 2.62 Anti-Rull Bars
  • 2.63 Constructional Features, Types and Working of Telescopic Shock Absorber.
Practice
  • 2.64 Identification of Different Types of Suspension Systems: Coil Spring, Tension and Telescopic Suspension System.
Text Books
  • Gupta R. B., Automobile Engineering, Satya Prakashan New Delhi
  • Giri N. K., Automobile Technulogy, Khanna Publishers
References
  • Crouse William H and Donald Anglin, Automotive Mechanics, Tata Mcgraw Hill Publications.
  • Newton K., Steeds W, and Garrett T K, The Motor Vehicle, Butterworth Heinemann

Course 3: Maintenance of Automobile (0-3-0) 40 hours

Practice
  • 3.1 Safety Precautions in Automobile Maintenance.
  • 3.2 Identification and Functions of Various Touls and Equipments used in Automobile Workshop.
  • 3.3 Disassembling and Assembling of Engine of a Four Wheeler.
  • 3.4 Disassembling and Assembling of Engine of a Two Wheeler.
  • 3.5 Engine Troubleshooting.
  • 3.6 Nomenclature of a Spark Plug and Spark Plug Reading, Testing and Cleaning of Spark Plug.
  • 3.7 Checking and Replenishing Lubricating Oil, Engine Coulant, Power Steering Hydraulic Oil and Wind Screen Wiper Water.
  • 3.8 Overhauling and Servicing of Fuel System including Air Filter.
  • 3.9 Disassembling and Assembling Of Clutch, Clutch Troubles And Remedies.
  • 3.10 Repairing and Adjustment of Brake System.
  • 3.11 Disassembling and Assembling of Propeller Shaft.
  • 3.12 Inspection and Servicing of Gear Box.
  • 3.13 Inspection and Servicing Of CVT.
  • 3.14 Tire Change Operation, Wheel Balancing, Wheel Alignment, Tire Inspection (Tubeless & Tube) and Inflation.
  • 3.15 Overhauling of Suspension System.
  • 3.16 Disassembling and Assembling of Steering System and Adjustment of Drag Link.
  • 3.17 Preparation of Electrical Circuits using Switches and Fuses.
  • 3.18 Checking of Battery Terminal Vultage, Electrulyte Level and Specific Gravity.
  • 3.19 Inspection of Different Electrical Circuits and ECU.
  • 3.20 Checking of Ignition System Circuit & Components.
Reference Book:
  • Training Manual Of Four Wheeler Maintenance (Ashok Leyland)
  • Training Manual Of Two Wheeler Maintenance (Yamaha)

Course 4: Electric Vehicles (2-1-0) 33 hours

Module I
  • Introduction to Electric Vehicles:
  • 4.1 Electric Vehicles Advantages and Disadvantages.
  • 4.2 EV Market and Promotion.
  • 4.3 Main Components of Electric Vehicle and Its Functions (Electrical and Mechanical).
Practice:
  • 4.4 Study of Different Components of E-Rickshaw and Assembing Methods.
  • 4.5 Working of Circuits in Contrullers with respect to Current and Vultage Rating.
Module II
  • Electric Vehicle Drive Trains:
  • 4.6 EV Transmission Configurations.
  • 4.7 Basic Architecture of Electric Drive Trains.
  • 4.8 Single and Multi-Motor Drives.
  • 4.9 In Wheel Drives.
Module III
  • Energy Sources:
  • 4.10 Working Principle of Battery.
  • 4.11 Types of Batteries, Lead-Acid Battery, Nickel-Cadmium Battery, Nickel-Metal-Hydride (Nimh) Battery, Lithium Batteries.
  • 4.12 Battery Parameters.
  • 4.13 Fuel Cells.
Practice:
  • 4.14 Maintenance of Lead Acid Batteries.
  • 4.15 Wiring & Harnessing of Battery Circuit.
Module IV
  • Electric Motors:
  • 4.16 Classification of Electric Motors.
  • 4.17 DC Motor, Types of DC Motors, Brushless DC Motor.
  • 4.18 AC Motor, Types of AC Motors.
  • 4.19 Induction Motor.
  • 4.20 Synchronous Motor.
  • 4.21 Regenerative Braking.
Practice:
  • 4.22 Study of Different Parts of D.C. Motor and Make Connection.
  • 4.23 Performance Characteristics of a Shunt and Series DC Motor.
  • 4.24 Load Test on Three Phase Induction Motor.
  • 4.25 Speed Contrul of DC Shunt Motor by Armature and Field Contrul.
Module V
  • Electric Vehicle Maintenance & Safety:
  • 4.26 Maintenance & Trouble Shooting of Different Components of EV.
  • 4.27 High Vultage Electrical Safety, Toul and Equipment Usage, High Vultage Safety Rules, Electrical Isulation.
Practice:
  • 4.28 Maintenance of BLDC Motor.
  • 4.29 Maintenance of Hub Motor.
Module VI
  • Design Concept of Electric Vehicle:
  • 4.30 Power and Torque Calculation of Electric Vehicles.
  • 4.31 Sizing of Components.
  • 4.32 Initial Acceleration, Maximum Velocity, Maximum Gradability.
Module VII
  • Hybrid Electric Vehicles:
  • 4.33 Types of Hybrids
  • 4.34 Series and Parallel HEVs
  • 4.35 Advantages and Disadvantages
  • 4.36 Series-Parallel Combination
  • 4.37 Hybrid Drivetrains
  • 4.38 Sizing of Component
Text Books
  • Hussein Iqbal, Electric and Hybrid Vehicles: Design Fundamentals, CRC Press
  • Chau K. T., Electric Vehicle Machines and Drives: Design, Analysis and Application,Wiley.
References
  • Chan C.C. and Chau K.T., Modern Electric Vehicle Technulogy, London: Oxford University.

Session Plan for the Entire Domain:

Course 1: Introduction to Automobile Engineering
Session 1:
  • Definition and Classification of Automobiles, Major Units of the Automobile
  • Video Link...

Class Notes:

Introduction to Automobile Engineering
Session 2:
  • Types of Automobile Layouts, Automobile Chassis Types and Components
  • Video Link...
Session 3:
  • Automobile Body Types and Components, Automobile Safety Parameters
  • Video Link...
Session 4:
Session 5:
Session 6:
Session 7:
Session 8:
  • Working Principles of Modern Engine Combustion Technologies (CRDI, GDI, HCCI, Dual Fuel Engine, Stratified Charge Engine.
  • Video Link 1...
  • Video Link 2...
Session 9:
Session 10:
  • Principle of Carburetion, Limitations of Simple Carburettor
  • Video Link 1...
Session 11:
  • Additional Systems in Carburettor, Concept of Electronic Carburettor
  • Video Link...
Session 12:
Session 13:
  • Classification of Injection Systems, Fuel Feed Pump
  • Video Link...
Session 14:
Session 15:
Session 16:
Session 17:
  • Multi-Point Fuel Injection (MPFI) System, Direct And Indirect Fuel Injection
  • Video Link...
Session 18:
  • Study of Fuel Injection System of a Diesel Engine. (Practice)
  • Video Link...
Session 19:
Session 20:
Session 21:
  • Study of Transmission System of Automobile. and Model Study of Differential of Automobile. (Practice)
  • Video Link...
Session 22:
  • Direct Air Cooled and Indirect Liquid Cooled Cooling Systems
  • Video Link...
Session 23:
  • Types and Components of Liquid Cooled Cooling System, Engine Coolant and Antifreeze Solution
  • Video Link...
Session 24:
  • Desired Properties of Lubricants
Session 25:
  • Classification, Construction, Working Principles and Components of Various Types of Lubricating Systems
  • Video Link...
Session 26:
Session 27:
Session 28:
  • Naturally Aspirated and Forced Induction Engine, Effect of Forced Induction, Method of Supercharging
  • Video Link...
Session 29:
Session 30:
Session 31:
Session 32:
Session 33:
  • Study of Working Model of Supercharger and Working Model of Turbocharger (Practice)
Course 2: Subsystems of Automobile (3-2-0)
Session 1:
  • Sources of Air Pollution from Automobiles and Their Control, Crank Case Emission Control System
  • Video Link...
Class Notes on Automobile:
Session 2:
  • Evaporative Emission Control System, Exhaust Emission Control System: Air Injection
  • Video Link...
Session 3:
Session 4:
Session 5:
  • EURO/Bharat Stage Norms: I, II, III, IV, V And VI, Road Map for Implementation of Bharat Stage Norms In India
  • Video Link...
Session 6:
  • Studies of Exhaust Gas Recirculation System (EGR) in KNOW Vehicle (Practice)
Session 7:
  • Effect of Spark Timing on Emission and Ignition Timing Controls, Drawbacks of Conventional Ignition Systems
  • Video Link...
Session 8:
Session 9:
  • Engine Cylinder Numbering Scheme and Firing Order of Multi Cylinder Engines
  • Video Link...
Session 10:
  • Study of Battery Ignition and Magneto Ignition System (Practice)
Session 11:
  • Disassembly and Assembly of 6-Cylinder Diesel Engine (Practice)
Session 12:
  • Power Transmission in Automobile (Front Wheel Drive, Rear Wheel Drive, Four-Wheel Drive, All-Wheel Drive)
  • Video Link...
Session 13:
  • Key Design Considerations of Clutches, Types of Clutches
  • Video Link...
Class Notes:
Session 14:
  • Construction and Working Principle of Single Plate Friction Clutch
  • Video Link...
Session 15:
Session 16:
Session 17:
  • Purpose of Gear Box, Types of Automobile Gear Boxes, Construction and Working Principle of Sliding Mesh, Constant Mesh
  • Video Link 1...
  • Video Link 2...
Session 18:
  • Synchronizer Mechanism and Synchromesh Gear Boxes
  • Video Link...
Session 19:
Session 20:
Session 21:
  • Construction and Working Principle of Automatic Transmission
  • Video Link...
Session 22:
  • Construction and Working Principle of Continuously Variable Transmission (CVT) and Automated Manual Transmission (AMT)
  • Video Link...
Session 23:
  • Study of Single Plate Friction Clutches (Coil Spring Type And Diaphragm Type)
    (Practice)
Session 24:
  • Study of Synchronizer Mechanism And Synchromesh Gear Box, Continuously Variable Transmission (CVT)
    (Practice)
Session 25:
  • Function and Need of Propeller Shaft, Hotchkiss Drive and Torque Tube Drive
  • Video Link...
Session 26:
  • Construction of Propeller Shaft, Universal/Hooke’s Joints, Slip Joint
  • Video Link...
Session 27:
  • Constructional Features and Working Principle of Differential Mechanism, Types of Differentials (Locking Type Differential, Limited Slip Differential)
  • Video Link...
Session 28:
  • Types of Automotive Axles, Constructional Features, Types and Working Principle of Front Axles
  • Video Link...
Session 29:
Session 30:
  • Third Differential in Tandem Axle Vehicles, Construction and Working Principle of Manual Transaxles and Transfer Cases.
  • Video Link...
Session 31:
  • Study of Propeller Shaft, Universal Joints, Slip Joints, Centre Bearing.Study of Front Axle System(Practice)
Session 32:
  • Study of Rear Axle System Including Differential Mechanism, Disassembly and Assembly of Manual Transaxle of Front Wheel Drive Car (Practice)
Session 33:
  • Purpose of Steering System, Components of Steering System, Steering Geometry (Castor, Camber, Toe-In, Toe-Out, King Pin Inclination)
  • Video Link...
Session 34:
  • Types of Steering Gear Boxes and their Construction and Working Principles
  • Video Link...
Session 35:
  • Hydraulic and Electrically Power Assisted Steering Systems.
  • Video Link...
Session 36:
  • Requirement and Key Design Parameters of Braking System, Classification and Types of Braking Systems, Mechanical Brake
  • Video Link...
Session 37:
Session 38:
  • Working Principle and Components of Anti-Lock Braking System (ABS)
  • Video Link...
Session 39:
  • Study of Steering Gear Box And Hydraulic Power Assisted Steering System, Identifying the Different Components and Working Of Drum Brake, Disc Brake, Hydraulic Brake, Air Brake System. (Practice)
Session 40:
  • Wiring Diagram of Horn Circuit, Lighting Circuit, Cut-Out Circuit, Voltage and Current Regulator Circuit in Commutator Type Generator, Combined Three-Unit Regulator Circuit
  • Video Link...
Session 41:
  • Voltage and Current Regulator in Alternating Current Type Generator And Flasher Circuit (Sketch And Description), Common Ignition Troubles And Its Remedies, Basic Electronic Ignition Trouble Shooting Charts
  • Video Link...
Session 42:
  • Spark Plugs: Purpose, Construction and Specifications.
  • Video Link...
Session 43:
  • Purpose and Classification of Suspension Systems, Sprung and Unsprung Mass, Major Components of Suspension System
  • Video Link...
Session 44:
  • Description of the Conventional Suspension Systems for Rear and Front Axle. Panhard Rod, Macpherson Strut, Double Wishbone Suspensions.
  • Video Link 1...
  • Video Link 2...
Session 45:
  • Description of Independent Suspension System Used In Cars (Coil Spring And Torsion Bars), Constructional Features and Working of Air Suspension System, Anti-Roll Bars, Constructional Features, Types and Working of Telescopic Shock Absorber.
  • Video Link 1...
  • Video Link 2...
Session 46:
  • Study of Different Types of Suspension Systems (Practice)
Course 3: Electric Vehicles (2-1-0)
Session 1:
Session 2:
Session 3:
  • Main Components of Electric Vehicle and Its Functions (Electrical and Mechanical
  • Video Link...
Session 4:
  • Study of Different Components of E-Rickshaw and Assembing Methods (Practice)
Session 5:
  • Study of Circuits in Controllers with respect to Current and Voltage Rating (Practice)
Session 6:
Session 7:
Session 8:
Session 9:
Session 10:
Session 11:
  • Nickel-Cadmium Battery, Nickel-Metal-Hydride (Nimh) Battery
  • Video Link...
Session 12:
Session 13:
Session 14:
  • Maintenance of Lead Acid Batteries and Wiring & Harnessing of Battery Circuit. (Practice)
Session 15:
  • Classification of Electric Motors, DC Motor, Types of DC Motors
  • Video Link...
Session 16:
Session 17:

: AC Motor, Types of AC Motors, Induction Motor

 

Session 18:
Session 19:
Session 20:
  • Study of Different Parts of D.C. Motor and Make Connection and Performance Characteristics of a Shunt and Series DC Motor
Session 21:
  • Load Test on Three Phase Induction Motor (Practice)
  • Video Link...
Session 22:
Session 23
  • Maintenance & Trouble Shooting of Different Components of Electric Vehicle (Practice)
Session 24:
  • High Voltage Electrical Safety, Tool and Equipment Usage
  • Video Link...
Session 25:
Session 26:
  • Maintenance of BLDC Motor. (Practice)
Session 27:

Maintenance of Hub Motor. (Practice)

Session 29:
  • Power and Torque Calculation of Electric Vehicles, Sizing of Components, Initial Acceleration, Maximum Velocity, Maximum Gradability
  • Video Link...
Session 30:
Session 31:
Session 32:

Course 4: Maintenance of Automobile (0-3-0)

Session 1
Session 2:
  • Identification and Functions of Various Tools and Equipments used in Automobile Workshop.
Session 3:
  • Disassembling and Assembling of Engine of a Four Wheeler.
  • Video Link...
Session 4:

Disassembling and Assembling of Engine of a Two Wheeler.

Session 5:
  • Engine Troubleshooting.
Session 6:
  • Nomenclature of a Spark Plug and Spark Plug Reading, Testing and Cleaning of Spark Plug.
  • Video Link...
Session 7:
  • Checking and Replenishing Lubricating Oil, Engine Coolant, Power Steering Hydraulic Oil and Wind Screen Wiper Water.
Session 8:
  • Overhauling and Servicing of Fuel System including Air Filter.
  • Video Link...
Session 9:
  • Disassembling and Assembling Of Clutch, Clutch Troubles And Remedies.
  • Video Link...
Session 10:
Session 11:
Session 12:
  • Inspection and Servicing of Gear Box.
Session 13:
Session 14:
  • Tire Change Operation, Wheel Balancing, Wheel Alignment, Tire Inspection (Tubeless & Tube) and Inflation.
Session 15:
Session 16:
  • Disassembling and Assembling of Steering System and Adjustment of Drag Link.
  • Video Link...
Session 17:
  • Preparation of Electrical Circuits using Switches and Fuses.
  • Video Link...
Session 18:
  • Checking of Battery Terminal Voltage, Electrolyte Level and Specific Gravity.
  • Video Link...
Session 19:
  • Inspection of Different Electrical Circuits and ECU.
  • Video Link...
Session 20
  • Checking of Ignition System Circuit & Components.
  • Video Link...

List of Projects/ papers/jobs/products to be done in domain:

  • 1. Electromagnetic Clutch
  • 2.Eletromagnetic Shock absorber
  • 3. Auto Turning Fuel Valve
  • 4. Three wheeler shuttle vehicle
  • 5. Automatic Lubrication Unit
  • 6. Hydraulic Disc Brake
  • Gate 0: Idea
  • Gate 1: Scope
  • Gate 2: Development
  • Gate 3: Testing
  • Gate 4: Documentation

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Mr.ManasRanjanPadhi is working as an Assistant Professor in Mechanical Engineering Department in Centurion University of Technology and Management. He has 15 years of teaching experience and teaching subjects like Automobile, Thermodynamics, Heat Transfer,IC engine, Fluid mechanics and Power plant in both UG and PG level. His research area includes Heat transfer, CFD, Bio-fuel and Automobile. […]