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ZARM, University of Bremen Am Fallturm 28359 Bremen, Germany http://www.zarm.uni-bremen.de
Contact Ms Dr Katharina Brinkert +49 421 21857973
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ZARM, University of Bremen

A Space Lab on Earth: The Bremen Drop Tower Celebrates its 10,000th Experiment in Weightlessness

Experiment investigates oxygen production in space

(PresseBox) (Bremen, Germany, )
An impressive number of 10,000 experiments in weightlessness have been carried out at the Bremen Drop Tower. To celebrate this success, the Center of Applied Space Technology and Microgravity (ZARM) at the University of Bremen is hosting an Open Day on February 11, 2024. Everyone is invited to explore not only the Drop Tower, but also the GraviTower Bremen Pro, the new laboratory for research in weightlessness.

The Bremen Drop Tower allows scientists from around the world to conduct research in microgravity without the costly and time-consuming use of rockets or satellites. 10,000 successful experiments prove that ZARM has been creating highly professional research conditions for more than 30 years. ZARM Director Professor Marc Avila points out: "We have reached an impressive milestone: this success is not only the result of outstanding technology, but also reflects the commitment and expertise of our team. We are proud to make our laboratories accessible to the international scientific community, enabling groundbreaking discoveries and helping to shape the future of space exploration.”

Oxygen for survival in space

The 10,000th experiment in the Drop Tower carries an artificial photosynthesis experiment by ZARM scientist Dr. Katharina Brinkert, whose research project is funded by the German Aerospace Center (DLR). The experiment examines how magnetism can be used to separate oxygen bubbles from water in weightlessness. Brinkert is one of many scientists who regularly use the Bremen Drop Tower for their research. "How can oxygen, hydrogen and other chemicals be produced sustainably in microgravity, and how can we benefit from this here on Earth? These are key questions to us," says Brinkert.

The challenges of a long-duration space mission are numerous, and not just in terms of building a high-performance spacecraft. A significant part of exploration research is working on the development of reliable, efficient and sustainable life support systems. Space lacks almost everything that humans need to survive and take for granted on Earth. We could try to bring enough oxygen, energy, and food which we need to survive from Earth, but the energy and transportation costs increase significantly with every ounce we have to carry.

Current systems, such as the one on the ISS, produce oxygen using a water electrolyzer which is powered by electricity generated by solar panels. This consumes about a third of the total energy used by the life-support and control systems. These devices are very large, heavy - and prone to failure. ZARM is now investigating photoelectrochemical (PEC) devices that can produce oxygen through artificial photosynthesis using direct sunlight. This saves energy. The devices are also smaller and lighter, and their design takes into account the fact that components can be produced locally in an emergency, for example from Martian soil. In addition to oxygen, they can produce hydrogen, fuels, fertilizers, medicines and other chemicals – ideal for use in space.

Sustainable hydrogen production on Earth

Although Brinkert's team is developing PEC devices primarily for space missions, they can also be used on Earth for the new green energy transition – and even more easily than in microgravity. "It is clear that preparations for space missions and the green energy transition on Earth face similar challenges: we need to produce fuels more sustainably and use them more efficiently," says Brinkert.

The conditions under which the devices must operate vary greatly depending on where they are used. On the Moon, solar radiation is much stronger due to its proximity to the Sun. On Mars, additional devices are needed to concentrate the solar radiation in order to operate the PEC systems efficiently. In a current Nature Communications article, Brinkert's team presents the first-ever framework for evaluating the efficiency of PEC devices at different locations in space.

Further Information

Publication „Nature Communications“

YouTube-Interview with Katharina Brinkert

ZARM Website:

Open Day: https://www.zarm.uni-bremen.de/de/presse/einzelansicht/article/open-zarm-the-bremen-drop-tower-opens-its-doors.html

Artificial Photosynthesis: https://www.zarm.uni-bremen.de/de/forschung/explorationsforschung/photoelectrocatalysis.html

and: https://up2date.uni-bremen.de/en/article/breathing-in-space-artificial-photosynthesis-as-a-key-technology
 

ZARM, University of Bremen

Within Bremen, the Center of Applied Space Technology and Microgravity (ZARM) is mostly known for the unusual architecture of its main lab, the Bremen Drop Tower. Internationally, however, ZARM is a well-known member of the space community for operating the most successful microgravity lab, for its unmatched expertise in quantum and gravitational physics and space-related fluid dynamics, as well as, more recently, a broad spectrum of research in space exploration.

ZARM is an institute of the University of Bremen. The research of more than 100 ZARM scientists covers experimental, theoretical and computational approaches to fundamental scientific questions, as well as the development of technology for space missions and experiments in weightlessness.

The main laboratory of ZARM is the Bremen Drop Tower. It offers the opportunity for short-term experiments under microgravity conditions. Due to the very successful operation by the ZARM Drop Tower Operation and Service Company (ZARM Fallturm-Betriebsgesellschaft mbH) the demand for drop tower experiments has continuously increased. This is why ZARM additionally developed a new microgravity lab, the GraviTower Bremen Pro.

ZARM is strongly committed to support young scientists and students at all levels and offers several outreach programs. We especially aim at increasing the percentage of girls interested in STEM (Science, Technology, Engineering, and Mathematics) since women are still underrepresented in these fields.

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The publisher indicated in each case (see company info by clicking on image/title or company info in the right-hand column) is solely responsible for the stories above, the event or job offer shown and for the image and audio material displayed. As a rule, the publisher is also the author of the texts and the attached image, audio and information material. The use of information published here is generally free of charge for personal information and editorial processing. Please clarify any copyright issues with the stated publisher before further use. In case of publication, please send a specimen copy to service@pressebox.de.