Policy & Socio-Economics

The Czech Republic’s Hydrogen Strategy is being developed in the context of the Hydrogen Strategy for a climate neutral Europe which reflects the European Green Deal objective of climate neutrality by 2050. The objective of the Strategy is thus to reduce greenhouse gas emissions in such a way that the economy shifts smoothly to low-carbon technologies.

This is associated with two strategic goals:

• Reduce greenhouse gas emissions
• Stimulate the economic growth

To achieve these four specific goals have been set:

• Volume of low-carbon hydrogen production
• Volume of low-carbon hydrogen consumption
• Infrastructure readiness for hydrogen transport and storage
• Progress in R&D and production of hydrogen technologies

The Hydrogen Strategy is based on four pillars:

• Low-carbon hydrogen production
• Low-carbon hydrogen use
• Hydrogen transport and storage
• Hydrogen technologies

These pillars are interlinked – production and consumption must be well-balanced to achieve economic use of the respective technologies otherwise any imbalance will be offset by imports from abroad. Each of the pillars is linked to exactly one strategic goal.

Policy for Heat: Transforming the System urges Government to implement an ambitious long-term decarbonisation strategy for the heat sector before it’s too late in new inquiry report. The report builds on the work of Part 1 in the Future Heat Series which compared recent decarbonisation pathways and analyses to identify and highlight key policy mechanisms and transitions that are needed in order to decarbonise heat for buildings by 2050. Chaired by Shadow Energy Minister Jonathan Reynolds MP and Conservative MP Rebecca Pow (and also previous MP and member of the Energy and Climate Change Select Committee Dan Byles MP until he stood down at the General Election) the report is written by cross-party think tank group Carbon Connect. The report was published in Parliament at a cross-party debate on Wednesday 14th October. Sponsored by Energy & Utilities Alliance (EUA) and the Institution of Gas Engineers and Managers (IGEM) the report is the second in a cross-party and independent inquiry series.  

On this weeks episode the team are talking all things hydrogen with Jigar Shah the President of Generate Capital and Co-host of the Energy Gang podcast. Jigar Shah has a well earned reputation as one of the most influential voices in the US clean energy market having pioneered no-money down solar with SunEdison and led the not for profit climate group the Carbon War Room. Since its founding in 2014 Generate Capital the company has provided $130 million of funds to a leading fuel cell provide Plug Power meanwhile in October 2019 Jigar declared hydrogen to be the ultimate clean electricity enabler. On the show we ask Jigar why he thinks Hydrogen is becoming interesting for investors today what business models he feels are exciting and offer the most attractive niches for hydrogen technology businesses whilst getting his side of the story on that time he met Chris at a conference…..All this and more on the show!

The podcast can be found on their website

The team are joined by Dr. Jenifer Baxter of the Institution for Mechanical Engineers (IMECHE). Dr. Baxter is based in the UK and is the Chief Engineer at IMECHE. We often focus heavily on the business cases and development models at the heart of the hydrogen economy here at EAH. On this episode we bring the technical discussion to the forefront and speak with Dr. Baxter about the technical advantages and the challenges that hydrogen presents as an essential part of the path to decarbonizing the future. The team's conversation is a can't miss exploration of a wide range of potential applications for hydrogen technologies that brings a new and essential perspective to the podcast. Don't miss out on EAH's newest episode where we get the engineer's perspective on the future of hydrogen!

The podcast can be found on their website

On this week's episode of Everything About Hydrogen the team are celebrating the show's one year anniversary with Randy MacEwen the CEO of Ballard Power Systems. On the show the team ask Randy to explain the stunning rise of hydrogen over the last 12-24 months how the use cases for hydrogen are evolving and how the growing capitalisation of listed businesses like Ballard is driving a change in the investor base across the hydrogen & fuel cell sector. We also dive into the future for Ballard where the challenges and focuses for the business lie while the team reflect on what has been a very intense year for the show and the hydrogen industry. All this and more!

The podcast can be found on their website

The EAH Team takes a break from standard format on this special episode of Everything About Hydrogen to discuss some of the geopolitical factors and considerations driving the evolution of global hydrogen markets.

The podcast can be found on their website

2020 has been a year for the history books! Some good most of it not so good; but 2020 has been a boom year for the future of hydrogen technologies. Patrick Chris and Andrew do their level best on this episode to talk about all the stories and the highlights of 2020 in under 50 minutes. Have a listen and let us know if we missed anything in our penultimate episode of 2020!

The podcast can be found on their website

This article aims to present the potential of energy transition in insular systems for social and economic transition and development when planned and implemented appropriately with the active involvement of local communities. To this end the example of Sifnos Energy Community is examined and presented as a pilot case. It proves that energy transition apart from its obvious energy conservation and climate necessity can provide a strong contribution to the development of remote areas and the remedying of crucial issues especially in insular communities such as unemployment low standards of living isolation and energy supply security. Energy transition on Sifnos has been undertaken by the Sifnos Energy Community (SEC) with the target to achieve 100% energy independency through effective and rational projects. The major project is a centralized hybrid power plant consisting of a wind park and a pumped hydro storage system. It was designed to fully cover the current electricity demand and the anticipated forthcoming load due to the overall transition to e-mobility for the transportation sector on the island. Through the exploitation of the excess electricity production with the production of potable water and hydrogen energy transition can facilitate the development of new professional activities on the island and reduce the local economy’s dependence on tourism. Additionally a daily link to the neighboring larger Cyclades islands can be established with a hydrogen powered-passenger vessel ensuring the secure and cheap overseas transportation connection of Sifnos throughout the whole year. The overall energy transition process is executed with the active involvement of the Sifnos citizens ensuring wide public acceptance and the minimization of the projects’ impacts on the natural and human environment. At the same time the anticipated benefits for the insular communities are maximized highlighting the energy transition process on Sifnos as a new sustainable development pattern. For all this effort and the already achieved results Sifnos has been declared as one of the six pilot islands of the European Community’s initiative “Clean Energy for EU Islands”.

Hydrogen will become a key player in transitioning toward a net-zero energy system. However a clear pathway toward a unified European hydrogen infrastructure to support the rapid scale-up of hydrogen production is still under discussion. This study explores plausible pathways using a fully sector-coupled energy system model. Here we assess the emergence of hydrogen infrastructure build-outs connecting neighboring European nations through hydrogen import and domestic production centers with Western and Central European demands via four distinct hydrogen corridors. We identify a potential lock-in effect of blue hydrogen in the medium term highlighting the risk of longterm dependence on methane. In contrast we show that a self-sufficient Europe relying on domestic green hydrogen by 2050 would increase yearly expenses by around 3% and require 518 gigawatts of electrolysis capacity. This study emphasizes the importance of rapidly scaling up electrolysis capacity building hydrogen networks and storage facilities deploying renewable electricity generation and ensuring coherent coordination across European nations.

Many energy system optimization studies show that hydrogen may be an important part of an optimal decarbonisation mix but such analyses are unable to examine the uncertainties associated with breaking the ‘locked-in’ nature of incumbent systems. Uncertainties around technical learning rates; consumer behaviour; and the strategic interactions of governments automakers and fuel providers are particularly acute. System dynamics and agent-based models and studies of historical alternative fuel transitions have furthered our understanding of possible transition dynamics but these types of analysis exclude broader systemic issues concerning energy system evolution (e.g. supplies and prices of low-carbon energy) and the politics of transitions. This paper presents a hybrid approach to assessing hydrogen transitions in the UK by linking qualitative scenarios with quantitative energy systems modelling using the UK MARKAL model. Three possible transition pathways are explored each exploring different uncertainties and possible decision points with modelling used to inform and test key elements of each scenario. The scenarios draw on literature review and participatory input and the scenario structure is based on archetypal transition dynamics drawn from historical energy system transitions reflecting insights relating to innovation system development and resistance to change. Conclusions are drawn about appropriate policy responses.