Hydrogen Powered Fuel Cell Electric Vehicle
Last updated 12/2019
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.36 GB | Duration: 3h 15m
Last updated 12/2019
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.36 GB | Duration: 3h 15m
Fuel Cell Powered Electric Vehicle course would teach you about fuel cells, components involved, types and case studies.
What you'll learn
This course would cover the following topics - Components of Fuel Cells, Auxiliaries of a Fuel cell, types of fuel cell like Polymer Electrolyte Membrane Fuel Cells, Direct Methanol Fuel Cells, Alkaline Fuel Cells, Phosphoric Acid Fuel Cells, Molten Carbonate Fuel Cells, Solid Oxide Fuel Cells, Reversible Fuel Cells.
The innate workings of a Fuel stack and the manufacturing technologies would also be explained through high quality videos prepared by various OEM's and industry experts. Once these topics are covered we will move on to why Hydrogen is widely used as a fuel and elaborate on hydrogen fuel cells in it's entirety. The course would then conclude once all the theoretical concepts are validated through case studies about Toyota Mirai, Hyundai Nexo, Honda Clarity, Audi A7 h-tron, Mercedes-Benz GLC F-Cell.
Requirements
We recommend but do not require that you complete a university level course in Mechanical engineering or Automobile Engineering.
Description
This course would cover the following topics - Components of Fuel Cells, Auxiliaries of a Fuel cell, types of fuels like Polymer Electrolyte Membrane Fuel Cells, Direct Methanol Fuel Cells, Alkaline Fuel Cells, Phosphoric Acid Fuel Cells, Molten Carbonate Fuel Cells, Solid Oxide Fuel Cells, Reversible Fuel Cells. The innate workings of a Fuel stack and the manufacturing technologies would also be explained through high quality videos prepared by various OEM's and industry experts. Once these topics are covered we will move on to why Hydrogen is widely used as a fuel and elaborate on hydrogen fuel cells in it's entirety.The course would then conclude once all the theoretical concepts are validated through case studies about Toyota Mirai, Hyundai Nexo, Honda Clarity, Audi A7 h-tron, Mercedes-Benz GLC F-Cell.
Overview
Section 1: Introduction To Fuel Cell
Lecture 1 Introduction to Hydrogen Powered Fuel cell Vehicle
Lecture 2 What are Fuel Cell?
Lecture 3 How Fuel Cell Work?
Lecture 4 How Fuel Cell Works? (Video)
Lecture 5 Components of Fuel Cell
Lecture 6 Components of Fuel Cell (Video)
Lecture 7 Auxiliaries of Fuel Cell
Section 2: Types of Fuel Cell
Lecture 8 Polymer Electrolyte Membrane Fuel Cells
Lecture 9 Polymer Electrolyte Membrane Fuel Cells (Video)
Lecture 10 Direct Methanol Fuel Cells
Lecture 11 Direct Methanol Fuel Cells (Video)
Lecture 12 Alkaline Fuel Cells
Lecture 13 Alkaline Fuel Cells (Video)
Lecture 14 Phosphoric Acid Fuel Cells
Lecture 15 Molten Carbonate Fuel Cells
Lecture 16 Solid Oxide Fuel Cells
Lecture 17 Reversible Fuel Cells
Lecture 18 Comparison of Fuel Cell types
Section 3: Fuel Cell Stack and Application
Lecture 19 Fuel cell Stack and Application
Lecture 20 Fuel Cell Stack & Application (Video)
Section 4: Hydrogen Fuel Cell
Lecture 21 Why Hydrogen?
Lecture 22 Future Energy Scenario
Lecture 23 Why Hydrogen acts as Fuel for Fuel Cells?
Lecture 24 Why Hydrogen as Fuel for Fuel Cells? (Video)
Lecture 25 FCV Comparison
Lecture 26 Introduction to Fuel Cell Electric Vehicles
Lecture 27 Layout of Hydrogen FCV
Lecture 28 Components of Hydrogen FCV
Lecture 29 Working of a Hydrogen Fuel Cell
Section 5: Fuel Cell Vehicle
Lecture 30 Operating Principle (Toyota Mirai)
Lecture 31 Toyota Mirai - Operating Principle (Video)
Lecture 32 Fuel Cell Stack Assembly
Lecture 33 Toyota Mirai - Fuel Cell Stack Assembly (Video)
Lecture 34 New Cell Design
Lecture 35 Toyota Mirai - New Cell Design (Video)
Lecture 36 Self Humidification
Lecture 37 Toyota Mirai - Self Humidification (Video)
Lecture 38 Boost Converter
Lecture 39 High Pressure Hydrogen Tank
Lecture 40 Toyota Mirai - High Pressure Hydrogen Tank (Video)
Lecture 41 Operating Principle (Hyundai Nexo)
Lecture 42 Component Developement
Lecture 43 Hyundai Nexo - Component Development (Video)
Lecture 44 Configuration (Honda Clarity)
Lecture 45 Honda Clarity - Configuration (Video)
Lecture 46 Component Development (Honda Clarity)
Lecture 47 Honda Clarity - Component Development (Video)
Lecture 48 System Development
Lecture 49 Honda Clarity System Development (Video)
Lecture 50 Plug-in (Audi A7 h-tron)
Lecture 51 Fuel Cell
Lecture 52 Drive Train details
Lecture 53 Components
Lecture 54 Plug-in range
Lecture 55 Audi A7 h-tron Plug-In - Range (Video)
Lecture 56 Mercedes-Benz GLC F-Cell
Lecture 57 Mercedes Benz GLC F-Cell (Video)
Section 6: Fuel cell Vehicle- In Depth
Lecture 58 FCV - Modes of Operation
Lecture 59 FCV - Recuperative Braking
Lecture 60 FCV - Hydrogen Refuelling
Lecture 61 FCV Hydrogen Refueling (Video)
Lecture 62 Emission
Lecture 63 Alternate power comparison
Lecture 64 Air cleaning effect
Lecture 65 Pros and Cons
Lecture 66 FCVs Pros & Cons (Video)
Lecture 67 Safety Aspects of a Hydrogen Fuel Cell
Lecture 68 Safety Aspects of Hydrogen FCV
Lecture 69 Safety Aspects of Hydrogen FCV (Video)
Lecture 70 Challenges Ahead for FCVs
Lecture 71 Recent Developments in Hydrogen FCVs
Lecture 72 FCVs vs BEVS vs ICE
Lecture 73 FCV Conclusion
Mechanical engineers, Automobile Engineers, Automobile enthusiasts.