The potential for large-scale hydrogen production, import, transport and consumption by and for the industry is the most promising use case in Belgium.

Belgium today is already an important user of hydrogen technology, mainly in its petrochemical and chemical industries. Grey hydrogen flows through existing pipelines, which is separated during the processing of natural gas or as the residual fraction of, for example, chlorine plants. For transportation, the focus is mainly on the electrification of cars. Nonetheless, for trucks and public transport (buses), hydrogen may be part of the solution as well. A number of pilot projects were launched also in the maritime sector. Because hydrogen can provide both electricity and heat, there is also increasing interest from the buildings and power sectors. The focus is on combined heating and power (cogeneration) installations for buildings (where electrification is less obvious) and on heat networks in the cities, on closed (industrial) sites and energy communities. Moreover, hydrogen has been proposed as a large-scale electricity storage solution.

In the medium term, despite the high potential “penetration” rate of green hydrogen for the industry,¹ Belgium does not have enough surplus renewable power to produce green hydrogen on a large scale. As a result, Belgium may have to import additional renewable energy to produce green hydrogen from countries able to produce it more efficiently and cheaply.²  Blue and turquoise hydrogen could furthermore be a useful transitional technology

This is the clear direction taken also by the federal government in its updated Hydrogen Strategy³, which revolves around four sectors and four pillars. Industry, transportation, buildings and power generation are the four sectors identified as having potential for using hydrogen and its derivates as a decarbonisation lever, with the former two having the strongest use case. Across these target sectors, the Hydrogen Strategy is built up around four pillars:

• Pillar 1: Positioning Belgium as an import and transit hub for renewable molecules
• Pillar 2: Expanding Belgium’s leadership in hydrogen technology
• Pillar 3: Creating a robust hydrogen market
• Pillar 4: Investing in cooperation

The Hydrogen Strategy recognises the limited potential for domestic green hydrogen production on the one hand, and the varying potential of the different use cases across economic sectors on the other. It therefore takes a pragmatic approach that is focused on import, transport over longer distances and use cases requiring the specific characteristics of H2 and derived molecules, in particular the (petro)chemical industry.

Click here for further information on the current thinking on use cases in Belgium.

China's hydrogen industry has gained increasing attention from the government in recent years in light of the proven benefits of hydrogen energy. The Chinese government has identified the hydrogen industry as a priority area to achieve energy transition and carbon neutrality.

Various strategies and plans have been issued to promote the development of the hydrogen industry, including the monumental Medium and Long-term Plan for the Development of Hydrogen Energy Industry (2021-2035) (the “2021-2035 Plan”) released in March 2022, which identifies hydrogen energy as a significant part of China's future national energy system. Specific attention is paid to use cases in transportation, industrial usage, power and buildings sectors. The 2021-2035 Plan sets targets for China's hydrogen energy industry in three phases: (1) first phase (by 2025): a relatively comprehensive institution and policy environment shall be established, accompanied with innovation capacity improved, core technologies obtained, and a preliminary supply chain and industrial system established, (2) second phase (by 2030): a relatively comprehensive technology innovation system and green hydrogen production and supply system with a reasonable industry layout shall be formed, and (3) third phase (by 2035): a hydrogen energy industry system covering multiple use cases shall be established, and the proportion of green hydrogen in end-use energy consumption shall be significantly increased.

Echoing the 2021-2035 Plan, China Petroleum & Chemical Corporation (“Sinopec”), one of China’s oil giants, initiated its medium- and long-term development strategy for hydrogen energy in September 2022, aiming to build itself into a leading hydrogen energy company in China and worldwide. According to the strategy, Sinopec will focus on hydrogen energy transportation and green hydrogen refining areas.

On 8 July 2020, the European Commission published its hydrogen strategy for a climate neutral Europe.⁹

Seeking to achieve the wide-scale deployment of clean hydrogen in Europe across different sectors is a key priority for the European Commission and one of the main deliverables of the European Green Deal to achieve climate neutrality by 2050.

On the same day, the Commission launched its European Clean Hydrogen Alliance as well as its Energy System Integration Strategy¹⁰ (the latter highlighting the need for greater integration between energy systems, which currently largely operate in silos). The Energy System Integration Strategy is particularly relevant in the context of hydrogen, as the effective interaction between, for example, electricity and gas networks, will be integral to achieving a decarbonised energy system.

The Commission’s hydrogen strategy is certainly ambitious, aiming for the production of up to ten million tonnes of green hydrogen and 40GW of electrolyser capacity within Europe by 2030 (with one million tonnes of green hydrogen and 6GW of electrolyser capacity by 2024). Importantly, it recognises the need to build up a clear pipeline of viable projects and the urgency of action that is needed if the ambition is be realised.

It is clear from the Commission’s hydrogen strategy that there is a preference for renewable hydrogen (or “green hydrogen”) over low carbon hydrogen (or “blue hydrogen”). It is noteworthy that an earlier leaked draft of the Commission’s strategy made little reference to blue hydrogen production; however, the final published version does acknowledge the importance of hydrogen from fossil fuels (with carbon capture technology) in the short to medium term as a transition to large scale renewable hydrogen.

Overall, though, the clear expectation that renewables will be the predominant energy source for hydrogen production in the longer term is reflected in the forecast of €180-470bn of investment by 2050 for this production technology. By the Commission’s estimates, aggregate blue hydrogen investments will pale into relative insignificance over this timeframe, with €3-18bn of forecast investment.

The Commission considers that the two main lead markets for hydrogen end-user demand will lie in industrial applications (e.g. replacing carbon-intensive hydrogen in refineries, the production of ammonia and methanol and replacing fossil fuels in steel making) and transport (in particular for heavy duty vehicles where electrification is more difficult).

On 14 July 2021 the Commission announced its “Fit for 55” package which included a number of legislative and policy proposals to enable the EU to meet its commitment to reduce greenhouse gas emissions by at 55% by 2030 in comparison with 1990 levels. Although not exclusively focussed on clean hydrogen, the Fit for 55 package contained a number of proposals that could significantly boost the development of the European Union’s clean hydrogen economy, including:

• targeted 50% share for renewable fuels of non-biological origin (RFNBO) in the industrial sector by 2030. Hydrogen would classify as an RFNBO;
• targeted 2.6% share of RFNBOs in the transportation sector as part of the amended Renewable Energy Directive (RED);
• free allowances under Emissions Trading Scheme (ETS) extended to producers of renewable hydrogen;
• member states allowed to reduce or eliminate taxes on renewable hydrogen under the Energy Taxation Directive (ETD);
• a target of one hydrogen refuelling station available every 150 km along the TEN-T core network and 100 km along the TEN-T comprehensive network; and
• maximum carbon intensity proposals on the shipping sector and minimum blending requirements for sustainable aviation fuels (SAFs) in the aviation sector, both of which would promote the update of renewable hydrogen in the shipping and aviation sectors.

Click here for further information on the current European Commission thinking on use cases.

9 https://ec.europa.eu/energy/sites/ener/files/hydrogen_strategy.pdf

10 https://ec.europa.eu/energy/sites/ener/files/energy_system_integration_strategy_.pdf

Two use cases for hydrogen described earlier in this chapter (i.e. industry and transportation) are already in the process of implementation in France. On 10 September 2020, the French Government unveiled a €7bn national strategy for carbon-free hydrogen, setting out three core objectives: 

• to install enough electrolysers to make a significant contribution to the decarbonation of the economy;
• to develop clean mobility, particularly for heavy vehicles; and
• to foster the development of an H2 industrial sector in France, creating jobs and guaranteeing France’s technological expertise.

In February 2023, it was announced that this support would be supplemented in the France 2030 investment plan by €1.9bn additional support.

The French energy regulator (the Commission de Régulation de l’Énergie) considers that blue hydrogen could replace the use of grey hydrogen used in industry and that, in the medium term, it could be one of the vectors of decarbonisation in the heavy transport sector.

France’s ambition is to develop blue hydrogen and its industrial, energy and mobility uses, with the prospect of reaching around 20% to 40% of total hydrogen and industrial hydrogen consumption by 2030. The French State, through various channels, has already or is in the process of launching several calls for projects to achieve the objectives set out above.

In particular, France plans to establish a support framework applicable to hydrogen produced by electrolysis of water using low carbon electricity, based on specific legislation that was adopted in February 2021. 

On 8 November 2022, the French President asked the Minister of Industry and the Minister of Energy Transition to draw up a new national hydrogen strategy, which should be developed by June 2023.

Click here for further information on the current thinking on use cases in France.

On 10 June 2020, the German Federal Government adopted the long-awaited National Hydrogen Strategy (Nationale Wasserstoffstrategie).¹¹ The strategy broadly aims to (a) achieve the German climate targets, (b) create new value chains for the German economy by developing a domestic market for hydrogen technology, and (c) develop international energy policy co-operation to secure market opportunities for German companies in and outside Germany and secure sufficient hydrogen imports.

The National Hydrogen Strategy identifies industry, transportation and heat as potential areas for increased use of hydrogen, but foresees that the use cases do not become viable at the same time. In the short to medium term, priority will be given to areas in which the use of hydrogen is close to economic viability and in which no major downstream dependencies are created or in which no alternative decarbonisation options exist. Furthermore, although the National Hydrogen Strategy states that only green hydrogen is sustainable over time, it assumes that blue hydrogen will be a transitional technology over the next ten years.

The National Hydrogen Strategy has generally been received positively by industry. However, some industry participants have called for clearer policy proposals and greater certainty around regulatory changes required to integrate hydrogen into the energy system.¹²

Meanwhile, certain actions proposed in the National Hydrogen Strategy have been implemented, e.g. the reduction of surcharges on electricity used for the production of hydrogen or financial support programmes. It remains to be seen whether the new government will broaden the strategy and/or increase funding.

Click here for further information on the current thinking on use cases in Germany.

11 Cf. https://www.bmwi.de/Redaktion/EN/Publikationen/Energie/the-national-hydrogen-strategy.pdf?__blob=publicationFile&v=6.

12 See, e.g., the Association of Energy and Water Industries and the Federation of German Industries.

In December 2019, the Italian Government officially released the Integrated National Plan for Energy and Climate, which sets binding targets for energy efficiency, renewable sources and reduction of CO2 emissions to be achieved by 2030 and promotes the use of green hydrogen. The main target use case for hydrogen is decarbonisation of commercial transportation. A role for hydrogen in energy storage is also contemplated: in particular, power to gas, as well as usage in existing energy network infrastructure.

In November 2020, the Minister for Economic Development published the Preliminary Guidelines on the National Hydrogen Strategy (Strategia Nazionale Idrogeno – Linee Guida Preliminari – “Hydrogen Guidelines”), whose 2030 term objective is the development of a national hydrogen ecosystem and for hydrogen to gradually become competitive in selected sectors, covering about 2% of the 2030 Italian energy demand. In the long term, up to 2050, the Hydrogen Guidelines’ goal is for hydrogen to support the effort of decarbonisation together with other low carbon emissions technologies, especially in hard-to-abate sectors (e.g., steel production, chemicals). Thus, hydrogen would be able to cover up to 20% of the 2050 Italian energy demand.

The National Recovery and Resilience Plan for Italy (“Italian Recovery Plan”) published on 26 April 2021 follows in the steps of the Hydrogen Guidelines with its second Mission, “Green Revolution and Ecological Transition”, focusing on, inter alia, renewable energy, hydrogen, and sustainable transportation with an overall budget of €23.78 bn, €3.19bn of which is allocated for promoting the production and distribution of hydrogen in order to contribute to the achievement of the decarbonisation target.

In addition, certain regulatory changes have been recently adopted aimed at accelerating the environmental impact assessment procedures for the development of green hydrogen production plants. 

Click here for further information on the current thinking on use cases in Italy.

The government of Japan declared its commitment to reach net-zero by 2050 in October 2020 and subsequently issued its “Green Growth Strategy” on 25 December 2020 and 18 June 2021 (the “Green Growth Strategy”). The government listed each of hydrogen and fuel-use ammonia as one of the 14 priority sectors in the Green Growth Strategy, and indicated a specific numerical cost-reduction target of 30 JPY/Nm3 and 20 JPY/Nm3 by 2050, and the introduction target of up to 3 million tons per year by 2030 and up to 20 million tons per year by 2050 for hydrogen. The Green Growth Strategy identified four key use cases: (i) power generation by hydrogenfuelled turbines, (ii) stationary fuel cells (for both industrial and household use), (iii) fuel cell vehicles (including hydrogen supply stations) and (iv) steel production by hydrogen. It also features the development of hydrogen carrier vessels for transportation and the water electrolysers for hydrogen production as the supply side priority targets.

The government’s proposed energy mix in 2050 also features hydrogen and ammonia as 10% energy source, together with the renewables for 50-60% and nuclear, CCUS and/or carbon recycling for 30-40%.

To achieve the proposed targets, the government created the “Green Innovation Funds” of up to 2 trillion yen budget capacity for 10 years commissioned to New Energy and Industrial Technology Development Organization of Japan (NEDO). NEDO have already launched the programs for (i) the hydrogen production through water electrolysis from renewable power sources and (ii) the large scale hydrogen supply chain development (including liquefication, transportation and combustion) in August 2021, and (iii) proposals have been invited in respect of the programs for the development of fuel use ammonia and steel production by hydrogen and the submitted proposals are under the evaluation process.

Click here for further information on the current thinking on use cases in Japan.

On 28 June 2019, the National Climate Agreement (Klimaatakkoord) was concluded. The main purpose of this agreement is to reduce greenhouse gas emissions in the Netherlands by 49% compared to 1990 levels. Hydrogen is expected to play an important role in the decarbonisation of the Dutch economy.

The Dutch Government has indicated that in the mid to long term, hydrogen can and must be able to carry out a number of critical functions within the energy and raw materials management system. In its Government Strategy on Hydrogen (Kabinetsvisie waterstof), the Dutch Government envisages that hydrogen will be an indispensable part of the sustainability strategy for industrial clusters and ports and the transport sector generally. Principal areas of focus include a carbon-free feedstock for the process industry and mobility, especially with regard to passenger transport for greater distances and heavy transport. Market participants are therefore preparing for a growing role for hydrogen, including through feasibility studies, the development of business cases and proposed investments.

The Dutch Government views blue hydrogen as a transitional replacement for grey hydrogen in industry and in the expansion of hydrogen infrastructure capacity. The North Sea industrial hub offers the potential for the Netherlands to develop a blue hydrogen market which would stimulate economic growth and the labour market. Green hydrogen can be further developed to be produced at scale during this transitional period.

Click here for further information on the current thinking on use cases in the Netherlands.

The Polish Hydrogen Strategy until 2030 with a perspective until 2040 was adopted by the Polish government on 2 November 2021.

The six core objectives are:

1. Implementing hydrogen technologies in the energy and heating sectors;
2. Using hydrogen as an alternative fuel for transport;
3. Supporting the decarbonisation of industry;
4. Producing hydrogen in new installations;
5. Enabling efficient and safe transmission of hydrogen; and
6. Creating a stable regulatory environment.

The ambition of the Polish government is to develop strong national and local competencies with regard to key components of the modern hydrogen technologies value chain. The strategy envisages that by 2030 Poland will have 2 GW of low-carbon hydrogen production capacity and at least five so-called hydrogen valleys.

In October 2021, representatives of the public sector, the academia and the private sector concluded an agreement to support the development of the hydrogen economy.

Click here for further information on the current thinking on use cases in Poland.

The main “use cases” set out in the Portuguese Government’s National Strategy for Hydrogen (EN-H2) are the decarbonisation of the transport, industry and electricity sector. The Portuguese Government has declared that the main goal for the creation of a “hydrogen economy” is increasing the independence of the Portuguese energy sector by replacing imported fossil fuels with domestically produced green hydrogen.

The EN-H2 is particularly focused on the production of green hydrogen over blue hydrogen given the low production costs of solar energy and the geographical location of the country (large coastal areas).

More recently, the Portuguese Recovery and Resilience Plan (RRP), which provides for national implementation of the European Union’s recovery plan “NextGenerationEU” following the COVID-19 pandemic, has once again brought hydrogen to the spotlight and aims at implementing the EN-H2.

In line with the EN-H2, the RRP proposes an integration of hydrogen in all sectors of the economy, including the decarbonisation of the transport, electricity and industry sectors. In addition, the RRP highlights the potential role of hydrogen in the development of new technologies and overall technological progress, ultimately contributing to the country’s economic and employment growth.

Click here for further information on the current thinking on use cases in Portugal.

Spain is determined to become Europe’s leading green hydrogen producer and exporter, supplying a significant share of the continent’s industrial demand. Through the H2Med project (the EU’s first major hydrogen corridor), launched together with France and Portugal, Spain wants to be at the forefront of green H2 production and trading in the EU.

In October 2020, the Spanish Government approved the “Hydrogen Roadmap: a commitment to renewable hydrogen”, which set an interim goal of 300 MW to 600 MW of installed electrolysis capacity in 2024 before reaching at least 4 GW of installed capacity by 2030. 

Since it approved the Roadmap, the Spanish Government has doubled down on green H2 growth in Spain. The country now has several major hydrogen related projects in the pipeline which when commissioned in the coming years will lead Spain to easily surpass the 4 GW capacity goal.

Click here for further information on the current thinking on use cases in Spain.

In June 2019, the UK Government committed to a target of achieving net zero greenhouse gas emissions by 2050.¹³ The overarching strategy for achieving this target is set out in the Clean Growth Strategy.¹⁴

The UK Government announced its hydrogen strategy on 17 August 2021 and by April 2022, it had doubled its ambitions by targeting up to 10GW of low carbon hydrogen production by 2030, with at least half of this coming from electrolytic hydrogen¹⁵.Along with its 2021 hydrogen strategy, the UK Government launched consultations on: (i) a low carbon hydrogen business model, to be finalised  in late 2023; (ii) a £240 million Net Zero Hydrogen Fund; and (iii) a new low carbon hydrogen standard, which was introduced in 2022.

On 19 October 2021 the UK Government also announced its Net Zero Strategy, which included the establishment of a new Industrial Decarbonisation and Hydrogen Revenue Support (the “IDHRS”) scheme to fund new industrial carbon capture and hydrogen business models. The £140 million scheme will initially commit to providing up to £100 million to award contracts of up to 250 MW of electrolytic hydrogen production capacity in 2023 with further allocation in 2024. The IDHRS will result in up to 1.5 GW of low carbon hydrogen contracts awarded to projects. 

On 30 March the UK Government announced a shortlist of low carbon hydrogen projects, targeted to receive funding or support under the hydrogen business model and Net Zero Hydrogen Fund. The shortlist contains a total of 408MW of electrolytic hydrogen production capacity, with support contracts to be awarded in Q4 2023 and the first projects expected to be operational in 2025.

Click here for further information on the current thinking on use cases in the UK.

13 Section 1 of the Climate Change Act 2008

14 The Clean Growth Strategy: Leading the way to a low carbon future, October 2017 as amended April 2018

15 Hydrogen Strategy update to the market: July 2022 [https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/1092555/hydrogen-strategy-update-to-the-market-july-2022.pdf]