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Dossier - 16/12/2013
While the use of biotechnological methods for the purification of water, soil and air has already been state of the art for quite a few years, the use of microorganisms for the recovery of metal and mineral raw materials from industrial and agricultural waste has also started to attract the interest of scientists. This dossier addresses this topic, explains what geobiotechnology and urban mining are all about.
https://www.biooekonomie-bw.de/en/articles/dossiers/microbial-raw-material-recycling
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Phosphorus recovery from sewage sludge - 21/10/2020
Biotechnology for the bioeconomy: in something known as the P-bac process, sulphur bacteria extract phosphorus from sewage sludge ash. Phosphorus is one of the key building blocks of life and an essential nutrient for plant growth. When there is not enough phosphorus in the soil, farmers apply it via organic or mineral fertilisers.
https://www.biooekonomie-bw.de/en/articles/news/bacteria-help-recycle-phosphorus
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Specialized in Sustainability - 30/09/2021
The research project RUN (Rural Urban Nutrient Partnership) explores how waste might be used more efficiently as a resource. In this project, Veronika Fendel investigates how recyclable materials from biowaste and domestic wastewater can be fed back into the material cycle in the best possible way.
https://www.biooekonomie-bw.de/en/articles/pm/circular-economy-future
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Press release - 21/04/2023
In collaboration with the project partners CG TEC, Cordenka, ElringKlinger, Fiber Engineering and Technikum Laubholz, the DITF are developing a new fiber composite material (CELLUN) with reinforcing fibers made of cellulose. The matrix of the material is a thermoplastic cellulose derivative. CELLUN made from renewable biopolymers enables the replacement of glass or carbon fibers in the production of industrial molded parts.
https://www.biooekonomie-bw.de/en/articles/pm/cellun-fiber-composite-made-biopolymers
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Polysecure GmbH - 16/01/2020
Plastics are harmful to the climate and human health both during manufacture and combustion and they also clutter our planet with garbage. Recycling is therefore a key issue, but it is not efficient. Polysecure has developed a process for permanently marking individual plastics that enables them to be separated efficiently and returned to a circular economy. This would counteract the vast amount of (micro) plastics and reduce CO₂ emissions.
https://www.biooekonomie-bw.de/en/articles/recycling-of-the-future-marked-plastic-as-a-circular-product
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Dossier - 15/04/2019
Plastic waste takes years to decompose and pollutes the environment. Nevertheless, plastics are an indispensable part of everyday life. It is therefore all the more important to find a meaningful alternative that is sustainable, environmentally friendly and has better properties and more functionality than conventional plastics. In addition, such an alternative should not be dependent in any way on fossil resources.
https://www.biooekonomie-bw.de/en/articles/dossiers/the-alternative-bioplastics
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Dossier - 09/11/2020
What will the packaging of the future look like, and what will be required of it? Can packaging be biobased, recyclable, sustainable and economic? In Baden-Württemberg, there are various approaches to developing packaging with the above properties from various sources including agricultural residual and side streams as well as municipal waste.
https://www.biooekonomie-bw.de/en/articles/dossiers/packaging-future
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Press release - 20/05/2022
The construction industry consumes large amounts of energy resources and produces tons of waste. At the Solar Decathlon Europe 21/22 university competition, students and researchers from KIT are eager to demonstrate that the building sector is already compatible with a functioning circular economy. The task of the interdisciplinary “RoofKIT” team is to convert previously unused roofs of buildings into usable spaces.
https://www.biooekonomie-bw.de/en/articles/pm/roofkit-how-build-recycling-oriented-and-sustainable-way
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Wasser 3.0: #detect|remove|reuse - 31/10/2023
We all pollute our water with things we use in our everyday lives. In the process, microplastics and micropollutants accumulate in sometimes significant quantities and are difficult to remove. This has increasingly devastating consequences for our health and the environment. Wasser 3.0, a non-profit start-up from Karlsruhe, has declared war on this problem by developing a customisable process to detect, remove and even recycle these pollutants.
https://www.biooekonomie-bw.de/en/articles/news/how-sustainably-remove-and-recycle-microplastics-water
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