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Solar Energy

Innovation Hub makes its debut

April 11, 2025 ryansheehanrts

The ees Innovation Hub brings together the energy storage industry under the theme ‘Research meets Industry’. From research institutes and start-ups to market leaders, innovative storage experts will showcase the latest research, studies, products, battery technologies, applications, solutions, and business models at the exhibition and on the ees Innovation Hub Stage.

PV Guided Tours: Up close with the innovations

Visitors can expect a diverse programme of talks on the ees Innovation Hub Stage. Topics will cover the use of artificial intelligence and self-learning software in battery research, energy trading, and the increasingly important issue of recycling. The partners of the ees Innovation Hub Stage include the Fraunhofer Institute for Solar Energy Systems ISE, the Karlsruhe Institute of Technology (KIT), and RWTH Aachen.

ees Europe: Strong focus on hydrogen

Commenting on the new format, Sabine Kloos, Exhibition Director of ees Europe, said: ‘The goal of the ees Innovation Hub is to connect research and industry. Exhibition visitors will have the opportunity to explore the latest trends and witness innovative developers in action.’

From Munich to Curaçao: research teams in a live competition

One of the special highlights on the stage is the kick-off of a live competition on the first day of the fair (May 7): the ees Island Challenge. In this competition, three interdisciplinary teams led by top universities and research institutes will develop innovative concepts for transforming a former refinery site on the Caribbean island of Curaçao into a sustainable community space.

ees Europe 2025: storage industry meets battery research

Visitors to the trade fair can watch the teams in action and interact with them on 7 and 8 May in Hall B0 (Stand B0.160). A five-person jury, composed of technology and business experts, will select the winner with input from the audience after the concept presentations on 9 May.

The competition was inspired by the global initiative ‘Greening the Islands Foundation’ developed in collaboration with the German Solar Industry Association (Bundesverband Solarwirtschaft e.V. – BSW).

Expert analysis: Battery storage as a business model for PV

Gianni Chianetta, Chairman of the ‘Greening the Islands Foundation’, explains: “The 100% RES Islands Initiative creates specific case studies for islands that serve as global models. There is no one-size-fits-all solution: islands need tailored, integrated renewable energy roadmaps, with storage as a fundamental element. We look forward to the ees Island Challenge with Curaçao and BSW as a pioneering, globally relevant innovation project.”

Networking with influencers

The ees Innovation Hub will also enhance the visibility of exhibitors. Throughout the three days of the exhibition, the ten finalists and winners of The smarter E AWARD in the Energy Storage category will showcase their award-winning products in the Hall of Fame. Additionally, the hub will serve as a key destination for influencers and podcasters, and will host networking receptions.

ees Europe, along with the concurrent events Intersolar Europe, Power2Drive Europe, and EM-Power Europe, will take place from May 7-9 2025 at Messe München as part of The smarter E Europe, Europe’s largest exhibition alliance for the energy industry. (hcn)

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Solar Energy

Premiere for the Innovation Hub

April 11, 2025 ryansheehanrts

The ees Innovation Hub connects the energy storage industry under the motto ‘Research meets Industry’. From research institutes and start-ups to market leaders – innovative storage experts present the latest research results, studies and innovative products as well as battery technologies, applications, solutions and business models in the exhibition and on the ees Innovation Hub Stage.

PV Guided Tours: Up close with the innovations

Visitors can look forward to a comprehensive programme of talks on the ees Innovation Hub Stage. Topics range from the use of artificial intelligence and self-learning software in battery research to energy trading and the hot topic of recycling. The partners of the ees Innovation Hub Stage are the Fraunhofer Institute for Solar Energy Systems ISE, the Karlsruhe Institute of Technology (KIT) and RWTH Aachen.

ees Europe: Strong focus on hydrogen

Commenting on the new format, Sabine Kloos, Exhibition Director of ees Europe, said: ‘The aim of the ees Innovation Hub is to bring together research and industry. Visitors to the exhibition can discover the latest trends and see the most innovative developers at work.’

From Munich to Curaçao: research teams in a live competition

One of the special highlights on the stage is the kick-off of a live competition on the first day of the fair (May 7): in the ees Island Challenge, three interdisciplinary teams—led by leading universities and research institutes—are developing innovative concepts for transforming a former refinery site on the Caribbean island of Curaçao into a sustainable community space.

ees Europe 2025: storage industry meets battery research

Visitors to the trade fair can watch the teams at work and interact with them on 7 and 8 May in Hall B0 (Stand B0.160). A five-person jury of technology and business experts will select the winner with the help of the audience after the concept presentations on 9 May.

The impetus for this competition came from the global initiative ‘Greening the Islands Foundation’. The competition was developed jointly with the German Solar Industry Association (Bundesverband Solarwirtschaft e.V. – BSW).

Expert analysis: Battery storage as a business model for PV

Gianni Chianetta, Chairman of the ‘Greening the Islands Foundation’, explains: ‘The 100% RES Islands Initiative creates specific case studies for islands that serve as global models. There is no one-size-fits-all solution: islands need tailored, integrated renewable energy roadmaps, with storage as a fundamental element. We look forward to the ees Island Challenge with Curaçao and BSW as a pioneering, globally relevant innovation project.’

Networking with influencers

The ees Innovation Hub will also boost the visibility of exhibitors: On all three days of the exhibition, the ten finalists and winners of the The smarter E AWARD in the Energy Storage category will present their award-winning products in the Hall of Fame. In addition, the hub will be the first port of call for influencers and podcasters, and will host networking receptions.

ees Europe and the concurrent events Intersolar Europe, Power2Drive Europe and EM-Power Europe will take place from May 7–9, 2025 at Messe München as part of The smarter E Europe, Europe’s largest exhibition alliance for the energy industry. (hcn)

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Solar Energy

Research project – Floating solar plant installed on artificial lake

November 19, 2024 ryansheehanrts

Photovoltaic installations on roofs or in fields is nothing unusual. However, it is probably not widely known that solar installations can also float. That may be about to change, as more than 190 floating solar modules have been installed on the Mortkasee artificial lake in Lohsa, Saxony. This joint project between RWE, the Fraunhofer Institute for Solar Energy Systems (ISE) and Brandenburg University of Technology Cottbus-Senftenberg (BTU) investigates the extent to which floating solar islands can be implemented and operated in harmony with aquatic ecology. The project is being sponsored by the German Federal Ministry of Economic Affairs and Climate Action.

The plant was officially inaugurated today in the presence of guests from the worlds of science, industry and politics, including representatives of the Saxon Ministry of Energy, Climate Protection, Environment and Agriculture, and Thomas Leberecht, the mayor of Lohsa. Interested citizens also had the opportunity to learn about floating solar islands and the “PV2Float” research project.

Solar modules learn to float

Thomas Leberecht, mayor of the Lohsa municipality: “Originally created by flooding the Werminghoff opencast lignite mine, the Mortkasee artificial lake has become one of the first research sites for floating solar islands in Germany. This technology promises a higher power yield, since the cold water can have a positive impact on the efficiency of the solar modules. Another advantage is that previously unused mine lakes, which are not intended to be used for recreation, can be developed for green electricity generation. That offers major potential for the energy transition in Germany and here in our region.”

Three different floating solar islands have been installed on the Mortkasee. With a rated capacity of about 30 kilowatts each, these are relatively small, but still provide important insights into the benefits of various technological solutions, how costs can be reduced, and how larger, future floating solar installations can be implemented in harmony with the environment. The research plant on the Mortkasee will operate until the end of 2027.

Also interesting: Offshore solar pilot installation in the Dutch North Sea

Experienced partners from research and industry

RWE, Fraunhofer ISE and BTU Cottbus-Senftenberg are the three expert partners driving this research project forward. RWE has many years of experience in the construction and operation of utility-scale solar plants and already operates a floating photovoltaic plant on a former cooling water lake in the Netherlands. Fraunhofer ISE is Europe’s largest solar research institute. It develops solutions for floating photovoltaics and other integrated photovoltaic technologies, in addition to carrying out research into public acceptance of these technologies. BTU Cottbus-Senftenberg has extensive scientific expertise in the field of aquatic ecology. (mfo)

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Solar Energy

Battery research – Fraunhofer IPA develops production process for solid-state batteries

July 31, 2024 ryansheehanrts

Together with partners, researchers at the Fraunhofer Institute for Manufacturing Engineering and Automation (IPA) have developed a scalable production process for solid-state batteries. The scientists have thus closed a gap that still exists in the market launch of such solid-state batteries. This is important for the energy transition. After all, solid-state batteries have several advantages over lithium-ion batteries. For example, they are not flammable because they do not have a liquid electrolyte. Solid-state batteries are also lighter, which results in a higher energy density.

Basis for further development close to industry

However, solid-state batteries with a ceramic electrolyte layer have so far only been produced on a laboratory scale. With the current development, the researchers at Fraunhofer IPA have created the basis for the further development of solid-state lithium-ion batteries on an industrial scale. “We have been able to raise the production of solid-state batteries from laboratory scale to an industry-oriented, scalable level,” emphasises Jonas Heldt, scientist at Fraunhofer IPA.

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Sounding out the situation on the raw materials market

To this end, the analysts from machine manufacturer Dr Fritsch GmbH, as a project partner, first analysed the situation regarding the required raw materials. In particular, the focus was on the solid electrolyte lithium aluminium titanium phosphate (LATP). This is because it has not yet been used industrially and is therefore not produced in large quantities. The initial question was therefore: where can the necessary raw materials be obtained and how do they have to be processed? “The challenge here is not the availability of the individual raw materials per se, but the still relatively small number of manufacturers who produce the solid-state electrolyte LATP from them,” says Elke Ade, Head of the Metal Powder Division at Dr Fritsch. “However, experience shows that this will grow rapidly in line with demand for the end product.”

Making the process scalable

However, it is not just a secure supply of raw materials that is needed if the solid-state batteries are to reach the market, but also a production process that is close to industrial scale. It must be possible to scale this up to a higher throughput. Normally, foils are coated during production so that they serve as an anode, cathode and neutral intermediate layer. These are then assembled to form the actual battery.

Intermediate layers reduce mechanical stresses

However, ceramics are used for solid-state batteries. Various powders are the starting materials here. To bring this into a solid form, it must be sintered. This means that it is heated under pressure.

Also interesting: 2024 perovskite breakthroughs are the future of solar

The researchers at Fraunhofer IPA have investigated various processes for this purpose. The most promising was to stack the powders dry in a mould. In addition to cathode, anode and electrolyte layers, intermediate layers are also added to prevent the electrolyte content from increasing too abruptly. These gradual transitions reduce mechanical stresses and improve contact resistances in the sintered battery.

Material is pressed together

The filled mould is then placed in a sintering press. The materials are pressed together with a stamp under high pressure and comparatively low temperatures. This only takes a few minutes and is extremely fast compared to conventional sintering processes. These take several hours. “Using this process, several graded layers of cathode and separator can be produced in a single manufacturing step, which significantly reduces the amount of work involved and allows subsequent scaling up to larger throughputs,” explains Jonas Heldt. This would lay the foundation for the industrial production of solid-state batteries. (su/mfo)

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