Room: Sormiou
Date: Wednesday, 26 June 2024
Time: 16:15 - 17:15 CEST
Session code ICO.4
Innovative production of bioproducts and biochemicals for industrial applications (2)
An Integrated Circular Economy-driven Multi-Criteria Decision-Making Framework for Performance Assessment of Biogenic CO2-to-chemicals Conversion Technologies
Short Introductive summary
Chemical Industry is a key contributor to Greenhouse Gas (GHG) emissions both at an International and a European level. This is attributed to the high energy-intensive processes for the production of chemicals, in conjunction with the significant reliance on conventional fossil fuels and the inadequate sustainable waste management techniques. To tackle climate change emissions problems and favor long-term sustainability in chemical industrial processes, the deployment of new biomaterials, namely, biochemicals and bioplastics, and associated technologies for the conversion of carbon dioxide (CO2) into those biomaterials is essential. Motivated by the necessity of scaling up renewable biomaterials production, the present research effort aims to investigate how the development and implementation of a holistic, multi-criteria decision-making life cycle sustainability approach can improve the efficiency of converting biogenic CO2 emissions into added-value chemicals, within the concept of a circular bioeconomy.
Presenter
Angeliki SAGANI
CERTH, GREECE
Biographies and Short introductive summaries are supplied directly by presenters and are published here unedited
Co-authors:
A. Bon, CERTH, Athens, GREECE
I.M. Anagnostara, CERTH, Athens, GREECE
G. Nikolaou, CERTH, Athens, GREECE
D.-S. Kkourkoumpas, CERTH, Athens, GREECE
P. Grammelis, CERTH, Athens, GREECE
Session reference: ICO.4.2