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Difference between revisions of "Industrial fermentation"
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Industrial fermentation (view source)
Revision as of 09:53, 25 November 2022
, 09:53, 25 November 2022→Bluecon Biotech GmbH
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=== Bluecon Biotech GmbH === | === Bluecon Biotech GmbH === | ||
{{Infobox provider-industrial fermentation|Company=BlueCon Biotech GmbH|Country=Germany|Contact=Dr. Stefan Verseck; blucon@blucon-biotech.com|Webpage=https://blucon-biotech.com|Technology name=Industrial Fermentation|TRL=3-4|Product=|Feedstock= | {{Infobox provider-industrial fermentation|Company=BlueCon Biotech GmbH|Country=Germany|Contact=Dr. Stefan Verseck; blucon@blucon-biotech.com|Webpage=https://blucon-biotech.com|Technology name=Industrial Fermentation|TRL=3-4|Product=2-hydroxypropionic acid (L- lactic acid)|Feedstock=cellulosic waste from paper recycling or pulp & paper production (non-food cellulosic); Dried Distillers Grains with Solubles (DDGS); Beet pulp; Agriculture residues (grasses (straw, corn stover, bagasse, miscanthus, switchgrass, sorghum), wood type materials (poplar, spruce, cotton stalks)|Microorganism=thermophilic bacteria|Image=Logo-blucon-normal.gif}} | ||
Dried Distillers Grains with Solubles (DDGS); | |||
Beet pulp; | |||
Agriculture residues (grasses (straw, corn stover, bagasse, miscanthus, switchgrass, sorghum), wood type materials (poplar, spruce, cotton stalks)|Microorganism=thermophilic bacteria|Image=Logo-blucon-normal.gif}} | |||
BluCon Biotech GmbH was founded in June 2017 and has its research laboratories and offices at the BioCampus, Cologne. The company continues to develop a unique technology by which L-lactic acid can be produced at lowest possible production costs so that the bioplastic poly lactic acid (PLA) will become commercially competitive to fossil fuel based plastics. | BluCon Biotech GmbH was founded in June 2017 and has its research laboratories and offices at the BioCampus, Cologne. The company continues to develop a unique technology by which L-lactic acid can be produced at lowest possible production costs so that the bioplastic poly lactic acid (PLA) will become commercially competitive to fossil fuel based plastics. | ||