100% renewable targets will require power storage to manage flows on the net
Electrolysers utilise these intermittent power flows to produce H2 gas from water
H2 gas can be stored in large quantities underground and transported via existing gas pipelines
H2 vehicles recharge faster and are more durable than battery powered transport
Growing H2 demand in industrial processes will reduce costs and increase supply
When: 29 May, 2017

First courses for Fuel Cells and Hydrogen applications (KnowHy) – specialisation course: Micro Fuel Cells

After completing the First courses for Fuel Cells and Hydrogen applications (KnowHy) – Core module course

Interested participants could start the specialisation course: Micro Fuel Cells

Register here

Application, working principle, installation, maintenance and troubleshooting of fuel cell systems, and hydrogen safety

Micro fuel cells for portable applications

Over the years, the emergence of portable electronic devices such as laptops, MP3 players and mobile phones has resulted in a rapid growth in demand for portable power sources with enhanced performance. Such power sources need to have sufficient power output while being as small and lightweight as possible, like a conventional battery. Micro fuel cells have shown great promise over the years for portable power applications, powering a variety of small-scale electronics. The micro fuel cell market is made up of two main categories which are portable electronics and military devices. In this specialisation module, the various types of micro fuel cells are presented, and it will be shown how they are quickly becoming a viable alternative to conventional Li-ion batteries. This module includes the following units

  • Introduction to micro fuel cells introduces the basics of this technology comparing their performance to conventional batteries that exist on the market
  • Micro fuel cell components introduces the various stack designs for the different micro fuel cell types
  • Micro fuel cell processes and system design gives an overview of the common system layouts found in some micro fuel cells
  • Safety & maintenance outlines safety aspects and the possible alarm and fault conditions that can be encountered during operation of micro fuel cell systems

After completing the course, the student will be able to:

  • Understand micro fuel cell fundamentals
  • Know the different types of micro fuel cells
  • Know the different fuels used by micro fuel cells
  • Identify the various applications of micro fuel cells
  • Be familiar with the micro fuel cell stack design
  • Know the safety aspects of stack manufacture and installation
  • Conduct maintenance, diagnostics and failure analysis on a micro fuel cell system

The qualification obtained is “Certificate of Knowledge in Hydrogen and Fuel Cell Technology for Technicians: Micro fuel cells”.

General information:
  • Each course is divided into two modules: the core module. And after the compilation the core module, the student starts to follow the specialisation module.
  • The course will require approximately 100 hours of student effort, of which there will be 40 hours dedicated to the core module and 60 hours to a specialisation module.
  • For the online part of the courses, the indicated date is the starting date of the course.
  • For the practical part of the course, (30/6/2017) the indicated date is the fixed date for the one-day practical session, which is taking place in-person.
  • The online course should be completed before the practical session