Pursuing the international Net-Zero Greenhouse Gas Emission targets for 2050 poses significant challenges for the entire energy industry. While various new energy carriers and concepts for net-zero emissions are being developed in parallel during the ongoing operation of our industries and transportation sectors, most experts believe that there will not be one single new technology arising, but that the solution will be a co-existence of several technologies, including hydrogen, electrification, e-fuels, etc. For both technology and infrastructure development, the quickest and most efficient way forward will be to utilise most of the existing oil & gas infrastructure, from production of these new energy carriers to storage and distribution. This course will provide an insight into the currently emerging technologies, changing legal boundaries and the potential of the existing oil & gas infrastructure to accommodate these developments, including required improvements and modifications.
Course Structure: 4 days, 4 hours per day Each session includes several breaks and will allow time for questions and discussions.
Course Level: Skill Duration: 4 days Instructor: Chandrasekhar Ramakrishnan
Designed for you, if you are...
A professional in the energy industry
Management or commercial staff involved in energy transition or working for energy companies, technological start-ups, etc.
How we build your confidence
Mixed, instructor-led delivery of theoretical content with blend of PowerPoint overview and detailed explanations
Case studies for energy transition projects
Participants are encouraged to bring own case studies for class discussion
The benefits from attending
By the end of the course you will:
Understand the concept of energy transition and net-zero greenhouse gas emissions
Get affiliated with the driving legal framework for energy transition, especially in Europe, incl. the European Green Deal, RED II, etc.
Be aware of technical challenges and legal restrictions in the handling of new energy carriers with existing infrastructure
Overview of the most promising concepts and future energy carriers for industry and global mobility, incl. their specific characteristics, advantages/disadvantages
Chemistry and physical characteristics of CO2, H2 and carriers like NH3, e-fuels, etc.
Overview of the available oil & gas infrastructure today, covering Upstream / Midstream / Downstream and their respective potential roles for energy transition
Technical challenges in the handling of new energy carriers with existing infrastructure
Legal restrictions for handling new energy carriers with existing infrastructure
Case studies for energy transition projects incl. re-assignment of existing infrastructure, incl. hydrogen transport in gas pipelines, CCUS projects, green hydrogen applications for conventional oil & gas industries, green ammonia production and handling, e-fuels synthesis, storage and handling, etc.
Feasibility of energy transition projects and potential improvement by using existing infrastructure