Agenda 2025

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  1. Hydrogen Leadership Summit
  2. Hydrogen Leadership Summit
    As hydrogen becomes a key pillar of the global energy transition, the development of cross-border trade is crucial for ensuring market growth, pricing stability, and supply chain reliability. This pan ...
  3. Hydrogen Leadership Summit
    The global hydrogen market is evolving rapidly as countries reconsider regulatory frameworks to accelerate growth and innovation. By reducing regulatory barriers and encouraging market-driven solution ...
  4. Hydrogen Leadership Summit
    The hydrogen economy will only succeed through collaboration – across regions, sectors, and national borders. That is the central premise of this panel. Drawing from real-world experience in Northern ...
  5. Hydrogen Leadership Summit
    This year Germany welcomed a new coalition government, setting the stage for a new approach to hydrogen policy. This panel will discuss how the CDU/CSU's leadership will influence hydrogen infrastruct ...
  6. Hydrogen Leadership Summit
  7. Hydrogen Leadership Summit
  8. Hydrogen Leadership Summit
  9. Hydrogen Leadership Summit
  10. Hydrogen Leadership Summit
  11. Hydrogen Leadership Summit
  12. Hydrogen Leadership Summit
  13. Hydrogen Leadership Summit
  14. Hydrogen Leadership Summit
    In October 2024, the Federal Network Agency granted approval for the so-called hydrogen core network. By 2032, it should expand to 9,040 kilometers, linking key hydrogen hubs in every state: seaports, ...
  15. Hydrogen Leadership Summit
    This session offers a strategic look at how Europe is advancing green hydrogen deployment, and will share insights on recent developments, key enablers for growth, and what's needed to maintain progre ...
  16. Hydrogen Leadership Summit
    Overview on hydrogen projects announcements and realization compared to targets Impact on electrolyzer manufacturers   Rising competition from China Latest development (projects, infrastructure, regul ...
  17. Hydrogen Leadership Summit
    The hydrogen economy is gaining momentum worldwide, with governments and industries accelerating efforts to scale up hydrogen production, infrastructure, and innovation. But financing remains one of t ...
  18. Hydrogen Leadership Summit
    Tariffs play a key role in shaping the global renewable energy market, influencing pricing, investment and international competitiveness. In the U.S., tariffs have been used to protect domestic indust ...
  19. Hydrogen Derivatives & Sustainable Fuels
    As the aviation sector faces mounting pressure to decarbonize, sustainable aviation fuel (SAF) has emerged as a key solution. This study presents a comprehensive techno-economic and environmental anal ...
  20. Hydrogen Derivatives & Sustainable Fuels
    The cement industry is a recognised hard to abate sector. Cement kilns require extremely high temperatures, and this does not easily lend itself to electrification. But importantly, the raw feedstock ...
  21. Hydrogen Derivatives & Sustainable Fuels
    Ultra low carbon intensity hydrogen and its derivatives, such as electrolytic SAF, methanol, and ammonia are critical to decarbonising energy, heavy transport, and industrial sectors, with water playi ...
  22. Hydrogen Derivatives & Sustainable Fuels
  23. Hydrogen Derivatives & Sustainable Fuels
    IntroductionOne of the major issues of our current energy supply is the huge negative environmental impact caused by our energy dependency on fossil fuels. Consequently, decarbonizing our industrial w ...
  24. Hydrogen Derivatives & Sustainable Fuels
  25. Hydrogen Derivatives & Sustainable Fuels
  26. Hydrogen Derivatives & Sustainable Fuels
  27. Hydrogen Derivatives & Sustainable Fuels
    E-fuels are emerging as a promising solution for decarbonizing transport sectors that are difficult to electrify, including aviation and shipping. Various technological pathways have emerged, from Pow ...
  28. Hydrogen Derivatives & Sustainable Fuels
    Sustainable aviation fuels are key to decarbonising the aviation sector. This panel will explore the SAF value chain, including latest technologies and production methods. Panellists will also discuss ...
  29. Hydrogen Derivatives & Sustainable Fuels
    Ammonia is emerging as a key enabler of the energy transition—serving as a hydrogen carrier, carbon-free fuel, and platform chemical. At TNO, the Netherlands Organization for Applied Scientific Resear ...
  30. Hydrogen Derivatives & Sustainable Fuels
    For decades we have understood and minimised the risks from hydrocarbon gas and vapour releases; the behaviour of these molecules is well understood. We have continued to develop our detection technol ...
  31. Hydrogen Derivatives & Sustainable Fuels
    The transition to E-fuels is critical for achieving net-zero targets, especially in aviation. However, despite growing demand and some technological advancements, large-scale e-Fuels initiatives still ...
  32. Hydrogen Derivatives & Sustainable Fuels
    Low-carbon ammonia has real promise as a hydrogen carrier for Europe, especially for imports and sectors that need large volumes of hydrogen. However, efficiency issues, , Policy and Regulation, safet ...
  33. Hydrogen Derivatives & Sustainable Fuels
    This panel will discuss the key aspects of ammonia's role in the future. Panellists will discuss the cost of production: When will green or low carbon ammonia become cheaper than grey ammonia? And in ...
  34. Hydrogen Derivatives & Sustainable Fuels
    Given the critical role of ammonia in decarbonization, it is imperative that safety does not become its Achilles' heel. It is essential to incorporate safety measures into the design of production and ...
  35. Hydrogen Derivatives & Sustainable Fuels
  36. Hydrogen Derivatives & Sustainable Fuels
  37. Hydrogen Derivatives & Sustainable Fuels
    Topics: - Various forms of hydrogen transportation- Advantages for ammonia transportation vs. other forms- Focus on ammonia transfer large-scale  qualification of products in absence of international ...
  38. Green Hydrogen Production & Electrolyser Development
    The Scotch whisky industry, a cornerstone of Scotland’s economy, contributes an estimated 529,000 tonnes of CO2 annually, representing around 1.5% of Scotland’s total emissions. In response, the Scotc ...
  39. Green Hydrogen Production & Electrolyser Development
    Green hydrogen projects are suffering high CAPEX costs driving up green hydrogen prices. Of course, there is a permanent and evolutionary development on the electrolyser stack itself, however it refle ...
  40. Green Hydrogen Production & Electrolyser Development
    Water a scarce resource with only 3% of the world water is fresh and less than 1% that is accessible. World water demand is estimated to increase with 55% by 2050 (OECD). At the same time Renewable Hy ...
  41. Green Hydrogen Production & Electrolyser Development
    The 20 MW HySynergy facility is among Europe’s largest electrolysers. It's built to demonstrate and scale green hydrogen production, storage, and distribution together with our partner and main offtak ...
  42. Green Hydrogen Production & Electrolyser Development
    H2 plants supplied by renewable energy have to adapt their production depending on the renewable energy availability. Varying renewable power generation requires varying load situations of H2 plant. P ...
  43. Green Hydrogen Production & Electrolyser Development
    Haffner Energy's proprietary technology enables the production of “green” or even “super-green” hydrogen by converting residual biomass into syngas (synthesis gas) using thermolysis, a thermochemical ...
  44. Green Hydrogen Production & Electrolyser Development
    The production of hydrogen from fluctuating renewable energy sources is crucial for achieving a sustainable energy transition in Europe. This presentation focuses on the techno-economic analysis and s ...
  45. Green Hydrogen Production & Electrolyser Development
    For hydrogen producers and users there is a key question: Should we produce/use green hydrogen according to RFNBO standards? While the legislation of the EU RED III currently is only valid for green h ...
  46. Green Hydrogen Production & Electrolyser Development
    From steel to ammonia, major industrial players are piloting and scaling green hydrogen projects. But are these projects commercially viable yet? What are the key technical and economic hurdles? This ...
  47. Green Hydrogen Production & Electrolyser Development
    By ensuring low conductivity of DI-Water, it is possible to achieve reliable and low-cost production of green Hydrogen. This presentation will discuss this technology and illustrate how to avoid ion p ...
  48. Green Hydrogen Production & Electrolyser Development
    The expansion of the hydrogen economy relies on the ability to scale electrolyser production efficiently while overcoming supply chain bottlenecks. This panel will discuss the key barriers impacting e ...
  49. Green Hydrogen Production & Electrolyser Development
  50. Green Hydrogen Production & Electrolyser Development
    Solid oxide electrolysers stay at the forefront of energy transition technologies. Their unique features which offer a great advantage over the other types, especially low-temperature electrolysers in ...
  51. Green Hydrogen Production & Electrolyser Development
  52. Green Hydrogen Production & Electrolyser Development
  53. Green Hydrogen Production & Electrolyser Development
  54. Green Hydrogen Production & Electrolyser Development
  55. Green Hydrogen Production & Electrolyser Development
  56. Green Hydrogen Production & Electrolyser Development
    This paper presents the critical process safety measures implemented during the commissioning of a 60 Nm³/h green hydrogen generation and blending facility in India. The project integrates alkaline el ...
  57. Green Hydrogen Production & Electrolyser Development
    Scaling green hydrogen to meet global decarbonization targets requires power supply architectures that reconcile cost efficiency, grid stability, and industrial durability. This presentation explores ...
  58. Hydrogen Systems and Infrastructure Development
    Port of Antwerp-Bruges as a hydrogen import hub and CO2 export hub for Belgium and Germany Port of Antwerp-Bruges is Europe’s second largest port hosting the largest European petrochemical cluster. In ...
  59. Hydrogen Systems and Infrastructure Development
    Hamburg offers one of the largest cohesive industrial areas in Europe with a perfectly suited site for large scale green hydrogen producers and industrial, logistics and aviation offtakers alike. The ...
  60. Hydrogen Systems and Infrastructure Development
    The North Sea is far more than a popular holiday destination – it is a key pillar of Europe’s future energy system. As a natural energy hub for the surrounding countries, it already plays a crucial ro ...
  61. Hydrogen Systems and Infrastructure Development
    AquaVentus is a pioneering initiative committed to unlocking the vast potential of offshore hydrogen production in the North Sea. As part of the wider European energy transition, the initiative brings ...
  62. Hydrogen Systems and Infrastructure Development
    As the hydrogen economy gains momentum, liquid hydrogen (LH₂) is emerging as a critical enabler for hydrogen storage in heavy-duty, maritime and aerospace applications. This talk presents our recent a ...
  63. Hydrogen Systems and Infrastructure Development
  64. Hydrogen Systems and Infrastructure Development
  65. Hydrogen Systems and Infrastructure Development
  66. Hydrogen Systems and Infrastructure Development
    The RHeaDHy Project - A Comprehensive Overview - Introduction The RHeaDHy project, « Refuelling Heavy Duty with very high flow Hydrogen », aims to develop components and refuelling stations capable of ...
  67. Hydrogen Systems and Infrastructure Development
  68. Hydrogen Systems and Infrastructure Development
  69. Hydrogen Systems and Infrastructure Development
  70. Hydrogen Systems and Infrastructure Development
    Baltic Sea region has been identified as one of the key corridors with great ability to produce and transport significant amounts of green and low carbon hydrogen to markets in Central Europe. What is ...
  71. Hydrogen Systems and Infrastructure Development
    Increasing numbers of hydrogen refuelling stations (HRS) are in operation globally, yet in some regions their performance has been disappointing, despite close to two decades of experience. In other r ...
  72. Hydrogen Systems and Infrastructure Development
    Both the UK and Ireland have extensive potential for large scale offshore wind deployment and have developed national hydrogen strategies to exploit this resource to produce low-carbon hydrogen. There ...
  73. Hydrogen Systems and Infrastructure Development
    Standards, which define requirements for products, services, or processes, are critical for the successful implementation of hydrogen technologies. Adherence to these standards ensures the safe handli ...
  74. Hydrogen Systems and Infrastructure Development
    As hydrogen emerges as a cornerstone of the clean energy transition, the challenge of safe and scalable storage remains a challenge. This panel will discuss next-generation storage solutions, includin ...
  75. Hydrogen Systems and Infrastructure Development
    This presentation will provide an overview of hydrogen-related research at Imperial College London, with a particular focus on the Hydrogen Research Group within the School of Sustainability. This int ...
  76. Hydrogen Systems and Infrastructure Development
    The regulatory framework defining the European hydrogen markets is evolving fast. Lots of work has been done to define green hydrogen, the definition of low carbon hydrogen is upcoming, standards abou ...
  77. Low Carbon Hydrogen Production
  78. Low Carbon Hydrogen Production
    Hydrogen production costs are examined across different European countries based on hourly simulations of power prices under various weather conditions and hydrogen production expansion scenarios unti ...
  79. Low Carbon Hydrogen Production
    Nuclear energy is uniquely suited to producing clean hydrogen and sustainable aviation fuel (SAF). While there is a clear and growing demand for hydrogen and SAF to support multiple industries on thei ...
  80. Low Carbon Hydrogen Production
    EVONRG and Texas A&M University have developed multiphase non-equilibrium plasma processes to continuously convert hydrocarbons into hydrogen and graphene. These innovative electrical driven processes ...
  81. Low Carbon Hydrogen Production
    The existence of natural, white, gold or geological hydrogen is dawning on many people. After the recent hype and onset of reality related to green hydrogen, white hydrogen is the next “pile-in” colou ...
  82. Low Carbon Hydrogen Production
    White hydrogen – naturally occurring, geologically sourced, and emission-free – is emerging as a gamechanger in the global hydrogen landscape. As the world searches for scalable, cost-effective and tr ...
  83. Low Carbon Hydrogen Production
    The global transition to a low-carbon economy has positioned hydrogen as a critical energy carrier, with both blue and green hydrogen playing pivotal roles in achieving decarbonisation targets. Howeve ...
  84. Low Carbon Hydrogen Production
    Global hydrogen production is currently dominated by methods that significantly contribute to carbon emissions, with less than 1% of total hydrogen production worldwide being categorised as "green". A ...
  85. Low Carbon Hydrogen Production
    The industrial sector is at a critical juncture, facing the dual challenges of meeting increasing complexity of energy supply technically and commercially while transitioning to sustainable practices ...
  86. Low Carbon Hydrogen Production
    Objectives In our transforming world, the conventional fossil-based energy ecosystem favors blue hydrogen because of cost, time, and scale-up limitations, whereas the renewable energy sector champions ...
  87. Low Carbon Hydrogen Production
  88. Low Carbon Hydrogen Production
    A panel discussion to understand the theoretical potential of natural (geological / white) hydrogen as  a low-cost, low CO2-intensity energy source. And, to assess the status of exploration and maturi ...
  89. Low Carbon Hydrogen Production
    This panel will discuss industrial applications of low-carbon hydrogen beyond transportation. The panel will discuss hydrogens role in steel production, chemical processes, and power generation. Panel ...
  90. Low Carbon Hydrogen Production
  91. Low Carbon Hydrogen Production
  92. Low Carbon Hydrogen Production
  93. Low Carbon Hydrogen Production
  94. Low Carbon Hydrogen Production
  95. CCS Policy, Regulation and Capture Technologies
    Carbon capture, utilization, and storage (CCUS) is at a pivotal moment as industries explore scalable solutions to meet decarbonization goals. Today, chemical absorption dominates the market with a 50 ...
  96. CCS Policy, Regulation and Capture Technologies
    As Europe strives for a sustainable future, CCS emerges as a critical technology in the fight against climate change. This presentation will explore the unique insurance challenges and opportunities a ...
  97. CCS Policy, Regulation and Capture Technologies
    This presentation examines how Carbon Capture, Utilization, and Storage (CCUS) is reshaping gas power generation. Through a detailed virtual case study, practical examples of CCUS implementation and i ...
  98. CCS Policy, Regulation and Capture Technologies
    As a significant CO2 emitter and a customer driven environmental technology provider, Veolia has the unique need to advance practical carbon capture solutions for both ourselves and for our customers ...
  99. CCS Policy, Regulation and Capture Technologies
    Carbon management is emerging at the crossroads of climate policy and business opportunity. This session explores how technologies for CO₂ capture, utilization, and storage (CCUS) are evolving from a ...
  100. CCS Policy, Regulation and Capture Technologies
    This panel will discuss how the new German government is shaping policies around Carbon Capture, Utilization, and Storage (CCUS). Panellists will discuss the latest regulatory shifts, the role of CCUS ...
  101. CCS Policy, Regulation and Capture Technologies
  102. CCS Policy, Regulation and Capture Technologies
  103. CCS Policy, Regulation and Capture Technologies
  104. CCS Policy, Regulation and Capture Technologies
  105. CCS Policy, Regulation and Capture Technologies
  106. CCS Policy, Regulation and Capture Technologies
  107. CCS Policy, Regulation and Capture Technologies
  108. CCS Policy, Regulation and Capture Technologies
    Carbon capture is recognised as a key tool for reducing industrial emissions, however significant hurdles remain in its deployment. This panel will discuss the key challenges facing carbon capture ado ...
  109. CCS Policy, Regulation and Capture Technologies
    Metal-organic frameworks (MOFs) offer a disruptive solution for point-source CO₂ capture, reducing energy demand by 2-3x compared to amines. Their low-temperature, low-pressure regeneration lowers ope ...
  110. CCS Policy, Regulation and Capture Technologies
    The ever-increasing focus on emission limits from post-combustion carbon-capture units is a result of two parallel trends: 1) the growth of a new industry to capture CO2 from flue gasses, and 2) the f ...
  111. CCS Policy, Regulation and Capture Technologies
    Conventional amine-based Carbon Capture process is challenged with it's high internal energy consumption, both electrical and heat. maximizing Efficiency and deploying innovative heat recovery systems ...
  112. CCS Policy, Regulation and Capture Technologies
    As CCS momentum builds across industry, this presentation will share practical insights into how real projects are being accelerated, de-risked and delivered – and how this alliance-based approach is ...
  113. Carbon Capture, Storage and Transport
    Direct air capture (DAC) of carbon dioxide (CO2) represents an important technology in the fight against climate change which offers the potential to achieve negative CO2 emissions and hydrogen transp ...
  114. Carbon Capture, Storage and Transport
    As part of its decarbonisation or blue hydrogen production goals, a large European refinery accessible by sea, planned to offset ≈500 kiloton/year CO2 (at 95% CO2 recovery) from the flue gas of its ex ...
  115. Carbon Capture, Storage and Transport
    The cement industry is a significant contributor to global CO2 emissions. To address this challenge, Air Liquide and Cementir Holding Group have partnered to develop a pioneering carbon capture projec ...
  116. Carbon Capture, Storage and Transport
    Concrete is the second most used substance on Earth - after water - and among the most carbon-intensive. But what if construction projects could actually reduce atmospheric CO₂? In this session, Arnol ...
  117. Carbon Capture, Storage and Transport
    Ensuring legacy wells containment as part of CO2 storage projects is continuous industry challenge, where applying the regulative requirements and industry guidelines with project experience has allow ...
  118. Carbon Capture, Storage and Transport
    As heavy industries face mounting pressure to decarbonize, managing post-combustion emissions and industrial waste remains a dual challenge. Phosphogypsum (PG), a calcium-rich byproduct of phosphate f ...
  119. Carbon Capture, Storage and Transport
    GE Vernova is supporting the development of Net Zero Teesside Power, one of the world’s first commercial-scale gas-fired power plants with integrated carbon capture and storage (CCS). The project—deve ...
  120. Carbon Capture, Storage and Transport
  121. Carbon Capture, Storage and Transport
  122. Carbon Capture, Storage and Transport
  123. Carbon Capture, Storage and Transport
  124. Carbon Capture, Storage and Transport
  125. Carbon Capture, Storage and Transport
  126. Carbon Capture, Storage and Transport
    Scaling Direct Air Capture (DAC) is becoming a key focus in climate strategy. This panel will discuss the technical, economic and regulatory hurdles of DAC deployment at scale. Panellists will discuss ...
  127. Carbon Capture, Storage and Transport
    This presentation will discuss the history of scale up and development in carbon capture processes. The speaker will discuss CDR technology, and discuss the process of CO2 reacting with the absorbent ...
  128. Carbon Capture, Storage and Transport
  129. Carbon Capture, Storage and Transport
    As Europe advances its carbon management strategy, the development of a robust CO₂ transport network is essential for linking emission sources with permanent storage sites. This panel will explore the ...
  130. Carbon Capture, Storage and Transport
    As carbon capture and storage (CCS) infrastructure scales globally, the efficient and reliable dehydration of CO₂ becomes increasingly critical to ensure pipeline integrity, prevent hydrate formation, ...
  131. Carbon Capture, Storage and Transport
  132. Carbon Capture, Storage and Transport
    Capsol Technologies has built the largest experience with post combustion potassium carbonate by deploying three demonstration units (CapsolGo®) on different flue gas configurations (waste-to-energy, ...
  133. Carbon Utilisation and Blue Hydrogen
    Most of the pulp and paper industry uses wood waste combustion in specialized boilers, also known as power boilers, to produce steam for its processes. This is in addition to the combustion of lignin ...
  134. Carbon Utilisation and Blue Hydrogen
    Westenergy has developed a carbon capture project to produce 200,000 t/a CO2 for the synthesis of e-methanol. This project follows the company's vision that WtE plants can be a sustainable carbon sour ...
  135. Carbon Utilisation and Blue Hydrogen
    With severe geopolitical changes and a shifting policy landscape with regards to sustainability and energy transition, it is time to look at the market prospects of green hydrogen and discuss implicat ...
  136. Carbon Utilisation and Blue Hydrogen
  137. Carbon Utilisation and Blue Hydrogen
  138. Carbon Utilisation and Blue Hydrogen
  139. Carbon Utilisation and Blue Hydrogen
  140. Carbon Utilisation and Blue Hydrogen
    Not all carbon utilization projects are created equal. As momentum builds for industrial decarbonization, success depends on designing carbon capture and utilization (CCU) systems that actually work—t ...
  141. Carbon Utilisation and Blue Hydrogen
  142. Carbon Utilisation and Blue Hydrogen
    Catalysis has always been an important driver of industrial development and is key technical skill of modern society. The sustainability transformation towards net-zero is the next development step th ...
  143. Carbon Utilisation and Blue Hydrogen
    Carbon utilisation technologies are key tools for reducing industrial CO₂ emissions and converting waste carbon into useful products. This panel will discuss the technical challenges and opportunities ...
  144. Carbon Utilisation and Blue Hydrogen
    Oil and Gas is in the midst of a reversion to mean for business activity focus. The sector has had a leading role in global FID for green hydrogen, though that is within the system boundary for immedi ...
  145. Carbon Utilisation and Blue Hydrogen
    Carbon dioxide considered as a molecule for fuels has been considered as a pathway towards energy storage. As a second pathway, however, is considered the use of biogenic methane resources to produce ...
  146. Carbon Utilisation and Blue Hydrogen
    The transition to a sustainable energy landscape demands innovative solutions for carbon dioxide (CO2) utilization. Among these, low-temperature CO2 electrolysis has emerged as a promising pathway for ...
  147. Carbon Utilisation and Blue Hydrogen
  148. Carbon Utilisation and Blue Hydrogen
  149. Fuel Cell Innovation, Performance and Mobility
    The EU's ambitious goal of achieving a Net Zero power grid by 2050 will rely heavily on renewable energy. Most national scenarios predict that by 2050, at least 75% of energy will come from variable r ...
  150. Fuel Cell Innovation, Performance and Mobility
    Despite decades of hype, fuel cells have yet to achieve widespread adoption, but this is now changing. Emerging interest into fuel cells for stationary power generation is driven by a rise in global p ...
  151. Fuel Cell Innovation, Performance and Mobility
    Fuel cells offer a wide range of potential applications in the field of mobility. In addition to their use in road and rail transportation, fuel cells also represent a promising opportunity to make av ...
  152. Fuel Cell Innovation, Performance and Mobility
    Hydrogen is rapidly becoming essential for achieving zero-emission mobility globally. Applications include passenger cars, buses, trains, long-haul trucks, and heavy-duty equipment like cranes and for ...
  153. Fuel Cell Innovation, Performance and Mobility
    With the Hanseatic Hydrogen Center for Aviation and Maritime, H2AM for short, the Federal Ministry for Digital and Transport (BMDV) is realising a further measure of the National Hydrogen Strategy. Ag ...
  154. Fuel Cell Innovation, Performance and Mobility
    Our presentation addresses the critical challenge of maintaining hydrogen purity in fuel cell electric vehicles (FCEVs) by investigating potential contamination arising from greases used along the hyd ...
  155. Fuel Cell Innovation, Performance and Mobility
    With the growing electrification of heavy-duty transportation, fuel cell systems are becoming increasingly important as zero-emission propulsion solutions. One often underestimated but essential aspec ...
  156. Fuel Cell Innovation, Performance and Mobility
  157. Fuel Cell Innovation, Performance and Mobility
    The H2GO project with a 90 M€ research budget, is formed by 19 Fraunhofer institutes in a total of 9 German states, which use their research competencies and infrastructures as well as local networks ...
  158. Fuel Cell Innovation, Performance and Mobility
    It is expected to lower product costs by installing mass-production solutions. As usual any buyer is looking on the CAPEX-costs and is happy to buy at best price.What if we tell you, this is not the s ...
  159. Fuel Cell Innovation, Performance and Mobility
    The transition to a hydrogen-based economy requires innovative and scalable solutions for fuel cell technology. As a global leader in fuel cell system development, we have successfully integrated PEM ...
  160. Fuel Cell Innovation, Performance and Mobility
    The development of fuel cells has undergone a remarkable change in recent years. While the focus has traditionally been on automotive applications, we are now seeing significant interest in other area ...
  161. Fuel Cell Innovation, Performance and Mobility
  162. Fuel Cell Innovation, Performance and Mobility
  163. Fuel Cell Innovation, Performance and Mobility
  164. Fuel Cell Innovation, Performance and Mobility
    Fuel cell technology is increasingly seen as a viable solution for decarbonising heavy-duty transport, offering long-range capabilities and fast refueling compared to battery-electric alternatives. As ...
  165. Fuel Cell Innovation, Performance and Mobility
  166. Fuel Cell Innovation, Performance and Mobility

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  • Gas Infrastructure Europe (GIE) is the association representing the interests of European gas infrastructure operators active in gas transmission, gas storage and Liquefied Natural Gas (LNG) regasific ...

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