Industry CAse studies anaLysis to IMprove EnviROnmental performance and sustainability of bio-based industrial processes

HORIZON.2.6HORIZON-RIAID: 101060546
EC Contribution
€35,189
Consortium Size
12 orgs
Summary

European industries remain a significant source of pollution (51% of GHG emissions), with unsustainable production processes impacting adversely on climate change, natural resources availability, air/water/soil quality, ecosystems services and biodiversity. Thus, a transition to a sustainable and strong bioeconomy is one of the European main priorities as part of the EU Industrial Policy Strategy, the European Green Deal, the 2030 Climate Target Plan and the Bioeconomy strategy. CALIMERO will analyse bio-based sectors industrial case studies provided by partners (construction (ECIA), woodworking (CESEFOR), textiles (TECHTERA, EREKS), pulp & paper (ESSITY) and biochemicals (BIMKEMI)) to find feasible solutions to improve their environmental performance while considering also economic and social aspects. A deep analysis and improvement of the bio-based sectors sustainability performance by sustainability experts (CTA, WELOOP, LIST, IVL NEOVILI), followed by the simulation and modelling of relevant case studies through bio-engineering expertise (DTU) will be conducted to improve current Life Cycle Sustainability Assessment methodologies, based on the Product Environmental Footprint (PEF) guide. To that end, missing characterization factors to assess biodiversity loss, impacts to ecosystem services and toxicity effects of sector-specific substances will be developed. The allocation methods of biotic circular systems will also be improved and the time dimension for lifecycle carbon footprint assessment will be considered. Material criticality and socio-economic indicators will also be included to cover the three pillars of sustainability. The improved methodology will be applied via a Multi Objective Optimization framework that will optimize industrial simulations with sustainability criteria. Finally, guidelines and recommendations addressed to industry, policy makers and scientific community will be developed for industrial sustainable development and monitoring.

Consortium (12)

Project Results (27)

Source: CORDIS, the EU research results database.

Publications (16)
A process systems engineering view of environmental impact assessment in renewable and sustainable energy production: Status and perspectives
Computers & Chemical Engineering· 2025DOI
Carina L. Gargalo, Haoshui Yu, Nikolaus Vollmer, Ahmad Arabkoohsar, Krist V. Gernaey, Gürkan Sin
Computer Aided Chemical Engineering
34th European Symposium on Computer Aided Process Engineering /15th International Symposium on Process Systems Engineering· 2025DOI
Christoph Huber, Merlin Alvarado-Morales, Gürkan Sin
Multi-Criteria Analysis for Assessing and Classifying Sustainability Indicators for the European Bioeconomy in the frame of Multi-Stakeholder CALIMERO project
· 2025
Malekzadeh, Sajjad
Biodiversity Impact Assessment of Conventional and Organic Cotton A Comparison Using Three Different Biodiversity Quantification Models in LCA
· 2024
STINA DELLÅS
Characterize Chemical Toxicity for Life Cycle Assessment Using Machine Learning Models Based on Environmental Footprint, (2024)
SETAC EUROPE 34TH ANNUAL MEETING - ABSTRACTS BOOK· 2024
Tomás Navarrete, Thomas Gibon, Thomas Schaubroeck, Laurent Chion, Tianran Ding, Massimo Pizzol, Ligia Tiruta-Barna, Kíra Lancz, Eduardo Entrena, Ricardo Méndez, Tomas Vilhelm Rydberg, Josefin Neuwi
Characterize Chemical Toxicity for Life Cycle Assessment Using Machine Learning Models Based on Environmental Footprint, (2024)
· 2024
Ding, Tianran1 Larrea-Gallegos, Gustavo1 Marvuglia, Antonino1 Schaubroeck, Thomas1
Dynamic Carbon Footprint For The Full Life Cycle With A Temporal Inventory Database (DyPLCA) – Tailoring & Application To Biobased Circular Systems, (2024)
SETAC EUROPE 34TH ANNUAL MEETING - ABSTRACTS BOOK· 2024
Tomás Navarrete, Thomas Gibon, Thomas Schaubroeck, Laurent Chion, Tianran Ding, Massimo Pizzol, Ligia Tiruta-Barna, Kíra Lancz, Eduardo Entrena, Ricardo Méndez, Tomas Vilhelm Rydberg, Josefin Neuwi
Fully dynamic carbon footprint of circular biobased systems – A framework with temporal life cycle inventory database (DyPLCA) tailored for forestry and wood products cascades
SETAC EUROPE 34TH ANNUAL MEETING - ABSTRACT BOOK· 2024
Tomás Navarrete, Thomas Gibon, Thomas Schaubroeck, Laurent Chion, Tianran Ding, Massimo Pizzol, Ligia Tiruta-Barna, Kíra Lancz, Eduardo Entrena, Ricardo Méndez, Tomas Vilhelm Rydberg, Josefin Neuwi
Life cycle sustainability assessment (LCSA) of jeans stone washing. Pumice stone vs reusable plastic stone, (2024)
SETAC EUROPE 34TH ANNUAL MEETING - ABSTRACT BOOK· 2024
Tomás Navarrete, Thomas Gibon, Thomas Schaubroeck, Laurent Chion, Tianran Ding, Massimo Pizzol, Ligia Tiruta-Barna, Kíra Lancz, Eduardo Entrena, Ricardo Méndez, Tomas Vilhelm Rydberg, Josefin Neuwi
Carbon Capture Using White Liquor in a Kraft Pulping Plant Simulation and Evaluation of a Scrubber
· 2023
JULIA CRAMSTEDT
LCA of producing dissolving pulp from agricultural residue
· 2023
Parayil, Manuel Mammen
Lignin Extraction from Black Liquor in a Softwood Pulping Plant, A Process Simulation and Evaluation of how much Lignin can be Extracted and its Impacts on the Plant
· 2023
Nilsson, Wilma
Soda Based Production of Dissolving Pulp from Wheat Straw
· 2023
LINNEA NILSSON
Fostering Sustainability Policies Through Learning
Amaral, Milena (Researcher) Stangherlin, Isadora Goulart Martins, Fernanda
Fostering Sustainability Policies Through Learning-Based Transformation: A Case Study Framework.
Milena Amaral
Rethinking Bio-Industrial Practices- A Theory of Change Toward Post-Growth Symbiosis
Mortensen, Lars1 Schrijvers, Dieuwertje2 Coelho, Tamara3 Cederstrand, Pernilla4 Entrena, Eduardo,afarianbana, Sahar2
Deliverables (10)
Data Management Plan
Data Management Plan
Documents, reports
Websites, patent fillings, videos etc.
Other Results (1)
Periodic Reporting for period 1 - CALIMERO (Industry CAse studies anaLysis to IMprove EnviROnmental performance and sustainability of bio-based industrial processes)