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Difference between revisions of "Pulping and fractionation"
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=== Bloom Biorenewables Ltd === | |||
{{Infobox provider-pulping|Company=Bloom Biorenewables Ltd|Image=LogoBloom.png|Country=Switzerland|Contact=info@bloombiorenewables.com|Webpage=https://www.bloombiorenewables.com/|Technology name=Aldehyde-assisted fractionation (AAF)|TRL=5-6|Pressure=1|Temperature=80 - 100|Capacity=5|Reagent=Organic solvent, acid, aldehyde|Feedstock=Lignocellulosic biomass|Product=Ingredients for fine chemicals, bulk chemicals and fuels, with a focus on fragrances, cosmetics, additives, bioplastics, resins.}} | |||
Bloom Biorenewables Ltd is a chemical technology provider offering new routes for the synthesis of sustainable materials, such as fine chemicals, bulk chemicals, bioplastics and biofuels. Based on its patented technology developed at the École Polytechnique Fédérale de Lausanne (EPFL), Bloom is a pioneer in the development of scalable technologies to selectively and efficiently convert the most abundant biopolymers on Earth – cellulose, hemicellulose & lignin – to replace everyday fossil products. Plants are one of the most accessible sources of sustainable carbon and will play an essential role on the path towards zero emission materials and fuels. Bloom’s vision is to bringing Bloom’s Aldehyde-Assisted Fractionation technology (AAF) to the market as fast as possible to help accelerate the certain shift towards a fully circular society.<ref>{{Cite journal|title=Formaldehyde stabilization facilitates lignin monomer production during biomass depolymerization|year=2016-10-21|author=Li Shuai, Masoud Talebi Amiri, Ydna M. Questell-Santiago, Florent Héroguel, Yanding Li, Hoon Kim|journal=Science|volume=354|issue=6310|page=329–333|doi=10.1126/science.aaf7810}}</ref><ref>{{Cite journal|title=Protection Group Effects During α,γ-Diol Lignin Stabilization Promote High-Selectivity Monomer Production|year=2018-01-26|author=Wu Lan, Masoud Talebi Amiri, Christopher M. Hunston, Jeremy S. Luterbacher|journal=Angewandte Chemie International Edition|volume=57|issue=5|page=1356–1360|doi=10.1002/anie.201710838}}</ref><ref>{{Cite journal|title=Sustainable polyesters via direct functionalization of lignocellulosic sugars|year=2022-09|author=Lorenz P. Manker, Graham R. Dick, Adrien Demongeot, Maxime A. Hedou, Christèle Rayroud, Thibault Rambert|journal=Nature Chemistry|volume=14|issue=9|page=976–984|doi=10.1038/s41557-022-00974-5}}</ref><ref>{{Cite journal|author=Stefania Bertella, Dr. Monique Bernardes Figueirêdo, Gaia De Angelis, Malcolm Mourez, Claire Bourmaud, Prof. Esther Amstad, Prof. Jeremy S. Luterbacher|year=2022|title=Extraction and Surfactant Properties of Glyoxylic Acid-Functionalized Lignin|journal=ChemSusChem|volume=15|issue=15|page=1|doi=https://doi.org/10.1002/cssc.202200270}}</ref> | |||
The unique value of the company lies its ground-breaking technology, a strong portfolio of patents covering process and applications, a team of experts and a market validation on key products. | |||
===Valmet=== | ===Valmet=== | ||
{{Infobox provider-pulping|Company=Valmet|Country=Finland|Technology name=Chemical and mechanical pulping|Webpage=https://www.valmet.com/|TRL=9|Technology category=Other processes|Feedstock=Hardwoods, softwoods, bamboo|Product=Pulp}} | {{Infobox provider-pulping|Company=Valmet|Country=Finland|Technology name=Chemical and mechanical pulping|Webpage=https://www.valmet.com/|TRL=9|Technology category=Other processes|Feedstock=Hardwoods, softwoods, bamboo|Product=Pulp}} | ||