Hydrogen Engineering: PEM Fuel Cells and BOP
This course is an 8-hour online course.
In this course you will learn about the components of PEM fuel cells and balance of plant systems, understand their unique properties and market potential.
Particularly relevant in heavy vehicles, aviation and backup power, this course covers the function and relationship of each component within the PEM fuel cell system and provides a detailed understanding of how these advanced systems work together to power the vehicles of tomorrow.
By the end of this course, you will be able to:
- Identify the components of the PEM fuel cell system and how they interact.
- Recall applications of hydrogen fuel cells, and market potential.
- Summarise advantages and disadvantages of hydrogen fuel cell vehicles.
Hydrogen Engineering: Handling Hydrogen
This is an 8-hour online course.
In this course you will learn about hydrogen’s physical and thermodynamic characteristics, along with its chemical and combustion properties. You’ll discover how hydrogen interacts with materials, what makes it highly flammable, and how its low density impacts storage and transport. The course teaches learn strategies to mitigate hydrogen’s risks through effective safety management and adherence to best practice guidelines. The course offers insights into hydrogen’s impact on infrastructure. Hearing from industry experts, you’ll examine real-world case studies that bring safety protocols to life.
By the end of the course, you will be able to:
- Recall the main properties of hydrogen
- Identify the risks and hazards of hydrogen
- Recognise safe management processes and hazard mitigation in relation to hydrogen.
Hydrogen Engineering: Electrolysers
This is a 10-hour online course.
In this course you will learn about how electrolysers work, from electrochemical fundamentals to the role of renewable energy in hydrogen production. You’ll explore different electrolyser types, their efficiencies, and their suitability for various applications. The course examines the engineering requirements for electrolyser systems, including component design, operational parameters, and maintenance, to understand how to manage hydrogen’s unique properties safely and comply with industry best practices.
Apply your skills to real-world hydrogen projects
Discover how electrolysers are integrated into hydrogen supply chains, from small-scale applications to large industrial projects. Through real-world examples, you’ll see how this technology is powering the transition to cleaner energy.
By the end of this course, you will be able to:
- Recall the principles of electrolysis operation.
- Identify and compare the main features of electrolyser technologies.
- Describe key aspects of safety around electrolyser design, construction, commissioning and maintenance.
- Summarise key requirements for successful electrolyser design, construction, commissioning and maintenance
Hydrogen Engineering: Fuel Cell Fundamentals
This course is an 8-hour online course.
This course has been designed and created in collaboration with hydrogen experts, with perspectives from across the hydrogen engineering industry. It has been created to give you a foundational yet practical lens of the key technologies, applications, safety and regulations of fuel cells.
This course acknowledges that hydrogen engineering encompasses a range of different specialist engineers and aims to give you the knowledge to successfully engage with others within this area.
This course will not qualify you to design full fuel cell systems but will highlight the fundamentals to enable effective communication with hydrogen fuel cell experts. It has been designed to align to industry standards of practice.
By the end of this course, you will be able to:
- Describe hydrogen fuel cell principles of operation
- Compare fuel cell technologies for different applications
- Discuss the main considerations for design and specification of FCs.
Grundlagenschulung in Fluidsystemen - Grundwissen
Verfügbare Kurse und Themen
Grundlagen Rohverschraubungsmontage
Grundlagen zur Inspektion von Rohrverschraubungen
Grundlagen Hochdruckverschraubungen (Cone and Thread) für mittleren und hohen Druck
Schlauchgrundlagen
Grundlagen Rohrbiegen
VCR® und VCO Fitting - Grundlagen
Grundlagen zu Rohrverschraubungen der Serie FK
Grundlegende Informationen für das manuelle Anziehen von Flanschverbindungen
Grundlagenseminar Wasserstoff zusammen
mit dem TÜV SÜD
1.) Theoretischer Teil vom TÜV SÜD:
Alle wichtigen Grundlagen und Eigenschaften des Gases sowie regionale Normen zur fachgerechten Nutzung
2.) Theoretischer Teil von Swagelok Stuttgart:
1.) Die Swagelok Organisation
2.) Materialeigenschaften und H2-Versprödung
3.) Leckagen und "Flüchtigkeit" von H2
4.) H2-kompatible Produkte
3.) Zusatzmodul: M1 Sicherheitsseminar „Rohre und Rohrverschraubungen“ ODER Schulung zu Hochdruck-Verschraubung „Serie FK“ (Optional)
Wasserstofftraining (TSTP)
Dieses Schulungsprogramm deckt die folgenden Themen ab:
Was ist Wasserstoff?
Wasserstoffkompatible Werkstoffe
Risikominderung und Best Practices
Installation von Rohrverschraubungen
Biegen von Rohrleitungen
Prüfung der korrekten Installation von Rohrverschraubungen
Höheres Druckmodul
Rohrverschraubungen der Serie FK für mittleren Druck
Konus-/Gewindeverschraubungen
Leckageprüfung
Kenntnisprüfung
Dieses Schulungsprogramm deckt die folgenden Themen ab:
Grundlagen und gängige Mythen rund um Wasserstoff
Aktueller Stand in der Branche
Produktion
Verteilung
Infrastruktur
Nutzung in Fahrzeugen
Branchenstandards
Werkstoffwissenschaften
Wasserstoffversprödung
Wasserstoffkompatible Werkstoffe
Überlegungen bei der Auslegung von Rohrleitungssystemen
Öl & Gas vs. Wasserstoff – Unterschiede bei der Auslegung von Rohrleitungssystemen
Eigenschaften von Wasserstoff
Detonation und Deflagration
Strömungsdynamik
Komponentenauswahl
Probenahme
Gasverteilung, Spülung
Überlegungen zur Systemumgebung
Leckageerkennung
Systemintegrität und Instandhaltung