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In the electrolyzer sector, not only Enapter needed to bury its production plans in Saerbeck last year (see H2-international Jan. 2025). Quest One is also struggling and announced the dismissal of 120 employees in February 2025. Quest One had just, with a lot of pomp, opened the production hall in northern Hamburg last autumn (see H2-international Jan. 2025), but now has initiated a "program to strengthen the company's competitiveness" for the north.
Big plans and professional marketing – HH2E’s appearance was downright impressive, but on November 8, 2024, the Hamburg-based start-up filed for insolvency on its own initiative. The reason for this was probably that the British majority shareholder Foresight Group did not want to finance the planned large-scale H2 project in Mecklenburg-Vorpommern after all.
In October 2024, the German Federal Network Agency approved the plans for the hydrogen core network. Hydrogen is expected to flow through some sections as early as 2025. Despite turbulent times, the network operators remain confident about the new infrastructure.
The German fuel cell manufacturer Proton Motor has announced the provisional end of its production activities at the end of 2024 if no new investor is found. Despite diligent efforts to save the Bavarian company, it announced in mid-September that the employees of the Puchheim branch would have...
To strengthen its “role in the global hydrogen economy,” Enertrag, a developer and producer of renewable energies, opened its Hamburg office in fall 2024. At the new branch, Enertrag wants to contribute to the decarbonization of the logistics and shipping industry. And: “We want to supply not only...
Extremely high demands are placed on tools for punching, stamping and forming sheet metals. In some cases, accuracies of between 1 µm and 2 µm are required during manufacturing. The level of challenge increases drastically the larger the tool and the thinner the sheet. The stamping plates for the sheet-metal parts in fuel cell bipolar plates are a prime example. Bipolar plates are thin structures made from welded sheet-metal half shells that enclose the filigree flow fields. They are built up one after another in many layers, with the membrane electrode assemblies sandwiched in between, to produce the final stack.
Bipolar plates based on carbon can be a cheaper and, at the same time, scalable alternative to titanium, think researchers at the institute Fraunhofer UMSICHT. A new and patented carbon-based bipolar plate from the scientists consists of a thermoplastic polymer-bonded carbon matrix with conductive...
A completely different league to Hannover Messe or Hy-Fcell in Stuttgart: The World Hydrogen Summit & Exhibition in Rotterdam showed from May 13 to 15, 2024 where the H2 event sector can go. Similarly to the Hydrogen Technology Conference & Expo in Bremen, the organizers staged a large, professional industry gathering, which most participants were impressed by, if not enthusiastic about, which makes you wonder why the fair only lasted two days.
The atmosphere was good. Not ecstatic, as was sometimes the case last year, but certainly lively. Especially in Hall 13, where the Hydrogen + Fuel Cells Europe event took place, where the aisles well filled and the babble of voices was much louder than in the other halls on the exhibition grounds. Nevertheless, the impression remains that also in the 30th year of this H2 fair, the market breakthrough is still a long time coming and will happen “in only five years,” as has been said for 20 years.
“Are we on the cusp of a hydrogen revolution or merely witnessing the build-up of another bubble?” In his new book Hydrogen 3.0 – Reality Check, author Frank Genin seeks to separate fact from fiction. In doing so, the American invites his readers on a journey to uncover the truth behind the hydrogen...
The Hydrogeit Verlag publishing house has been reporting on hydrogen and fuel cell technology for more than 20 years. In these two decades, what was once a one-man operation has now become a key player in the H2 community, providing information and comment through its books and particularly through its specialist journal H2-international and its German counterpart HZwei.
In May 2021, Hungary published its national hydrogen strategy. It sets out how the country plans to create opportunities post-coal. According to the strategy, gray hydrogen is initially expected to be used within industry in the current decade. This will then be replaced only gradually by electrolytic hydrogen. Solar-derived hydrogen is to be produced on sites of former opencast mines, with the first plant already in operation.
Thomas Hüwener will become the new management spokesman for transmission system operator OGE from July 1, 2024. The 52-year-old, who has held various positions at the company since 2001, was appointed by the supervisory board to succeed Jörg Bergmann, who is taking planned retirement after...
It took a long time, but now it's here – the power plant strategy (Kraftwerkstrategie) for Germany. It should actually have been available at the beginning of 2023, but the political agreement process was difficult and correspondingly time-consuming. On February 5, 2024, the strategy was presented, but it still has to be coordinated with Brussels and publicized. It is to create the framework for new investments in modern, highly flexible and climate-friendly hydrogen-capable power plants. Details on the future electricity market design will then be available in the summer – if the Ampel coalition leading the government reaches an agreement on that.
The decision has finally come. In mid-February 2024, the European Commission approved 24 German IPCEI projects aka Important Projects of Common European Interest. Within the framework of IPCEI Hydrogen, funding is granted to large-scale projects across the entire hydrogen value chain – from H2 production and transportation to storage infrastructure and industrial deployment.
Apex, headquartered in Rostock, Germany, is continuing to make big strides forward in the hydrogen market. On Feb. 8, 2024, the developer and operator of green hydrogen production plants announced it would henceforth be joining forces with Exceet Group under the brand H2APEX.
Originally at the end of 2023, an “emissions-free taxonomy natural gas power plant” was to go into operation in Lübesse, a municipality in Mecklenburg-Vorpommern. But as with so many projects, there have been delays: One project partner went bankrupt, and not least the price increases of recent years have necessitated rescheduling. But despite all the adversity, the responsible parties have stuck with it and are now targeting 2025/2026 for the start of production.
Project developer Enertrag has appointed Tobias Bischof-Niemz to the board. From the beginning of April 2024, the hitherto head of new energy solutions will be responsible for the newly created executive division of “Projects International & Technology.” The move will see the number of board members...
Hydrogeit Verlag is proudly celebrating its 20th anniversary as a renowned specialist publisher in the world of hydrogen and fuel cell technology. Founded in 2002, the journey began under the visionary leadership of mechanical engineer Sven Geitmann, who wrote a thesis on “Hydrogen as a fuel for...
To establish a functioning hydrogen economy, the entire value chain must be addressed. It is important to keep in view the market and regulatory aspects as well as the technical aspects (standardization). At the event GAT 2023 in September in Cologne, it could be seen how intensively the industry is working on the implementation. Exciting here are, among other things, the conversion plans of the gas grid operators towards climate-neutral gases. The second phase of the GTP also shows the great interest on the part of municipalities and the industrial sector.
For years, H2 Mobility has been working on the establishment and expansion of the infrastructure for hydrogen refueling stations. Despite the ambitiously set targets, the 100-station mark has still not been exceeded. Although more new H2 refueling stations are being built and opened, old ones are being dismantled at the same rate. Six and a half years after its founding, H2 Mobility Deutschland executed a change of leadership in April 2023: Nikolas Iwan, who alone has managed the company since the beginning, moved to the advisory board, where he is to take over as chairman in the course of the year. Iwan was replaced by a team of three managing directors. H2-international talked to CCO and spokesman Lorenz Jung about the reasons for this restructuring as well as the further goals of the company.
Methanol is already one of the most important basic materials for the chemical industry and will become even more important in the coming decades – for plastics of all kinds as well as for the production of e‑fuels. For this, large quantities of green hydrogen and sustainably produced CO2 are required.
Hydrogen is the most abundant element in the universe, and for many years has promised to play a significant role in clean energy solutions. Its sheer abundance alongside its clean combustion products would suggest hydrogen is an ideal candidate to liberate us from our fossil fuel dependency. It is, however, important to consider the entire hydrogen value chain when assessing its viability as a clean energy source. The value chain can be broadly segmented into three key fields: production, storage and distribution, and end use application. The European Patent Office (EPO) and International Energy Agency (IEA) recently issued a report analysing the global trends of innovation along hydrogen value chains. The existing and emerging technologies corresponding to each stage of the value chain can be seen in the figure below, which comes from the EPO/IEA report.
Shipping is responsible for roughly 3 percent of all carbon dioxide emissions around the globe. The International Maritime Organization or IMO therefore set itself the goal of at least halving this figure by the year 2050, relative to a 2008 baseline. Due to the high power requirements and the large distances traveled by ships, fully electric solutions are only possible in isolated cases. Hydrogen and its derivatives are therefore attracting increasing interest from the maritime industry because of their potential to greatly reduce ship emissions. The challenge in this sector is, firstly, how to store the hydrogen on board safely in a minimal amount of space and, secondly, how to engineer the overall energy system to meet various requirements while optimizing its control.
Hydrogen is the most abundant element in the universe and is a renewable energy source, so it’s no surprise that people are interested in feasible ways to produce more. A particular area of focus involves creating hydrogen from seawater. Here’s a closer look at recent progress in that area.
