Hydrogen Production Via Electrolysis

Harnessing the Power of Hydrogen: A Pathway to Sustainable Energy Solutions

What you'll learn

Understand the Basics of Electrolysis and Hydrogen Production

Differentiate Between Electrolyzer Technologies

Analyze the Components and Functions of an Electrolysis Plant

Apply Practical Knowledge to Hydrogen Production Scenarios

Requirements

Technical Background: Comfort with technical diagrams and an ability to interpret process flow charts.

Interest in Hydrogen Technologies: A general interest or background in renewable energy, sustainability, or hydrogen production technologies.

Description

This course offers an in-depth exploration of hydrogen technologies, focusing on their role in advancing sustainable energy solutions. It begins with a comprehensive overview of hydrogen production methods, particularly electrolysis, covering the principles behind various technologies such as Alkaline (ALK), Proton Exchange Membrane (PEM), Anion Exchange Membrane (AEM), and Solid Oxide Electrolysis Cells (SOEC). You will gain an understanding of their operational mechanisms, key differences, strengths, and limitations.The course delves into critical system components, including the Balance of Plant (BoP), to highlight the infrastructure and support systems necessary for efficient hydrogen production. Market trends, challenges, and opportunities are analyzed to provide insight into the rapidly evolving hydrogen economy. Real-world applications and case studies demonstrate the practical implementation of hydrogen technology across diverse industries.In addition to technical knowledge, the course emphasizes practical skills, such as basic calculations related to hydrogen production, efficiency, and system performance. These foundational skills are crucial for evaluating hydrogen systems and their impact on energy markets.By the end of this course, you will have a well-rounded understanding of hydrogen technologies, their current applications, and future potential. This knowledge equips you to actively engage with the hydrogen industry, contribute to sustainable energy initiatives, and participate in the global transition toward cleaner energy systems.

Overview

Section 1: Introduction

Lecture 1 Introduction

Section 2: Types of Water Electolysis Technologies

Lecture 2 AKL and PEM electrolyzers

Lecture 3 AEM and SOEC elektrolyzers

Section 3: Comparative Analysis of Technology Performance

Lecture 4 Comparative Analysis of Technology Performance

Section 4: Electrolyzer BOP

Lecture 5 BOP

Section 5: Industry Players, Market Dynamics, and Future Targets

Lecture 6 Electrolyzer Market

Section 6: Case Studies

Lecture 7 Case Studies

Section 7: Calculation Introduction

Lecture 8 Calculation Introduction

Section 8: Exam: Hydrogen Production via Electrolysis

Industry Professionals: Engineers, technicians, and project managers working in energy, manufacturing, or utilities.,Academic Learners: University students pursuing degrees in chemical engineering, environmental science, renewable energy systems, mechanical engineering.,Policymakers and regulators looking to understand the role of hydrogen electrolysis in achieving sustainability goals.,Entrepreneurs: Startup founders or business developers working on hydrogen production technologies or renewable energy innovations.,Energy Enthusiasts: Individuals with a passion for sustainable energy and an interest in learning about hydrogen technologies.