Beginner’s Guide to Green Hydrogen Energy Technology from Udemy

There is growing interest in the hydrogen economy and businesses that deploy hydrogen worldwide. The desire to tackle the adverse effects of climate change, achieve a green transition and deep decarbonisation, ambitious future net-zero targets of numerous countries, increasing pressure for energy security, and being energy self-reliant are reasons behind this interest. However, hydrogen is not a new phenomenon. Nowadays, many people ask if the hydrogen economy has a future. The answer is not straightforward as the hydrogen economy has numerous different application area.

Green hydrogen is a developing as bright opportunity for engineering and construction. Thirty countries have prepared strategic vision for developing green hydrogen as a n alternative to fossil fuel. Many companies in differing countries have setup demonstration projects. Every other day new Green Hydrogen projects are being announced all over the world. In fact, now there a quite a few projects actively being developed by EPC contractors.

This course has been designed to provide a kickstart to the students who are interested in taking up a career in this field.

The instructor has been involved in the construction, commissioning and operation of alkaline water electrolysis.

The course contents are as below:

Introduction to Hydrogen Energy

Property of hydrogen and its safety implication

Water Electrolysis

Alkaline Water Electrolysis

PEM Electrolysis

Hydrogen Economics

Hydrogen Equipment Engineering
Hydrogen Storage Options
Impact of mixing hydrogen with natural gas
Hydrogen storage in caverns
Renewable Hydrogen Facility Feasibility Study Components

What's inside

Learning objectives

Why should we have hydrogen energy?
Hydrogen energy process chain
Hydrogen supply & demand
What is hydrogen, it’s benefits
Classification of hydrogen energy source
Hydrogen production from natural gas: pyrolysis, partial oxidation
Water electrolysis pathways
Hydrogen energy transport cost
Hydrogen properties and its energy and it’s safety implications
General characteristics of water electrolysis, different technologies, efficiency of water splitting
Alkaline water electrolysis: reaction, details, cell, stack design
Process scheme for the alkaline electrolysis
Hydrogen economics: cost drivers of electrolysers, technology drivers
Cost comparison between pem and ael electrolysers
Cost reduction opportunities in electrolysers

Polymer elctrode membrane details, cell design and proces scheme
Hydrogen equipment engineering
Hydrogen purification and mechanical compression
Compression
Adsorption as hydrogen storage option
Lohc as hydrogen storage option
Hydrogen non-mechanical compression
Hydrogen electrochemical compression
Hydrogen liquefaction and liquid storage
Impact of mixing hydrogen with natural gas: safety impact, benefits, leak impact of mixing hydrogen
Impact on material durability due to hydrogen mixing
Downstream extractor hydrogen from natural gas mixture
Hydrogen storage in caverns: lined rock, salt
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Why should we have hydrogen energy?
Hydrogen energy process chain
Hydrogen supply & demand
What is hydrogen, it’s benefits
Classification of hydrogen energy source
Hydrogen production from natural gas: pyrolysis, partial oxidation
Water electrolysis pathways
Hydrogen energy transport cost
Hydrogen properties and its energy and it’s safety implications
General characteristics of water electrolysis, different technologies, efficiency of water splitting
Alkaline water electrolysis: reaction, details, cell, stack design
Process scheme for the alkaline electrolysis
Hydrogen economics: cost drivers of electrolysers, technology drivers
Cost comparison between pem and ael electrolysers
Cost reduction opportunities in electrolysers
Polymer elctrode membrane details, cell design and proces scheme
Hydrogen equipment engineering
Hydrogen purification and mechanical compression
Compression
Adsorption as hydrogen storage option
Lohc as hydrogen storage option
Hydrogen non-mechanical compression
Hydrogen electrochemical compression
Hydrogen liquefaction and liquid storage
Impact of mixing hydrogen with natural gas: safety impact, benefits, leak impact of mixing hydrogen
Impact on material durability due to hydrogen mixing
Downstream extractor hydrogen from natural gas mixture
Hydrogen storage in caverns: lined rock, salt
Show more
Show less

Syllabus

Introduction to Hydrogen Energy

Keywords

Hydrogen energy; electrolyser; renewable energy; PFD; Safety;

Hydrogen Supply & Demand Scenario Quiz

Keywords

Hydrogen energy; electrolyser; renewable energy; PFD; Safety;

Keywords

Hydrogen energy; electrolyser; renewable energy; PFD; Safety; Electrolyser

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Read about what's good

what should give you pause

and possible dealbreakers

Provides an overview of hydrogen production methods, including water electrolysis, which is a key technology for producing green hydrogen from renewable energy sources

Explores hydrogen storage options, including compressed hydrogen, LOHC, and cavern storage, which are critical for the widespread adoption of hydrogen as an energy carrier

Examines the impact of mixing hydrogen with natural gas, including safety considerations and material durability, which is relevant for utilizing existing natural gas infrastructure for hydrogen transport

Covers renewable hydrogen facility feasibility study components, offering insights into the practical aspects of developing green hydrogen projects, including solar and wind analysis

Includes discussion of both Alkaline Water Electrolysis (AEL) and Polymer Electrolyte Membrane (PEM) electrolysis, allowing learners to compare and contrast these two leading technologies

Requires knowledge of engineering and construction, which may pose a barrier to entry for students from other backgrounds without prior experience in these fields

Reviews summary

Beginner's overview of green hydrogen tech

According to learners, this course offers a solid positive, neutral introductory overview of Green Hydrogen Energy Technology. Students appreciate the positive practical insights shared by the instructor, particularly regarding positive Alkaline Water Electrolysis based on their industry experience. The course covers a neutral broad range of topics from safety and economics to storage and transport. Reviewers highlight the positive clear explanations, making complex subjects accessible for beginners. While the foundational knowledge provided is seen as a strong starting point, some learners suggest that more warning in-depth technical details or practical case studies would enhance the learning experience. Overall, it is considered a positive valuable resource for those looking to understand the basics of this emerging field.

Helpful for considering a career in this field.

"This course gave me a good sense of the various areas within green hydrogen and helped me consider potential career paths."

"Useful for students or professionals looking to pivot into the hydrogen economy."

"It provides enough context to understand if this is a field you want to pursue further professionally."

"A great starting point for exploring career opportunities."

"Helped confirm my interest in working in this sector."

Content is explained clearly for beginners.

"Explanations are clear and easy to follow, perfect for someone new to the topic."

"The way the concepts were explained made a complex subject surprisingly easy to grasp."

"I found the lectures very clear and well-structured, making it accessible."

"Complex ideas are broken down into understandable parts."

"Good explanations for beginners."

Benefits from instructor's real-world experience.

"The instructor's practical experience, especially with Alkaline Water Electrolysis, adds valuable real-world perspective."

"Appreciate the insights shared based on the instructor's background in construction and operation."

"The segments on the instructor's direct experience were the most engaging and informative for me."

"Instructor provides useful practical details from their work."

"Real-world examples shared by the instructor were a plus."

Provides a solid introduction to key areas.

"The course provides a great general overview of hydrogen, covering various topics from safety to storage options."

"Learned a lot about the basics of hydrogen energy, from production methods like electrolysis to economic aspects."

"It's a good starting point to understand the green hydrogen landscape and its different components."

"Offers a broad introduction to the subject matter."

"Provides a solid base knowledge on the topic."

Could benefit from more technical depth.

"While a good intro, I wished for more in-depth technical explanations on certain processes."

"For someone with a bit of engineering background, some sections felt a little too surface-level."

"Could use more technical specifications and calculations, especially on equipment engineering."

"Felt some topics lacked sufficient technical detail."

"Wanted more depth in the engineering aspects."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Beginner’s Guide to Green Hydrogen Energy Technology with these activities:

Review Basics of Electrolysis

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Refresh your understanding of electrolysis principles to better grasp the specifics of alkaline and PEM water electrolysis covered in the course.

Browse courses on Electrolysis

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Review the definition of electrolysis and its applications.
Study the different types of electrolysis.
Practice balancing simple electrolysis reactions.

Read 'Hydrogen Production Technologies' by Xingang Li

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Supplement your understanding of hydrogen production technologies with a detailed exploration of various methods.

View Melania on Amazon

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Obtain a copy of 'Hydrogen Production Technologies'.
Read the chapters related to water electrolysis.
Take notes on key concepts and technologies.

Calculate Hydrogen Production Costs

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Practice calculating the cost of hydrogen production using different electrolyzer technologies and energy sources to understand the economic factors involved.

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Gather data on electrolyzer costs and performance.
Obtain energy prices for different renewable sources.
Calculate the cost per kilogram of hydrogen produced.
Compare the costs for different scenarios.

Four other activities

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Create a Presentation on Hydrogen Storage Options

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Solidify your understanding of hydrogen storage by creating a presentation that compares different storage methods, including compressed gas, liquid hydrogen, and materials-based storage.

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Research different hydrogen storage methods.
Compare the advantages and disadvantages of each method.
Create visually appealing slides with key information.
Practice your presentation.

Design a Small-Scale Green Hydrogen Production System

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Apply your knowledge by designing a small-scale green hydrogen production system, considering factors like renewable energy source, electrolyzer type, and storage options.

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Define the scope and objectives of your system.
Select a renewable energy source (solar, wind, etc.).
Choose an appropriate electrolyzer technology.
Design a hydrogen storage solution.
Create a schematic diagram of your system.

Read 'Hydrogen and Fuel Cells: Technologies and Market Perspectives' by Detlef Stolten

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Gain a broader perspective on the hydrogen economy and fuel cell technologies with this comprehensive overview.

View 18th World Hydrogen Energy Conference 2010 -... on Amazon

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Acquire a copy of 'Hydrogen and Fuel Cells'.
Focus on chapters related to hydrogen production and economics.
Summarize the key market trends and challenges.

Develop a Feasibility Study Outline

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Create a detailed outline for a renewable hydrogen facility feasibility study, incorporating the components discussed in the course.

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Review the course materials on feasibility studies.
Identify the key sections of a feasibility study.
Develop a detailed outline with specific topics.
Include sections on technical, economic, and environmental aspects.

Career center

Learners who complete Beginner’s Guide to Green Hydrogen Energy Technology will develop knowledge and skills that may be useful to these careers:

Electrolyzer Specialist

Electrolyzer Specialists work to improve the design, construction, and testing of electrolyzers. This course builds a foundation for understanding electrolyzer technologies. The course places an emphasis on alkaline and PEM electrolysis, including process schemes and equipment engineering, provides a valuable background for the design and optimization of electrolyzer plants. The cost comparison between PEM and AEL electrolyzers offers insight into the economics of various electrolyzer technologies.

See salaries and explore the career path for Electrolyzer Specialist

Commissioning Engineer

Commissioning Engineers oversee the startup and testing of new equipment and systems to ensure they meet performance specifications. This course provides an overview of hydrogen energy technologies, including alkaline water electrolysis. The instructor's experience in the construction, commissioning, and operation of alkaline water electrolysis facilities would be a benefit to those who wish to enter this profession. Knowledge of project management and operations will be an asset.

See salaries and explore the career path for Commissioning Engineer

Hydrogen Production Engineer

The role of a Hydrogen Production Engineer is pivotal in developing and implementing strategies for efficient and sustainable hydrogen generation. This course provides an excellent foundation for understanding various hydrogen production methods, including water electrolysis, which is covered extensively. With the course's focus on alkaline and PEM electrolysis, you gain insights into the practical aspects of building and operating hydrogen production facilities. The discussion of hydrogen economics would be particularly beneficial in assessing the feasibility and cost-effectiveness of different production approaches as a Hydrogen Production Engineer.

See salaries and explore the career path for Hydrogen Production Engineer

Chemical Engineer

Chemical Engineers apply the principles of chemistry, physics, and engineering to design and optimize chemical processes and equipment. This course provides a strong foundation in the chemical processes involved in hydrogen production, particularly through water electrolysis. The detailed sections on alkaline and PEM electrolysis, including reaction mechanisms and process schemes, are directly relevant. You can use this knowledge to design more efficient and cost-effective hydrogen production plants, as well as storage and transportation systems.

See salaries and explore the career path for Chemical Engineer

Process Engineer

Process Engineers design, implement, control and optimize industrial processes. Understanding hydrogen production through water electrolysis, as covered in this course, is essential for process engineers working in the renewable energy sector. The course content on alkaline and PEM electrolysis, along with process schemes and equipment engineering, provides a valuable foundation for the design and optimization of hydrogen production plants. Your ability to analyze process economics and reduce costs will be invaluable in this role.

See salaries and explore the career path for Process Engineer

Environmental Engineer

Environmental Engineers work to protect the environment and human health through the design and implementation of environmental solutions. The focus on green hydrogen as a clean energy source makes this course extremely relevant to environmental engineers concerned with mitigating climate change. The course provides key information on the different methods of hydrogen production, storage, and transportation. Your knowledge can inform strategies for reducing carbon emissions and promoting sustainable energy practices.

See salaries and explore the career path for Environmental Engineer

Renewable Energy Consultant

A Renewable Energy Consultant advises clients on integrating renewable energy sources, including hydrogen, into their operations. This course helps build a foundation in understanding the hydrogen economy, production methods, and storage options. The course material includes a section on renewable hydrogen facility feasibility studies, which may be useful by providing a framework for assessing the viability of hydrogen projects. The knowledge of hydrogen production costs also enhances your ability to provide informed recommendations to clients.

See salaries and explore the career path for Renewable Energy Consultant

Sustainability Manager

Sustainability Managers are responsible for developing and implementing sustainability strategies within organizations. Given the growing interest in green hydrogen as a clean energy source, this course provides a solid basis for understanding the role of hydrogen in achieving sustainability goals. The course covers various hydrogen production methods, storage options, and the impact of mixing hydrogen with natural gas. With this training, you can effectively integrate hydrogen into your sustainability initiatives and contribute to reducing carbon emissions.

See salaries and explore the career path for Sustainability Manager

Plant Manager

Plant Managers oversee the operations of industrial plants, ensuring efficient production and adherence to safety standards. This course provides an overview of the critical aspects of hydrogen production plants, including the details of alkaline and PEM electrolysis. The course material on equipment engineering and safety implications is highly relevant to managing a hydrogen production facility. Your understanding of these aspects will contribute to the safe and efficient operation of the plant.

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Energy Analyst

Energy Analysts evaluate energy markets, technologies, and policies to provide insights and recommendations to stakeholders. This course may be useful by offering a deep dive into the hydrogen economy, its potential, and challenges. You will develop an understanding of hydrogen production costs, storage options, and transportation, which are crucial for assessing the economic viability and market potential of hydrogen as an energy carrier. Your understanding of renewable hydrogen facility feasibility components will enhance your ability to provide informed analysis in this role.

See salaries and explore the career path for Energy Analyst

Project Manager

Project Managers in the energy sector oversee the planning, execution, and completion of energy projects. This course provides a valuable overview of hydrogen energy technologies, production methods, and storage options. The course material on renewable hydrogen facility feasibility study components may be useful by providing insights into the key considerations for planning and managing hydrogen projects. You will develop a comprehensive understanding of the project lifecycle, from initial assessment to final implementation.

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Energy Storage Specialist

As an Energy Storage Specialist, you would be responsible for designing and implementing effective storage solutions for various energy sources, including hydrogen. This course may be useful by offering insights into different hydrogen storage methods such as compression, adsorption, and liquefaction. The course material on hydrogen storage in caverns and the impact of mixing hydrogen with natural gas directly relates to challenges and opportunities encountered in energy storage. Your understanding of these technologies opens doors to innovate and optimize storage solutions.

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Power Systems Engineer

Power Systems Engineers design, develop, and maintain electrical power systems. This course informs an understanding of how hydrogen can be integrated into power systems as an energy storage medium or fuel source. The course covers various hydrogen production methods, storage options, and the impact of mixing hydrogen with natural gas. You can apply this knowledge to design and optimize power systems that incorporate hydrogen technologies, which helps improve grid stability and reduce carbon emissions.

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Energy Policy Advisor

Energy Policy Advisors provide guidance to government agencies and organizations on energy-related policies and regulations. This course helps develop an understanding of the potential of hydrogen as a clean energy carrier. The course material on hydrogen economics, transportation costs, and the impact of mixing hydrogen with natural gas may be useful by providing insights into the factors influencing the adoption and deployment of hydrogen technologies. You can use this knowledge to formulate effective energy policies that promote the use of hydrogen.

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Research Scientist

Research Scientists in the energy sector conduct research and development activities to advance energy technologies. This course may be useful by offering a strong foundation in hydrogen production methods, including alkaline and PEM electrolysis. Understanding the details of cell and stack design, as well as exploring cost reduction opportunities in electrolyzers, provides a springboard for innovative research in hydrogen production. Furthermore, the review of hydrogen storage options informs research into improving storage efficiency and safety.

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Beginner’s Guide to Green Hydrogen Energy Technology

What's inside

Learning objectives

Syllabus

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Reviews summary

Beginner's overview of green hydrogen tech

Activities

Career center

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