Transitioning to Hydrogen: Safety of Hydrogen Installations
€690.00 excl. VAT
Evy De Bruycker
A qualified chemical engineer with a PhD in materials engineering, Evy De Bruycker joined ENGIE Laborelec in 2006 as a materials assessment specialist. In 2011 she took up her current post as an expert in power plant materials. Evy particularly welcomes technical challenges and likes to dig deep into issues. She is an expert in the field of materials for power plants, as well as hydrogen-induced cracking, creep testing, super alloys and additive manufacturing (AM) of metals. Through years of experience, she has become proficient in metallography, root cause analysis and remaining-life assessment.
Héloïse Gennart has worked for more than 10 years in risk management, more specifically on the explosion risk. She is experienced in risk analysis, has prepared Explosion Protection Documents, and has carried out safety audits on existing installations. For several years, as part of ATEX studies, Héloïse has audited and adapted working procedures for lead-acid battery installations. Her expertise has extended to lithium-ion batteries and developing safety guidelines for energy storage systems.
Hydrogen is an important candidate as sustainable fuel for the future. According to the Hydrogen Roadmap Europe (2019) large-scale decarbonization in transport, industry, and buildings will require the use of hydrogen. Hence blending of hydrogen into the natural gas grid as well as the use of pure hydrogen are under consideration. However, this hydrogen transition also has its particular problems. One of them is the negative effect of hydrogen on the properties of materials, known as hydrogen embrittlement.
Are you planning to invest in new equipment which will contain/transport pure hydrogen or a hydrogen mixture?
The goal of the training is to give more insight to engineers and project managers working on hydrogen processes concerning the specific risks of hydrogen.
Among others, following aspects will be explained: hydrogen embrittlement, explosion risk of hydrogen, high diffusivity of hydrogen, Joule-Thompson effect, etc. Practical solutions will be given about how to manage selection of material, type of connections, minimize hazardous area and other challenges for any new project.
The training course will also give some practical advice for assessing your existing infrastructure for future use of hydrogen or hydrogen mixtures. Which materials are still OK and which ones will need to be replaced? What are the main attention points? The safety properties of hydrogen will be examined and solutions will be given to handle it safely.
Engineers and project managers working on hydrogen processes concerning the specific risks of hydrogen.
Please note that the mentioned dates are subject to change if the required number of participants is not met. If interested in the training courses but the proposed dates do not suit your schedule and would like to be enrolled on a waiting list, or if you would like a dedicated session for your team (on-demand), please get in contact at firstname.lastname@example.org.
When organizing a hybrid delivery session, the training course will have attendees joining a live-classroom session (hosted at our offices in Linkebeek, Belgium, assuring the necessary health & safety measures) and attendees joining the same session but in a remote live-online manner.
For attendees joining a live-classroom session at our location, an extra fee of 60 EUR/training day will be added, covering the catering aspects of the training delivery.