Cleaner Cleaning with CO2-based Surfactants: A Cradle-to-Grave Life Cycle Assessment
Stefan Eichwald1, Marc Wollenweber2, Jade Tessien2, Jake Ouellet2, Olga Linker3, Marina Sebastian3, Daniel Brüggemann4, Reinhard Schomäcker4, Henner Hollert2, Niklas von der Aßen1,5
1RWTH Aachen University, Germany; 2Goethe University Frankfurt, Germany; 3Covestro Deutschland AG, Germany; 4Technical University of Berlin, Germany; 5Forschungszentrum Jülich GmbH, Germany
Coupling LCA and mass-balance approach for bio-circular products at Solvay
Cécile Querleu, Roméo Puech, Estelle Cohet, Chloé Moreau, Max Chabert
SOLVAY, France
Tiered approach for product development based on environmental performance
Tom Ligthart1, Lia de Simon1, Martijn Zebregs2, Richard Bouma2
1TNO, Energy & Materials Transition; 2TNO, Defence, Safety & Security
Predicting the environmental impacts of novel electrochromic displays architectures using prospective life cycle assessment
A. Kamal Kamali, Daye Lee, Guido Sonnemann
University of Bordeaux, France
Development of a site-specific LCA model to assess pathways towards a net-zero chemical industry
Ronja Hermanns1, Laura Stellner1, Arne Kätelhön1, Raoul Meys1,2
1Carbon Minds, Eupener Str. 165 50933 Cologne, Germany; 2Institute for Technical Thermodynamics, Schinkelstraße 8, 52062 Aachen, Germany
Where can we find the best data for the LCA of chemicals?
Christopher Oberschelp1,2, Stefanie Hellweg1,2, Eric Bradford1,2, Stephan Pfister1,2, Jing Huo1,2, Zhanyun Wang1,2,3
1ETH Zurich, Switzerland; 2National Centre of Competence in Research (NCCR) Catalysis, Switzerland; 3empa - Swiss Federal Laboratories for Materials Science and Technology, Switzerland
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