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ZARM, University of Bremen Am Fallturm 28359 Bremen, Germany http://www.zarm.uni-bremen.de
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ZARM, University of Bremen

Increased fire risk during astronautic space missions

New study shows that fires on planned exploration missions, such as a flight to Mars, could spread significantly faster than on the International Space Station

(PresseBox) (Bremen, )
A research team from the Center of Applied Space Technology and Microgravity (ZARM) at the University of Bremen has investigated the risk of fire on spacecraft in a recent study. The results show that fires on planned exploration missions, such as a flight to Mars, could spread significantly faster than on the International Space Station (ISS).

"A fire on board a spacecraft is one of the most dangerous scenarios in space missions," explains Dr. Florian Meyer, head of the "Combustion Technology" research group at ZARM. "There are hardly any options for getting to a safe place or escaping from a spacecraft. It is therefore crucial to understand the behavior of fires under these special conditions."

The ZARM research team has been conducting experiments on the propagation of fires in reduced gravity since 2016. The environmental conditions are similar to those on the ISS - with an oxygen level in the breathing air and an ambient pressure similar to that on Earth, as well as forced air circulation. These earlier experiments have shown that flames behave completely differently in weightlessness than on Earth. A fire burns with a smaller flame and spreads more slowly, which means it can go unnoticed for a long time. However, it burns hotter and can therefore also ignite materials that are basically non-flammable on Earth. In addition, incomplete combustion can produce more toxic gases.

Oxygen and air flow as fire boosters

Future space missions are currently being planned with modified atmospheric conditions. The crew will be exposed to lower pressure. This offers two crucial advantages: The astronauts can prepare for an external mission more quickly and the spacecraft can be built lighter, i.e. with less mass, which saves fuel. The disadvantage: at lower pressure, the crew needs a higher proportion of oxygen in the breathing air - and this can have dangerous consequences in the event of a fire. We know from various everyday situations that the speed of the air flow also has a strong influence on the spread of fire, from lighting barbecue charcoal to fighting wild fires.

The current series of experiments on which the study is based was carried out under microgravity conditions in the Drop Tower Bremen. Florian Meyer and his team observed the propagation of flames after lighting acrylic glass foils and investigated how the fire reacts when one of the three parameters - ambient pressure, oxygen content and flow velocity - is changed in different proportions. The results of the experiments are clear: although the lower pressure has a dampening effect, the fire-accelerating effects of the increased oxygen level in the air predominate. Increasing the oxygen level from 21 percent (as on the ISS) to the planned 35 percent for future space missions will cause a fire to spread three times faster. This means an enormous increase of the danger to the crew in case of a fire accident.

Florian Meyer emphasizes: "Our results highlight critical factors that need to be considered when developing fire safety protocols for astronautic space missions. By understanding how flames spread under different atmospheric conditions, we can mitigate the risk of fire and improve the safety of the crew."

ZARM, University of Bremen

The Center of Applied Space Technology and Microgravity (ZARM) is an institute of the faculty of Production Engineering at the University of Bremen. The institute was founded in September 1985 and focused initially on the investigation of flow phenomena under microgravity conditions and the development of space technology. Today ZARM is an internationally recognized research center with multidisciplinary expertise in fluid mechanics, space exploration, space technology and space science. The research at ZARM covers experimental, theoretical and computational approaches to fundamental scientific questions, as well as the development of technology for space missions and microgravity experiments (for example on the International Space Station). ZARM employs more than 100 scientists, engineers and administrative staff and hosts many students from the faculty of Production Engineering, as well as from the Physical Sciences and Information Technology departments.

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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.