Across three business-focused sessions, this training course will provide attendees with a comprehensive and up-to-date review of energy transition pathways and technologies, in order to clearly frame hydrogen within its wider market context.
It will provide an independent and hype-free perspective of hydrogen’s competitive advantages and disadvantages in this competitive environment, providing a knowledge base from which to better frame strategic business decisions and choices.
This course tackles this challenge head-on by exploring the power of support mechanisms. Learn how these mechanisms, such as investment grants and financing assistance, can significantly reduce project costs and financing expenses, paving the way for a more economically viable green hydrogen future. This is particularly relevant for developing economies, where robust support structures can unlock the full potential of this clean energy source.
Hydrogen Geopolitics & Geoeconomics: Europe / Americas / Caribbean is an expansive three-day online course, positioned as the third session in a series exploring the global hydrogen market's geopolitics and geoeconomics. This instalment shifts the focus to the interplay between Europe, the Americas, and the Caribbean in the hydrogen sector. The course aims to analyse the unique geopolitical relationships, market synergies, and policy landscapes that define hydrogen energy's role in these regions.
An in depth analysis of the current status of green hydrogen production associated with existing and new offshore wind projects. The analysis is based on an expert view of the business cases, investment analyses and project developments across the industry with a focus on a range of current examples
The course first provides the necessary tools to select attractive hydrogen markets based on defined criteria and business goals of the company entering the market. It offers different approaches to enter hydrogen markets based on the company starting point and comparative advantages, while also defining the business processes and team choices required.
This time-efficient training course will provide attendees with a comprehensive and up-to-date introduction to ammonia today and its prospects in a decarbonised world. Aimed at those in commercial, business-focused roles, including business development, strategy planning and investment, attendees will gain a clear description of the key technologies in language easily accessible to non-engineers.
This course will provide tangible examples of chemcycling and waste to hydrogen pathways and technologies for green hydrogen generation from biomass. Some of the processes are used at scale today; others are plans for the future. Many of the technologies covered in this course have the potential to become viable low-carbon hydrogen production routes in future decades.
This course is designed to give a clear examination of the factors that will determine the economics and competitiveness of hydrogen produced by electrolysis. It will examine economics in terms of levelised cost and project financial modelling, assessing the impacts of factors such as capital cost reductions, electrolyser efficiency, load factor, co-product sales and financing costs.
This course will provide examples of major schemes that have been proposed for pipeline hydrogen transmission and distribution and outline the testing work that has taken place to confirm whether hydrogen can indeed be admixed into natural gas and under what conditions existing infrastructure can be adapted for use with hydrogen.
This course will cover some of the high-capacity storage options and explain in which situations each may be suitable. The seasonality of some production and use-cases will also be covered to underline the importance of high-capacity hydrogen storage.
If you are investing in the production, storage, distribution, or use of SAF, eSAF or hydrogen for aviation then an appreciation of the alternatives is required. Understanding the market drivers and most likely use cases is essential. Similarly for aviation sector operators, understanding the range of fuels available is essential.
This course will explain how thermochemical hydrogen production technologies such as SMR, ATR and POX fit with integrated carbon capture. The optimum technologies for on-purpose blue hydrogen production are different to those that have been favoured for grey hydrogen. If you are investing in the hydrogen economy or considering technologies to implement, a review of the options will be essential.
Turquoise hydrogen is made from methane using pyrolysis. This course will introduce the main technologies for producing turquoise hydrogen and identify the companies leading their development and commercialisation. The course will also explore current and emerging high scale applications for the solid carbon and graphite that are produced through these processes.
The "Hydrogen Fuel Lifecycle and Certifications" three-day course is tailored to meet the needs of hydrogen practitioners who are already familiar with the basics of hydrogen technology and want to gain deeper insights into the hydrogen fuel lifecycle, including its components, and explore certification requirements.
World Hydrogen Geopolitics & Geoeconomics 101 is the conclusive course in a series of training courses, crafted to bring together insights from previous seminars and incorporate the latest developments in the hydrogen sector. This three-day online course addresses the pivotal role of the 2024-2025 period in shaping the hydrogen economy, a time marked by key global elections with possibly profound impacts on the industry (USA, Europe, Russia, the UK, Korea, Canada, Germany, Japan…).
This course is a time-efficient and accessible examination of the factors that need to be considered when connecting hydrogen production to renewable power generation. Over three sessions, the course will explain the crucial technical, economic and market context considerations, illustrating key concepts with both market trend data and simple, Excel-based calculations and models.
If you are investing in the production or hydrogen, an appreciation of the alternatives is required. White hydrogen may feature as one of these alternatives in the future, either as your source, or a competitive option to your mode of production. Understanding the market drivers and the economics of the most competitive sources is essential. This course will provide insights into all these areas.
If you are investing in the production or hydrogen, an appreciation of the alternatives is required. White hydrogen may feature as one of these alternatives in the future, either as your source, or a competitive option to your mode of production. Understanding the market drivers and the economics of the most competitive sources is essential. This course will provide insights into all these areas.
This course will provide tangible examples of emerging and challenger technologies for green hydrogen generation from electrolysis. Many of the electrolysis technologies covered in this course have the potential to become mainstream green hydrogen production routes in future decades and will challenge established equipment and well-known electrolyser industry names.
If you are investing in the Power to X, X to power or the full cycle of Power to X to Power, then an appreciation of the technologies involved is required. Understanding the market drivers and options for the potential molecules for use in Power to X to Power is essential. This course will provide insights support all these processes.