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Electric Vehicles and Renewable Energy

Electric Vehicles and Renewable Energy. Instructor: Prof. Ashok Jhunjhunwala, Prof. Kaushal Kumar Jha, and Prof. Kannan L, Department of Electrical Engineering, IIT Madras. This course provides an understanding of the fundamentals of Electric Vehicles (EVs) and Renewable Energy, especially in Indian Context. Topics covered in the course includes: overview of electrical vehicles, vehicle dynamics, vehicle subsystems, storage of electrical vehicles, fundamentals of EV battery pack design, EV motors and controllers, battery charging and swapping and infra management, introduction to energy scenario in India, solar and wind energy in India, and storage options for energy. (from nptel.ac.in)

Lecture 32 - Computation of Effective Cost of Battery, Part 2


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Lecture 01 - Electric Vehicle Introduction
Lecture 02 - The Drive Torque, Power, Speed and Energy
Lecture 03 - Energy Source
Lecture 04 - Vehicle Auxiliary, Petrol Pumps and Charging Stations
Lecture 05 - Introduction to Electric Vehicles in India
Lecture 06 - Can India Drive its EV Program Innovatively and Differently and Scale?
Lecture 07 - Battery Cost Reduction Strategy
Lecture 08 - A Bit about Batteries, Charging and Swapping Infrastructure
Lecture 09 - Where will We Get Lithium for Batteries and EV Subsystems?
Lecture 10 - Forces Acting When a Vehicle Moves
Lecture 11 - Aerodynamic Drag, Rolling Resistance and Uphill Resistance
Lecture 12 - Power and Torque to Accelerate
Lecture 13 - Putting it All Together, Part 1
Lecture 14 - Putting it All Together, Part 2
Lecture 15 - Concept of Drive Cycle, Part 1
Lecture 16 - Concept of Drive Cycle, Part 2
Lecture 17 - Drive Cycles and Energy Used per Km, Part 1
Lecture 18 - Drive Cycles and Energy Used per Km, Part 2
Lecture 19 - EV System: Design of EV Drive Train, Part 1
Lecture 20 - EV System: Design of EV Drive Train, Part 2
Lecture 21 - Introduction to Battery Parameters, Part 1
Lecture 22 - Introduction to Battery Parameters, Part 2
Lecture 23 - Why Lithium Ion Battery? (Part 1)
Lecture 24 - Why Lithium Ion Battery? (Part 2)
Lecture 25 - Batteries in Future
Lecture 26 - Li-Ion Battery Cells
Lecture 27 - SoH and SoC Estimation and Self Discharge, Part 1
Lecture 28 - SoH and SoC Estimation and Self Discharge, Part 2
Lecture 29 - Battery Pack Development, Part 1
Lecture 30 - Battery Pack Development, Part 2
Lecture 31 - Computation of Effective Cost of Battery, Part 1
Lecture 32 - Computation of Effective Cost of Battery, Part 2
Lecture 33 - Charging Batteries
Lecture 34 - Fundamentals of Battery Pack Design
Lecture 35 - Electrical Design of Battery Pack, Part 1
Lecture 36 - Electrical Design of Battery Pack, Part 2
Lecture 37 - Electrical Design of Battery Pack, Part 3
Lecture 38 - Mechanical Design of Battery Pack, Part 1
Lecture 39 - Mechanical Design of Battery Pack, Part 2
Lecture 40 - Mechanical Design of Battery Pack, Part 3
Lecture 41 - Mechanical Design of Battery Pack, Part 4
Lecture 42 - Thermal Design of Battery Pack, Part 1
Lecture 43 - Thermal Design of Battery Pack, Part 2
Lecture 44 - Thermal Design of Battery Pack, Part 3
Lecture 45 - Thermal Design of Battery Pack, Part 4
Lecture 46 - BMS Design and Embedded System, Part 1
Lecture 47 - BMS Design and Embedded System, Part 2
Lecture 48 - BMS Design and Embedded System, Part 3
Lecture 49 - BMS Design and Embedded System, Part 4
Lecture 50 - BMS Design and Embedded System, Part 5
Lecture 51 - Cell Testing and Characterization, Part 1
Lecture 52 - Cell Testing and Characterization, Part 2
Lecture 53 - EV Motors and Controllers: Vehicle Dynamics, Part 1
Lecture 54 - EV Motors and Controllers: Vehicle Dynamics, Part 2
Lecture 55 - EV Motors and Controllers: Understanding Flow, Part 1
Lecture 56 - EV Motors and Controllers: Understanding Flow, Part 2
Lecture 57 - Power and Efficiency
Lecture 58 - Torque Production, Part 1
Lecture 59 - Torque Production, Part 2
Lecture 60 - Torque Production, Part 3
Lecture 61 - Speed and Back EMF
Lecture 62 - The d-q Equivalent Circuit, Part 1
Lecture 63 - The d-q Equivalent Circuit, Part 2
Lecture 64 - Field-oriented Control
Lecture 65 - Three Phase AC, Part 1
Lecture 66 - Three Phase AC, Part 2
Lecture 67 - Thermal Design, Part 1
Lecture 68 - Thermal Design, Part 2
Lecture 69 - Thermal Design, Part 3
Lecture 70 - Engineering Considerations, Part 1
Lecture 71 - Engineering Considerations, Part 2
Lecture 72 - Engineering Considerations, Part 3
Lecture 73 - EV Charger Introduction
Lecture 74 - Charger Parameters and Types
Lecture 75 - Slow Fast Chargers and Swapping
Lecture 76 - Swapping
Lecture 77 - Standardization and On Board Chargers
Lecture 78 - Public Chargers
Lecture 79 - Public Charger Economics in Indian Context
Lecture 80 - Buck Chargers, Swapping Stations and Data Analytics
Lecture 81 - Introduction to Energy Scenario in India, Part 1
Lecture 82 - Introduction to Energy Scenario in India, Part 2
Lecture 83 - A Novel Approach towards 100% RE in India, Part 1
Lecture 84 - A Novel Approach towards 100% RE in India, Part 2
Lecture 85 - Going beyond Solar, Wind, Li Ion and Chilled Water Storage
Lecture 86 - Solar Photovoltaic
Lecture 87 - Solar Cells and its Characteristics
Lecture 88 - Solar Cells to Modules
Lecture 89 - Wind Energy
Lecture 90 - The War of Currents
Lecture 91 - The Birth of Solar - DC
Lecture 92 - Storage Options of Energy, Part 1
Lecture 93 - Storage Options of Energy, Part 2
Lecture 94 - Storage Options of Energy, Part 3
Lecture 95 - Storage Options of Energy, Part 4
Lecture 96 - The EV Ecosystem, Part 1
Lecture 97 - The EV Ecosystem, Part 2