Creating a viable hydrogen economy has been saved
Creating a viable hydrogen economy
A Future of Energy point of view on hydrogen
Hydrogen is projected to play a key role in the future of energy and its development will happen faster than many might expect. Increasingly, business leaders understand they need to get a grip on hydrogen to understand where the opportunities will be. However, with so much hype around hydrogen it is difficult to keep an eye on the key trends and developments. Where will the transition to hydrogen unfold first, which supply technologies and distribution alternatives have most potential and which geopolitical regions are best positioned? This point of view addresses those questions and offers recommendations to policy makers and companies on how to position themselves optimally for the accelerated transition to come.
In this video, our Hydrogen experts Eric Vennix and Oscar Kraan discuss the essential role which hydrogen will play in decarbonising hard-to-abate sectors, and in integrating intermittent renewable electricity, as transport medium and as storage medium.
A Future of Energy point of view
In the short term, hydrogen will be applied first in those sectors that are under societal pressure to decarbonise - likely those closest to the customer. Interest from the market is coming from consumer goods companies in Europe which can obtain a premium from consumers substituting their energy needs in production and distribution. Think about a car from green steel (produced with the use of hydrogen) and hydrogen trucks to distribute consumer products.
In the medium to long term, industrial feedstock and electricity buffering are also likely to be decarbonised by hydrogen, as well as potentially some niches in other mobility applications and the built environment.
In the longer term, the production of ammonia and synthetic hydrocarbon fuels produced from hydrogen will enable the decarbonisation of the hardest to abate sectors such as shipping and aviation.
This more widespread use of hydrogen is only possible when green hydrogen costs decrease, which they are projected to do significantly as renewable electricity becomes abundant and electrolyser costs decrease with economics of scale. As long as costs are high in the short run, blue hydrogen will be used to kick-start supply.
Pipelines, trucks and ships will all play a role in transporting hydrogen. The ability to connect large-scale hydrogen storage for close-to-sea locations makes a pipeline infrastructure favourable, while for other inshore locations its role is to connect supply and demand. Hydrogen distribution via trucks will stay relevant as a dedicated hydrogen network will not be as dispersed as the current natural gas network; import (especially via pipelines and potentially in the future via ships) will be essential as hydrogen demand will likely exceed European domestic hydrogen production.
However, domestically produced hydrogen, especially from low-cost renewable electricity will likely remain competitive against imported hydrogen given the transport (and potential conversion) costs. When the hydrogen demand is really scaled-up, centralised production connected via a pipeline structure to large scale storage becomes favourable over decentralised production, given its ability to provide security of supply.
- Given the pressure to decarbonise, Europe will drive the hydrogen industry on the back of COVID-19 recovery packages which will create opportunities across regions such as the manufacturing industry in Asia (e.g. electrolysers, fuel cells, Solar PV, cars, trucks); export of renewable resources in North Africa and the Middle East; and capitalisation of cheap fossil resources (blue hydrogen) in Australia, Canada and Russia.
- Blending can be used as a policy instrument to give security of demand to hydrogen suppliers and eliminate the risk of supply shortfalls to hydrogen users. However, now that there is increasing certainty that hydrogen demand will emerge, blending becomes less of a priority.
- To enable the cost decrease of electrolysers (and fuel cells) governmental support in the short term is necessary, but in the longer term, hydrogen will likely always be more expensive than fossil fuels and therefore will need policy incentives to be competitive (e.g. carbon taxes or subsidies).
- To be able to take advantage of the opportunities, companies will need to make strategic bets, build an eco-system, keep learning and pro-actively engage with policy makers.
- On the demand side, eyes will be focused on the world's big brands that are looking for renewable alternatives for their non-electrifiable energy use driven by their green ambitions. This is likely to trigger a hydrogen equivalent of a PPA market which emerged in the electricity market.
- On the supply side, consortia of the world's largest energy companies will drive the development of the hydrogen market given their scale (and subsequent ability to deliver these projects) and their interest in hydrogen as a lifeline for their relevance in a low-carbon world. They will increasingly put pressure on government to enable a hydrogen market to scale.