Fundamental Concepts Of Green Hydrogen Technologies

OSS Academy Guide to your sustainable learnings

What you'll learn

Introduction to Hydrogen

Introduction to Storage and Transportation of Hydrogen

Use of Hydrogen in Vehicles

Use of Hydrogen in industrial process

Why to Choose Green Hydrogen

Green Hydrogen

Types of Hydrogen

Colour Coding of Hydrogen

Comparison between Grey, Blue and Green Hydrogen

Production model for Green Hydrogen

Costs for hydrogen transport as a function of distance by selected transport

Grey Hydrogen

Blue Hydrogen

Turquoise Hydrogen

Green Hydrogen

Yellow (Purple) hydrogen

Global Context of Green Hydrogen

Production process technologies for green hydrogen

Alkaline electrolysis process

Working of Alkaline electrolysis process

The advantages of the alkaline electrolysis process

Solid Oxide Electrolyser Process

Working Solid Oxide Electrolyser Process

Polymer Electrolyte Membrane Electrolyzers

Water consumption for green hydrogen

Drivers for present interest for green hydrogen

Low Renewable Energy Electricity Cost

Technologies ready to scale up

Benefits for the power system

Government objectives of Net zero Emission System

Broader use of Hydrogen

Interest of Multiple Stakeholders

Barriers for green hydrogen

High Production Cost

Lack of Dedicated Infrastructure

Energy losses

Lack of Value recognition

Need to ensure sustainability

Key cost components for green hydrogen

Photovoltaic-electrolysis systems

Key points about photovoltaic-electrolysis systems

Wind-electrolysis systems

Compression of Green Hydrogen

Liquefaction of Green Hydrogen

Advanced storage materials for hydrogen

Metal Hydrides

Carbon Based Materials

Chemical Hydrides

Porous Materials

Transportation of Hydrogen

Gaseous Hydrogen Transport

Liquid Hydrogen Transport

Hydrogen Carrier

Hydrogen Shipping

Applications and End-Uses for green hydrogen

Economic and Policy Considerations for green hydrogen

Life Cycle Assessment (LCA) of Green Hydrogen

Contribution of green hydrogen to Sustainable Development Goals

Successful green hydrogen projects

Requirements

No Prior Experience is needed. You will learn everything about Green Hydrogen in this course.

Description

In this course you will learn the following points in details: Introduction to HydrogenIntroduction to Storage and Transportation of HydrogenUse of Hydrogen in VehiclesUse of Hydrogen in industrial processWhy to Choose Green HydrogenGreen HydrogenTypes of HydrogenColour Coding of HydrogenComparison between Grey, Blue and Green HydrogenProduction model for Green HydrogenCosts for hydrogen transport as a function of distance by selected transportGrey HydrogenBlue HydrogenTurquoise HydrogenGreen HydrogenYellow (Purple) hydrogenGlobal Context of Green HydrogenProduction process technologies for green hydrogenAlkaline electrolysis processWorking of  Alkaline electrolysis processThe advantages of the alkaline electrolysis processSolid Oxide Electrolyser ProcessWorking Solid Oxide Electrolyser ProcessPolymer Electrolyte Membrane ElectrolyzersWater consumption for green hydrogenDrivers for present interest for green hydrogenLow Renewable Energy Electricity CostTechnologies ready to scale upBenefits for the power systemGovernment objectives of Net zero Emission SystemBroader use of HydrogenInterest of Multiple StakeholdersBarriers for green hydrogenHigh Production CostLack of Dedicated InfrastructureEnergy lossesLack of Value recognitionNeed to ensure sustainabilityKey cost components for green hydrogenPhotovoltaic-electrolysis systemsKey points about photovoltaic-electrolysis systemsWind-electrolysis systemsCompression of Green HydrogenLiquefaction of Green HydrogenAdvanced storage materials for hydrogenMetal HydridesCarbon Based MaterialsChemical HydridesPorous MaterialsTransportation of HydrogenGaseous Hydrogen TransportLiquid Hydrogen TransportHydrogen CarrierHydrogen ShippingApplications and End-Uses for green hydrogenEconomic and Policy Considerations for green hydrogenLife Cycle Assessment (LCA) of Green HydrogenContribution of green hydrogen to Sustainable Development GoalsSuccessful green hydrogen projects

Overview

Section 1: Introduction to Green Hydrogen

Lecture 1 Introduction to Hydrogen

Lecture 2 Introduction to Storage and Transportation of Hydrogen

Lecture 3 Use of Hydrogen in Vehicles

Lecture 4 Use of Hydrogen in industrial process

Lecture 5 Why to Choose Green Hydrogen

Lecture 6 Green Hydrogen

Section 2: Types of Hydrogen

Lecture 7 Colour Coding of Hydrogen

Lecture 8 Comparison between Grey, Blue and Green Hydrogen

Lecture 9 Production model for Green Hydrogen

Lecture 10 Costs for hydrogen transport as a function of distance by selected transport

Lecture 11 Grey Hydrogen

Lecture 12 Blue Hydrogen

Lecture 13 Turquoise Hydrogen

Lecture 14 Green Hydrogen

Lecture 15 Yellow (Purple) hydrogen

Section 3: Global Context of Green Hydrogen

Lecture 16 Global Context of Green Hydrogen Part 1

Lecture 17 Global Context of Green Hydrogen Part 2

Lecture 18 Global Context of Green Hydrogen Part 3

Section 4: Production process technologies for green hydrogen

Lecture 19 Production process technologies for green hydrogen

Lecture 20 Alkaline electrolysis process

Lecture 21 Working of Alkaline electrolysis process Part 1

Lecture 22 Working of Alkaline electrolysis process Part 2

Lecture 23 The advantages of the alkaline electrolysis process

Lecture 24 Solid Oxide Electrolyser Process

Lecture 25 Working Solid Oxide Electrolyser Process

Lecture 26 Polymer Electrolyte Membrane Electrolyzers

Lecture 27 Water consumption for green hydrogen

Section 5: Drivers for present interest for green hydrogen

Lecture 28 Drivers for present interest for green hydrogen

Lecture 29 Low Renewable Energy Electricity Cost

Lecture 30 Technologies ready to scale up

Lecture 31 Benefits for the power system

Lecture 32 Government objectives of Net zero Emission System

Lecture 33 Broader use of Hydrogen

Lecture 34 Interest of Multiple Stakeholders

Section 6: Barriers for green hydrogen

Lecture 35 Barriers for green hydrogen

Lecture 36 High Production Cost

Lecture 37 Lack of Dedicated Infrastructure

Lecture 38 Energy losses

Lecture 39 Lack of Value recognition

Lecture 40 Need to ensure sustainability

Section 7: Key cost components for green hydrogen

Lecture 41 Key cost components for green hydrogen Part 1

Lecture 42 Key cost components for green hydrogen Part 2

Lecture 43 Key cost components for green hydrogen Part 3

Section 8: Photovoltaic and Wind-electrolysis systems

Lecture 44 Photovoltaic-electrolysis systems

Lecture 45 Key points about photovoltaic-electrolysis systems

Lecture 46 Wind-electrolysis systems

Section 9: Compression and liquefaction of Green Hydrogen

Lecture 47 Compression of Green Hydrogen

Lecture 48 Liquefaction of Green Hydrogen

Section 10: Advanced storage materials for hydrogen

Lecture 49 Metal Hydrides

Lecture 50 Carbon Based Materials

Lecture 51 Chemical Hydrides

Lecture 52 Porous Materials

Section 11: Transportation of Hydrogen

Lecture 53 Gaseous Hydrogen Transport

Lecture 54 Liquid Hydrogen Transport

Lecture 55 Hydrogen Carrier

Lecture 56 Hydrogen Shipping

Section 12: Applications and End-Uses for green hydrogen

Lecture 57 Applications and End-Uses for green hydrogen

Section 13: Economic and Policy Considerations for green hydrogen

Lecture 58 Economic Considerations

Lecture 59 Policy Considerations

Section 14: Life Cycle Assessment (LCA) of Green Hydrogen

Lecture 60 Life Cycle Assessment (LCA) of Green Hydrogen Part 1

Lecture 61 Life Cycle Assessment (LCA) of Green Hydrogen Part 2

Lecture 62 Life Cycle Assessment (LCA) of Green Hydrogen Part 3

Lecture 63 Life Cycle Assessment (LCA) of Green Hydrogen Part 4

Section 15: Contribution of green hydrogen to Sustainable Development Goals

Lecture 64 Contribution of green hydrogen to Sustainable Development Goals

Section 16: Successful green hydrogen projects

Lecture 65 Successful green hydrogen projects

Energy Engineering Students,Green Hydrogen Industries,Energy enthusiast,Energy Auditors,Energy Managers