Biofilters designed for space convert liquid manure into high-quality fertilisers by Staff Writers Cologne, Germany (SPX) Oct 18, 2021
The technology was originally designed for space: urine and waste are used to create a fertiliser that can help astronauts grow produce like tomatoes or lettuce. Now, this technology, made possible by the Combined Regenerative Organic food Production (C.R.O.P.) biofilter - developed at the German Aerospace Center- is proving useful on Earth in organic manure processing. A market study involving farmers is currently underway. At the same time, the biofilter is being further adapted and scaled. The first field test in the BiG C.R.O.P project will start in late autumn 2021. "C.R.O.P. is a purely organic method of processing nitrogen-containing wastewater into a fertiliser solution," explains Project Manager Tim Paulke of the DLR Institute of Aerospace Medicine in Cologne. "The principle does not just apply to urine, either. It can also be used to treat farm slurry such as cattle manure or the products of fermentation without any issues." This could lead to a reduction in the use of mineral fertilisers in mainstream agriculture. The system prevents excess nitrogen from entering ecosystems in the air, water or soil.
Microorganisms process nitrogen in the 'reaction chamber' The idea of biofilters is far from new - the Institute of Aerospace Medicine has been researching scenarios for specific habitats and applications since 2011. It is also conceivable that C.R.O.P. could be used in cities: the filter system could clean sewage in residential areas and be accommodated within houses to save space. It is also capable of treating wastewater that is contaminated with medicines or drugs.
Possible application for greenhouses on the Moon or Mars
Crucial step identified in the conversion of biomass to methane Freiburg, Germany (SPX) Oct 04, 2021 Microbial production of methane from organic material is an essential process in the global carbon cycle and an important source of renewable energy. This natural process is based on a cooperative interaction between different types of microorganisms: the fermenting bacteria and the methane-producing archaea. The former converts so-called primary fermentation products from biomass decomposition, including fatty acids into intermediate products such as acetic acid, formate or H2. Specialized archae ... read more
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