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Electric Vehicle Comprehensive Course
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Introductory video
Course introduction
History of electric vehicles
Introduction to electric vehicles
Lithium demand and resources with current and future
Lithium mining and economics
Lithium extraction processes and comparison
Lithium ion battery manufacturing step by step
How an electric vehicle works
Electric motor types and functions
In-wheels electric motor with pros and cons
Controller functions and types
EV Inverter functionality and types
Internal combustion engine (ICE) vehicles
Battery electric vehicles (BEV)
Hybrid electric vehicles (HEV)
Plug in hybrid electric vehicles (PHEV)
Extended range electric vehicles (EREV)
Fuel cell electric vehicles (FCEV)
Hydrogen combustion engine vehicle
ICE vs EV torque output
Lead acid batteries
Nickel based batteries
Lithium nickel manganese cobalt oxide (NMC) batteries
Lithium nickel cobalt aluminum oxide (NCA) batteries
Lithium cobalt oxide (LCO) batteries
Lithium manganese oxide (LMO) batteries
Lithium titanate (LTO) batteries
Lithium iron phosphate (LFP) batteries
Lithium sulfur (LiS) batteries
Supercapacitors vs lithium ion batteries for electric vehicles
Solid state batteries for EVs the future battery technology
Charging and their levels
Fast charging and overcharging
Tesla supercharging network
Home charging
Public charging
Solar charging
Vehicle to vehicle (V2V) charging
V2H and V2G charging
Wireless charging
Battery swapping
Smart grid integration of EVs for energy load management
Untitled lesson
Why battery thermal management system (BTMS) is needed
Why battery thermal management system (BTMS) is needed part 2
Why battery efficiency decrease in winter
Why battery get heated
Thermal runaway
Phase change cooling
Fin cooling
Air cooling
Liquid cooling with direct and indirect methods
Reasons of EV batteries catching fire and their safety improvements
Series configuration
Parallel configuration
Series and parallel configuration
Electric vehicle manufacturing process overview
3D printing technology for EV components and parts development
Sustainable materials for EV manufacturing
Cost of buying electric vehicle
Running cost of electric vehicle
Retrofitting conventional car to electric car EV
Difference between EV and Retrofit-EV
Impacts of electric vehicles on the environment
Impacts of electric vehicle on economy
EV battery standardization: The pros and cons
Reasons of EVs will kill the ICE vehicles
EV battery standardization: The pros and cons
Packing and protection of the battery packs
Position of the battery in EV
Electric vehicle dynamics
EV’s range influence factors
Electric vehicle safety sensors
Lifecycle of electric vehicle batteries
EV battery recycling methods
Electric vehicles business opportunities
Early acceptors will take the lead
Most ready countries for electric vehicles
Most ready electric vehicle manufacturers
Electric vehicles adaptation rate
Self-Driving future will be electric car
Role of Artificial Intelligence and Machine Learning in EV developments
Cybersecurity threats and their solutions in electric vehicles
EV after 10 years
Helpful practice activity
Introductory video
Introductory video
Preview
Course introduction
Course introduction
Preview
Introduction
History of electric vehicles
Introduction to electric vehicles
Preview
Lithium to lithium ion batteries
Lithium demand and resources with current and future
Lithium mining and economics
Lithium extraction processes and comparison
Lithium ion battery manufacturing step by step
How an electric vehicle works
How an electric vehicle works
Electric motor types and functions
In-wheels electric motor with pros and cons
Controller functions and types
EV Inverter functionality and types
Types of the vehicles
Internal combustion engine (ICE) vehicles
Battery electric vehicles (BEV)
Hybrid electric vehicles (HEV)
Plug in hybrid electric vehicles (PHEV)
Extended range electric vehicles (EREV)
Fuel cell electric vehicles (FCEV)
Hydrogen combustion engine vehicle
ICE vs EV torque output
ICE vs EV torque output
Types of batteries used in electric vehicles
Lead acid batteries
Nickel based batteries
Lithium nickel manganese cobalt oxide (NMC) batteries
Lithium nickel cobalt aluminum oxide (NCA) batteries
Lithium cobalt oxide (LCO) batteries
Lithium manganese oxide (LMO) batteries
Lithium titanate (LTO) batteries
Lithium iron phosphate (LFP) batteries
Lithium sulfur (LiS) batteries
Supercapacitors vs lithium ion batteries for electric vehicles
Solid state batteries for EVs the future battery technology
Charging of electric vehicles
Charging and their levels
Fast charging and overcharging
Tesla supercharging network
Home charging
Public charging
Solar charging
Vehicle to vehicle (V2V) charging
V2H and V2G charging
Wireless charging
Battery swapping
Smart grid integration of EVs for energy load management
Untitled lesson
Battery management system (BMS)
Why battery thermal management system (BTMS) is needed
Why battery thermal management system (BTMS) is needed part 2
Why battery efficiency decrease in winter
Why battery get heated
Thermal runaway
Phase change cooling
Fin cooling
Air cooling
Liquid cooling with direct and indirect methods
Reasons of EV batteries catching fire and their safety improvements
Reasons of EV batteries catching fire and their safety improvements
Battery configurations
Series configuration
Parallel configuration
Series and parallel configuration
Electric vehicle manufacturing process overview
Electric vehicle manufacturing process overview
3D printing technology for EV components and parts development
Sustainable materials for EV manufacturing
Cost of EV ownership
Cost of buying electric vehicle
Running cost of electric vehicle
Retrofitting gas cars to electric cars
Retrofitting conventional car to electric car EV
Difference between EV and Retrofit-EV
Impacts of electric vehicles on society
Impacts of electric vehicles on the environment
Impacts of electric vehicle on economy
EV battery standardization: The pros and cons
Electric vehicle will kill the gas car
Reasons of EVs will kill the ICE vehicles
Important information section
EV battery standardization: The pros and cons
Packing and protection of the battery packs
Position of the battery in EV
Electric vehicle dynamics
EV’s range influence factors
Electric vehicle safety sensors
Lifecycle of electric vehicle batteries
EV battery recycling methods
Electric vehicles business opportunities
Electric vehicles business opportunities
Early acceptors will take the lead
Future of electric vehicles
Most ready countries for electric vehicles
Most ready electric vehicle manufacturers
Electric vehicles adaptation rate
Self-Driving future will be electric car
Role of Artificial Intelligence and Machine Learning in EV developments
Cybersecurity threats and their solutions in electric vehicles
EV after 10 years
Assignment
Helpful practice activity
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