Practical Engineering for Hydrogen Applications
AXIOM's 'Hydrogen Series' returns with our exciting new second edition, 'Practical Engineering for Hydrogen Applications'!
Industry sectors are looking at plans to achieve net zero through improved energy efficiency and alternative energy sources. Hydrogen is likely to play a role in the fuel switch, from traditional fossil fuels to hydrogen as an energy source. This technical briefing will delve into the engineering design considerations and material compatibility for hydrogen applications in new or existing industrial establishments.
This program is designed to equip engineers with the technical understanding and practical insight needed to make informed decisions about safely designing and assessing systems for hydrogen service.
AXIOM's 'Hydrogen Series' returns with our exciting new second edition, 'Practical Engineering for Hydrogen Applications'!
Industry sectors are looking at plans to achieve net zero through improved energy efficiency and alternative energy sources. Hydrogen is likely to play a role in the fuel switch, from traditional fossil fuels to hydrogen as an energy source. This technical briefing will delve into the engineering design considerations and material compatibility for hydrogen applications in new or existing industrial establishments.
This program is designed to equip engineers with the technical understanding and practical insight needed to make informed decisions about safely designing and assessing systems for hydrogen service.
Speakers
Steve Woodward
Oyinda Gunn
Dr Malcolm Toft
Good to know
Highlights
- 3 hours 30 minutes
- In person
Location
Catalyst Science Discovery Centre and Museum
Mersey Rd
Widnes WA8 0DF
How do you want to get there?
Agenda
Registration with Coffee and Breakfast Snacks
Welcome and Introduction
Materials Considerations for Hydrogen
The ‘colours’ of hydrogen/Summary of current knowledge/Safe vs unsafe materials - expanded/Fabrication philosophy/best practices/Welding & weld procedures/Portable hardness testing /Secondary deterioration mechanisms