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ESA launches ISRU Space Resources Competition for future systems

Services and products, including 3D printing applications, must also be useful on Earth

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The future of space exploration depends on humanity’s ability to extract resources in space. In-situ resource utilization (ISRU) will be key to supplying future explorers with food, shelter, energy, water and air. While ISRU is a futuristic concept, it has great potential for accelerating key technologies on Earth. The European Space Agency‘s Space Resources Competition, which began on 19 April 2021, will support teams to develop products and services on Earth today, which are relevant to future use in space. Ideas must relate to products/services on Earth, and must be relevant to future operations in space.

Ideas can also involve satellite data, space technologies, or spin-outs of technologies derived from space. For example, ideas could involve satellite imagery for elevation models at mining sites, satellite navigation to accurately guide autonomous machinery, and SatCom to provide communications in remote areas, but this is not essential. The basic question to answer is: “Which Space Resources Topics Are Relevant on Earth and in Space?”

ESA launches ISRU Space Resources Competition for future systems, including AM Relevant topics include how 3D printing could transform manufacturing on Earth and the future of space resources. On Earth, 3D printing is used in construction, disaster relief and healthcare. In the future, 3D printing should lead to sustainability in space, because it would eliminate the need for equipment to be built and launched from Earth, thereby reducing costs and risks.

3D printing will facilitate space exploration, especially if the feedstock is sourced locally, from lunar, Martian, or other planetary body materials. Standardized interfaces, compact instruments, or self-cleaning and dust-proof equipment would be beneficial to mining operations on Earth and in space. Advances in nanotechnology are also key to the future of mining on Earth and in space.

More generally, mining on Earth and mining in space involve similar goals. These include, for example, reducing the use of water in mining. Mining operations on Earth use a lot of water and can impact surrounding water sources. Reducing water use has become a key sustainability challenge for mining operations around the globe. It is also a key challenge for future ISRU. Mining in space would benefit from low or zero-water processing because water is a highly valuable resource in space and should not be wasted.

Other areas can look at increasing the use of solar-powered mining machinery. Mining operations have high energy demands but often take place in remote locations, where it is expensive to connect to power grids. Solar energy could be an attractive option for powering mining machinery. Likewise, mining machinery in space will likely be solar-powered. Future solar arrays should be maneuverable, efficient, light, robust, and (ideally) made in space using in-situ materials.

ESA launches ISRU Space Resources Competition for future systems, including AM

Perfecting remote and autonomous operations is also a viable area of development as oil producers and mining companies are moving towards autonomous systems, remotely operated vehicles, and specialized robots, which are ideal for use in challenging environments. Space is also a challenging environment; prospecting, exploration and sampling will most likely be carried out by autonomous robots in space requiring limited human oversight.

Future extraction should also involve low footprint, precision mining, which could rely on swarms of small, agile mining machines capable of autonomously detecting and extracting the pure deposit. Light, nimble machinery would also be needed in space to reduce launch costs and effectively mine in space.

Teams will be invited to submit proposals between 19 April 2021 and 30 June 2021. After the deadline date, an evaluation board will review the proposals and successful ideas will be selected. ESA Space Solutions will provide 100% funding of up to €200K to each winning team. Teams will use this funding to run 12 month feasibility studies. During this time, teams will investigate the technical feasibility, commercial viability, and market appetite for their idea.

Each team will need to define a business roadmap, which should explain the exploitation of the proposed product/service in space, following successful exploitation on Earth.

To learn more about eligibility and how to apply, visit the official web page at this link.

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Davide Sher

Since 2002, Davide has built up extensive experience as a technology journalist, market analyst and consultant for the additive manufacturing industry. Born in Milan, Italy, he spent 12 years in the United States, where he completed his studies at SUNY USB. As a journalist covering the tech and videogame industry for over 10 years, he began covering the AM industry in 2013, first as an international journalist and subsequently as a market analyst, focusing on the additive manufacturing industry and relative vertical markets. In 2016 he co-founded London-based VoxelMatters. Today the company publishes the leading news and insights websites and, as well as VoxelMatters Directory, the largest global directory of companies in the additive manufacturing industry.

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