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Fundamental Concepts of Green Hydrogen Technologies

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OSS Academy

2:24:26

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  • 1 - Introduction to Hydrogen.mp4
    02:58
  • 2 - Introduction to Storage and Transportation of Hydrogen.mp4
    01:44
  • 3 - Use of Hydrogen in Vehicles.mp4
    00:58
  • 4 - Use of Hydrogen in industrial process.mp4
    00:39
  • 5 - Why to Choose Green Hydrogen.mp4
    03:54
  • 6 - Green Hydrogen.mp4
    01:30
  • 7 - Colour Coding of Hydrogen.mp4
    04:50
  • 8 - Comparison between Grey Blue and Green Hydrogen.mp4
    01:09
  • 9 - Production model for Green Hydrogen.mp4
    02:00
  • 10 - Costs for hydrogen transport as a function of distance by selected transport.mp4
    03:21
  • 11 - Grey Hydrogen.mp4
    02:03
  • 12 - Blue Hydrogen.mp4
    01:51
  • 13 - Turquoise Hydrogen.mp4
    01:57
  • 14 - Green Hydrogen.mp4
    03:02
  • 15 - Yellow Purple hydrogen.mp4
    00:57
  • 16 - Global Context of Green Hydrogen Part 1.mp4
    03:51
  • 17 - Global Context of Green Hydrogen Part 2.mp4
    03:20
  • 18 - Global Context of Green Hydrogen Part 3.mp4
    02:43
  • 19 - Production process technologies for green hydrogen.mp4
    00:46
  • 20 - Alkaline electrolysis process.mp4
    01:58
  • 21 - Working of Alkaline electrolysis process Part 1.mp4
    01:29
  • 22 - Working of Alkaline electrolysis process Part 2.mp4
    02:42
  • 23 - The advantages of the alkaline electrolysis process.mp4
    01:16
  • 24 - Solid Oxide Electrolyser Process.mp4
    05:08
  • 25 - Working Solid Oxide Electrolyser Process.mp4
    02:20
  • 26 - Polymer Electrolyte Membrane Electrolyzers.mp4
    02:56
  • 27 - Water consumption for green hydrogen.mp4
    04:06
  • 28 - Drivers for present interest for green hydrogen.mp4
    02:32
  • 29 - Low Renewable Energy Electricity Cost.mp4
    01:50
  • 30 - Technologies ready to scale up.mp4
    01:16
  • 31 - Benefits for the power system.mp4
    02:20
  • 32 - Government objectives of Net zero Emission System.mp4
    01:01
  • 33 - Broader use of Hydrogen.mp4
    01:21
  • 34 - Interest of Multiple Stakeholders.mp4
    00:58
  • 35 - Barriers for green hydrogen.mp4
    01:04
  • 36 - High Production Cost.mp4
    01:55
  • 37 - Lack of Dedicated Infrastructure.mp4
    02:26
  • 38 - Energy losses.mp4
    01:46
  • 39 - Lack of Value recognition.mp4
    01:25
  • 40 - Need to ensure sustainability.mp4
    01:07
  • 41 - Key cost components for green hydrogen Part 1.mp4
    02:07
  • 42 - Key cost components for green hydrogen Part 2.mp4
    02:05
  • 43 - Key cost components for green hydrogen Part 3.mp4
    02:35
  • 44 - Photovoltaicelectrolysis systems.mp4
    03:21
  • 45 - Key points about photovoltaicelectrolysis systems.mp4
    01:10
  • 46 - Windelectrolysis systems.mp4
    02:34
  • 47 - Compression of Green Hydrogen.mp4
    03:25
  • 48 - Liquefaction of Green Hydrogen.mp4
    02:35
  • 49 - Metal Hydrides.mp4
    01:14
  • 50 - Carbon Based Materials.mp4
    01:07
  • 51 - Chemical Hydrides.mp4
    01:36
  • 52 - Porous Materials.mp4
    00:51
  • 53 - Gaseous Hydrogen Transport.mp4
    01:41
  • 54 - Liquid Hydrogen Transport.mp4
    01:04
  • 55 - Hydrogen Carrier.mp4
    01:31
  • 56 - Hydrogen Shipping.mp4
    00:41
  • 57 - Applications and EndUses for green hydrogen.mp4
    05:48
  • 58 - Economic Considerations.mp4
    03:10
  • 59 - Policy Considerations.mp4
    03:37
  • 60 - Life Cycle Assessment LCA of Green Hydrogen Part 1.mp4
    01:53
  • 61 - Life Cycle Assessment LCA of Green Hydrogen Part 2.mp4
    01:10
  • 62 - Life Cycle Assessment LCA of Green Hydrogen Part 3.mp4
    01:56
  • 63 - Life Cycle Assessment LCA of Green Hydrogen Part 4.mp4
    01:56
  • 64 - Contribution of green hydrogen to Sustainable Development Goals.mp4
    05:05
  • 65 - Successful green hydrogen projects.mp4
    03:45

    • Description

    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

    Who is this for?

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

    • What You Need to Know?

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

    • More details

    Description

    In this course you will learn the following points in details:

    • 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


    Who this course is for:

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

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    Renewable Energy

    OSS Academy
    OSS Academy
    Instructor's Courses
    OSS Academy has highly qualified professionals in various domains of engineering, science, arts, commerce, competitive exams, and general education from KG to PG level. Our main aim is to educate the students and professionals of various domains to achieve excellence in employable oriented skills. We have conducted impactful webinars, seminars, and workshops in various domains at the institute level, university level, and national level. Our courses have been designed by domain wise qualified and experienced professionals with outcome based skilling.
    Udemy
    Udemy
    View courses Udemy
    Students take courses primarily to improve job-related skills.Some courses generate credit toward technical certification. Udemy has made a special effort to attract corporate trainers seeking to create coursework for employees of their company.
    • language english
    • Training sessions 65
    • duration 2:24:26
    • Release Date 2024/05/04

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