Hello! This course is exclusively and especially for Green Hydrogen Production Technology with complete technical aspects. With this course, you can able to start your research career in green hydrogen. It will also help you to identify plenty of opportunities available in the near future. This course contains a lot of resources completely for free. I am damn sure if you learn all those things, definitely you will master Green Hydrogen Production Technology.
The course contents are as follows:
Chapter I. INTRODUCTION
Global Warming – Green House Gas Emissions – Introduction to hydrogen – Primary Sources of Hydrogen – Colours of Hydrogen – Water Splitting Reaction.
Chapter II. WHY HYDROGEN?
Wide range of applications – Global Hydrogen Demand – Characteristics of Hydrogen.
Chapter III. FUNDAMENTALS OF ELECTROLYSIS
Electrochemical water splitting – Electrolyzer or electrolytic cell – Thermodynamics – Thermodynamic functions of state – Water splitting cells: General characteristics – Faraday’s law – Faradaic efficiency – Energy efficiency of water electrolysis cells
Chapter IV. CLASSIFICATION OF ELECTROLYZERS
Classifications – Alkaline (AEL) Electrolyzer – Electrodes and catalyst for OER – Electrodes and catalyst for HER – Electrolyte – Diaphragm/Separator – Anion Exchange Membrane – Advantages and Disadvantages – Some commercial AEL Electrolyzers – Proton Exchange Membrane (PEM) Water Electrolysis – General PEM Electrolyzer – Schematic diagram of PEM electrolyzer – Advantages and Disadvantages – Research directions – Large-scale commercial PEM electrolyzers – Anion Exchange Membrane (AEM) Electrolyzer – General principle of AEM electrolyzer – Schematic diagram of AEM electrolyzer – Advantages and Disadvantages – Commercial AEM electrolyzer – Challenges in AEM electrolyzer – Comparison of low temperature water electrolysis technologies – Solid-oxide Electrolysis Cell (SOEC) – Electrolyte – Cathode electrode – Anode electrode – SOEC electrolyzer – Advantages and Disadvantages – Commercial Solid oxide Electrolyzer Cells – Electrochemical performances – Polarization curves full-cell studies –Cyclic voltammetry (CV) – Electrochemical Impedance Spectroscopy (EIS) – Chronoamperometry (CA) and Chronopotentiometry (CP) – Structure sensitive methods – X-ray based methods – X-ray photoelectron spectroscopy (XPS) – Microscopic methods –Scanning Electron Microscopy (SEM).
Chapter V. FUEL CELLS AND ITS COMPONENTS
H2 fuel cell electric vehicle (FCEV) – Principle and its working – Efficiency.
Chapter VI. OPPORTUNITIES
Global green hydrogen market – Impact of COVID-19 on the global green hydrogen market – Key players operating in the global green hydrogen market – Global green hydrogen projects – Global upcoming green hydrogen projects.
Chapter VII. CONCLUSIONS
Future need for green hydrogen technology – Solution to Overcome Global warming – Efforts need to take.
RESOURCES AVAILABLE IN THIS COURSE
BOOKS FOR,
Introduction of Hydrogen Technology
Methods of Hydrogen Production
Storage methods of Hydrogen
Fuel Cell Technology and its Applications
Hydrogen Economy (Opportunities, Barriers, and R&D Needs)
Energy Technology Perspective 2020 submitted by International Energy Agency
The Future of Hydrogen_G20 summit article
Course complete slides
ADDON RESOURCES
List of Hydrogen Companies (Name, Sector, Products, and Location) available all over the world.
HYDROGEN TOOLS
A well-documented, reliable data for use in evaluating hydrogen-related technologies.
These data can serve as the basis for calculations, modeling, and other analytical activities.
It also provides guidelines and assumptions for use in Hydrogen Program analysis projects.
In addition, it contains several calculator tools that do useful conversions and other simple calculations relevant to hydrogen and fuel cells.