The 11th International Conference on
Life Cycle Management
September 6-7-8, 2023 – Lille, France
Conference Agenda
Overview and details of the sessions of this conference. Please select a date or location to show only sessions at that day or location. Please select a single session for detailed view (with abstracts and downloads if available).
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Session Overview |
Date: Wednesday, 06/Sept/2023 | |||||
8:00am - 10:00am |
Welcome coffee Location: Hall Lille |
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10:00am - 12:00pm |
Opening ceremony and plenary session: LCM in the decision making process Location: Grand Théâtre |
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12:30pm - 2:00pm |
Lunch Break and Poster thematic session Location: Hall Lille |
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2:00pm - 3:30pm |
Towards meaningful sustainability assessment in circular economy : success & failures Location: Théâtre Pasteur Chair: Monia Niero, Sant’Anna School of Advanced Studies Pisa, Italy Chair: Jan Bollen, ArcelorMittal, Belgium Enhancing circularity and resilience of the European industrial value chains through EU product & waste policy measures: insights from Lithium-ion battery, automotive and electronics sectors European Commission - Joint Research Centre, Sustainable Resources Directorate, Ispra, Italy Life Cycle Circularity Indicator: an extensive version of the Material Circularity Indicator Capgemini Engineering, direction Recherche & Innovation France - 4 avenue Didier Daurat Blagnac 31700, France Comparison of LCA and circularity indicators: what method to use for what? Chalmers University of Technology, Sweden The applicability of the Organisation Environmental Footprint method as cornerstone for a retailer’s environmental sustainability strategy: insights by early adopter Colruyt Group 1: Colruyt Group, Belgium; 2: WeLOOP, France Carbon accounting in a circular chemical industry – Challenges in accounting frameworks Henkel AG & Co.KGaA, Germany |
Life cycle management for e-mobility services Location: Théâtre Marie Curie Chair: Caroline Mir, Renault SAS, France Chair: Juan Felipe Cerdas Marin, Fraunhofer IST, Germany Exploring the environmental impacts of EV battery supply chains using LCA Minviro Eco-design and Circular Economy Practices applied to Li-ion Electric Vehicle Batteries IREC, Spain Circularity performance of reusing, repurposing and recycling solutions for the end-of-life management of electric vehicle batteries 1: Mondragon Unibertsitatea, Faculty of Engineering, Mechanics and Industrial Production, Loramendi 4, Mondragon 20500, Gipuzkoa, Spain; 2: Ikerbasque, Basque Foundation for Science, Plaza Euskadi 5, Bilbao 48009 Bizkaia, Spain Investigating the Influence of Design Parameters on Environmental Impacts of Batteries for e-mobility through the Integration of Ageing Models in Life Cycle Assessment 1: Univ. Grenoble Alpes, CEA-Liten, 17 rue des Martyrs, F-38054 Grenoble, France; 2: Univ. Grenoble Alpes, CNRS, Grenoble INP, G-SCOP, 46 Avenue Félix Viallet, 38000 Grenoble, France How to handle constantly changing life-cycle-based carbon calculation methodologies in automotive decarbonisation? Volkswagen, Germany What do we need for a harmonized LCA approach for E-mobility? Institute of environmental sciences (CML), Leiden University, Einsteinweg 2, 2333CC Leiden, The Netherlands |
Collaboration along the value chain in retail through LCM Location: Salle 3.1 Chair: Steven Van Hemelryck, Colruyt Group, Belgium Chair: Koen Boone, WUR, Netherlands, The Dialogue for food waste prevention in the Norwegian value chain NORSUS Norwegian Institute for Sustainability Research, Norway A Value Chain Approach to Commodity Risk Assessment in the Retail Sector – the Case of Loblaw Companies Limited (LCL) 1: Groupe AGÉCO, Canada; 2: Loblaw Companies Limited, Canada Development of a harmonized LCA methodology for ecolabelling based on supply chain data 1: Blonk Sustainability; 2: DIL German Institute of Food Technologies; 3: Foundation Earth Navigating the coming paradigm shift in food ecolabelling – considerations from the science basis 1: Centre for Environment and Sustainability, University of Surrey, United Kingdom; 2: Safety and Environmental Assurance Centre, Unilever R&D, United Kingdom Key elements to harmonized environmental footprinting and ecolabeling of food products Wageningen Economic Research, Netherlands, The Environment labelling consequences for the single-use plastics in retail products 1: WeLOOP, 254 Rue du Bourg, 59130 Lambersart, France; 2: Karbon, 165 Avenue de Bretagne, 59000 Lille, France |
Methodological advancements in social LCM Location: Salle 3.2 Chair: Rose Nangah Mankaa, Institute of Sustainability in Civil Engineering (INaB) RWTH Aachen University, Germany Chair: Davide Bonaffini, Hitachi Rail, Italy Ways Forward to Collect Primary Data in Social LCA 1: RWTH Aachen University, Germany; 2: Universidade Federal Tecnológica do Paraná; 3: Universidade de Brasília Blockchain Architecture as a support for Social Life Cycle Inventory Analysis "G.d'Annunzio" University of Pescara, Department of Economic Studies, Italy How can the application of the theory of change contribute to developing cause and effect chains in social LCA: the case of cocoa farmers in Côte d'Ivoire 1: Colruyt Group, Belgium; 2: WeLOOP, France The ethical implications of scaling social impacts in low Technology Readiness Level assessments: A case study for nano-enabled products 1: Business and Economics conomics Faculty, University of Burgos, Spain; 2: ICCRAM, University of Burgos, Spain Illustrating the role of alternative supply chains and evolved conditions in social life cycle assessment of energy-related products 1: Rey Juan Carlos University, Chemical and Environmental Engineering Group, 28933, Móstoles, Spain; 2: IMDEA Energy, Systems Analysis Unit, 28935, Móstoles, Spain Direct quantification of indicators in PSILCA – An example of Social Life Cycle Assessment of fuel cell electric vehicle production Forschungszentrum Jülich GmbH, Institute of Energy and Climate Research, Systems Analysis and Technology Evaluation (IEK-STE), Germany |
Prospective LCM of emerging technologies & next-generation materials Location: Salle 2.3 & 2.4 Chair: Nils Thonemann, CML, Leiden University, Netherlands, The Chair: Mateo Saavedra del Oso, Stora Enso Oyj, Finland A practitioner’s guide for prospective assessments across the TRLs: A case study on all-solid-state batteries 1: Fraunhofer Institute for Surface Engineering and Thin Films IST, Braunschweig, Germany; 2: Institute of Machine Tools and Production Technology, Braunschweig, Germany Recent developments in generating and working with future scenarios in LCA 1: Leiden University, Netherlands, The; 2: Paul Scherrer Institute; 3: LCA 2.0 Consultants Substitution in prospective life cycle assessment of resource recovery from waste incineration slag University of Duisburg-Essen, Germany Airborne Wind Energy – A starlight example of the “reduce” aspect in the energy sector Laboratory for Energy Systems Analysis, Paul Scherrer Institute, Switzerland Estimating future environmental impacts for electric vehicle battery raw materials 1: Institute of Environmental Sciences (CML), Leiden University, The Netherlands; 2: BRGM - French Geological Survey, France Advances in prospective LCA of WEEE recycling by thermo-chemical pyrolysis (iCycle®) 1: Fraunhofer Institute for Environmental, Safety, and Energy Technology UMSICHT, Germany; 2: Ruhr-Universität Bochum ; Universitätsstraße 150, 44801 Bochum, Germany |
3:30pm - 4:30pm |
Coffee break and Poster thematic session Location: Hall Lille |
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4:30pm - 6:00pm |
Sustainability & circularity in business models & business ecosystems Location: Théâtre Pasteur Chair: Hanna Maria Nilsson-Lindén, RISE Research Institutes of Sweden, Sweden Chair: Piet Vitse, Owens Corning, Belgium Circularity at different systems level – the CapSEM Model NTNU, Norway The need for coordinating adoption of circular business models – a challenge for rapid growth of the circular economy NTNU - The Norwegian University of Science and Technology, Norway A conceptual methodology to screen and adopt circular business models in small and medium scale enterprises (SMEs): A case study on child safety seats as a product service system Fraunhofer UMSICHT, Germany Can circular economy business models reduce life cycle environmental impacts of the clothing sector? 1: WRAP, United Kingdom; 2: University of Surrey, United Kingdom Life cycle assessment as a tool to ensure circular economy drives environmental benefits : A railway signaling study case ALSTOM, France |
Innovation in the metallurgical sector for a better sustainable management Location: Théâtre Marie Curie Chair: Denis Chevé, Befesa Stainless Recycling, France Chair: Gert Van Hoof, Umicore, Belgium Development of simulation-based life cycle inventory for battery-grade lithium carbonate produced from different sources Institute of Molecular Sciences, University of Bordeaux, Centre National de la Recherche Scientifique, Bordeaux INP, ISM, UMR 5255, 33400 Talence, France Technical, economic and environmental characterisation of industrial trends for the decarbonisation of the foundry and steelmaking industries: opportunities and limitations from a life cycle thinking perspective 1: Mondragon Unibertsitatea, Spain; 2: IKERBASQUE, Basque Foundation for Science, Spain Comparative analysis on four allocation approaches for steel products and its implication for a PEFCR development for intermediary steel products 1: VITO, Belgium; 2: EnergyVille, Belgium German ‘Green steel’ initiative 1: WV Stahl; 2: FutureCamp Climate Ltd; 3: ArcelorMittal Carbon footprint and energy transformation analysis of steel produced via a Direct reduction plant with an integrated electric melting unit thyssenkrupp Steel Europe AG, Germany The zero emission steel mill of the future ArcelorMittal |
Use of LCM in sustainable regional development - expérience & research perspectives Location: Salle 3.1 Chair: Eleonore Loiseau, INRAE, France Chair: Pekka Maijala, Pyhäjärvi institute, Finland Territorial Life Cycle Assessment of the battery sector in the North of France Region WeLOOP, France BioCircularCities: Guidelines for the identification of sustainable and circular solutions for the management of biowaste in urban areas. 1: Luxembourg Institute of Science and Technology - LIST, Luxembourg; 2: Fundació ENT, Barcelone, Spain; 3: ENEA, Department for Sustainability, Division Resource Efficiency, Research Centre of Portici (NA), Italy Environmentally-Extended Input-Output analyses efficiently sketch regional environmental transition plans: illustration by Canada’s road industry Polytechnique Montreal, Canada INTEGRATED SUSTAINABILITY EVALUATION OF CURRENT AND PROSPECTIVE SCENARIOS OF SOLID WASTE MANAGEMENT SYSTEMS IN FLOODED ISLANDS: A CASE STUDY IN BATASAN ISLAND, TUBIGON, BOHOL, PHILIPPINES University of the Philippines Diliman, Philippines Assessing the circular bioeconomy potential at the regional level – A stepwise approach and its application to a metropolitan area in Germany Chair of Material Flow Management and Resource Economy, Institute IWAR, Technical University of Darmstadt, Germany Use of, and challenges for, LCM in regional development 1: Kaunas Technical University, Lithuania; 2: pyhäjärvi-instituutti, Finland; 3: sustainable solutions, France |
Social Life Cycle Assessment in practice: Implementation and Value Derived Location: Salle 3.2 Chair: Sara Russo Garrido, CIRAIG, Canada Chair: Ladji Tikana, International Copper Association, United States of America Social LCA as a preparation step towards future requirements PRé Sustainability, Netherlands, The Implementation of Social Value Assessment: The perspective from Corbion Corbion, Sustainability Department, Netherlands Applied Qualitative Methods for Social Life-cycle Assessment: A Case Study of Canadian Beef 1: Canfax Research Services, Canada; 2: Groupe AGÉCO, Canada Type II S-LCA to rethink CSR actions: case study of an agricultural company 1: Vitropic S.A., 34210 Saint-Mathieu-de-Tréviers, France; 2: UPR GECO, University of Montpellier, CIRAD, 34398 Montpellier, France; 3: ITAP, INRAE, Institut Agro, University of Montpellier, 34060 Montpellier, France The application of S-LCA to address lithium mining and its potential impacts on water and the local community in Chile Technische Universität Berlin, Germany Multi-scope social life cycle impact assessment: application to offshore wind energy sector in France 1: Mines Paris, France; 2: France Energies Marines; 3: CentraleSupélec, France |
Life cycle management in healthcare sector Location: Salle 2.3 & 2.4 Chair: Wouter De Soete, Johnson & Johnson, Belgium Chair: Scott McAlister, The University of Melbourne, Australia Comparative Life Cycle Assessment of reusable and single-use specula used in Belgian hospitals 1: Sustainable Systems Engineering (STEN), Department of Green Chemistry and Technology, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, 9000 Ghent, Belgium; 2: Ghent University Hospital, 9000 Ghent, Belgium An LCA comparing healthcare facility-based haemodialysis with home haemo- and peritoneal dialysis in Australia 1: The University of Melbourne, Australia; 2: The University of Sydney, Australia; 3: The Royal Melbourne Hospital, Australia Life Cycle Assessment of phase I and phase III clinical trials 1: ERM, Belgium; 2: Janssen Clinical Innovation (JCI); 3: ERM, United Kingdom; 4: Aumônier Consulting Limited The Application of LCA in Healthcare Using the Care Pathway Approach 1: ERM; 2: AstraZeneca Calculation of Scope 3 GHG emissions of purchased goods and services applying a hybrid approach based on life cycle thinking 1: ERM; 2: Becton Dickinson; 3: Aumônier Consulting A Collaborative Approach towards Product Category Rules for Pharmaceuticals 1: Roche Diagnostics International AG; 2: Sanofi Winthrop Industrie; 3: Janssen Pharmaceutica NV; 4: Novo Nordisk; 5: Takeda Pharmaceutical Company Limited; 6: Pfizer; 7: GSK plc; 8: AstraZeneca UK Limited |
6:00pm - 8:00pm |
Side events Location: Lille Grand Palais |
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8:00pm - 11:00pm |
Dinner Location: Hall Londres |
Date: Thursday, 07/Sept/2023 | |||||
8:00am - 9:00am |
Side events Location: Lille Grand Palais |
Welcome coffee Location: Hall Lille |
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9:00am - 10:00am |
Plenary session: Carbon Neutrality Location: Théâtre Pasteur |
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10:00am - 11:00am |
Coffee break and Poster thematic session Location: Hall Lille |
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11:00am - 12:30pm |
Approaching life cycle sustainability as the actual driver of energy Location: Théâtre Pasteur Chair: Diego Iribarren, IMDEA Energy, Spain Life cycle assessment of hydrogen produced by methane pyrolysis ENGIE, France Environmental Performance of Anion Exchange Membrane Water Electrolysis Technical University of Munich, Germany Could hydrogen help achieve net zero emissions? CNRS UMR5255 ISM, Université de Bordeaux, Bordeaux INP, 351 cours de la Libération, Talence Cedex, France ASSISTANCE project: Analysis of social impacts for a sustainable energy transition in Spain and responsible decision-making Rey Juan Carlos University, Chemical and Environmental Engineering Group, 28933, Móstoles, Spain Sustainable offshore wind energy in the Belgian Continental Shelf? Monetized (socio-)environmental footprint and handprint of electricity production. 1: Ghent University, Green Chemistry and Technology, Coupure Links 653, 9000 Ghent, Belgium; 2: European Institute for Energy Research (EIFER) EDF-KIT EEIG, Emmy-Noether-Str. 11, 76131, Karlsruhe, Germany; 3: University of Antwerp, ECOSPHERE Research Group, Universiteitsplein 1, 2610 Wilrijk, Belgium; 4: European Commission, Brussels, Belgium |
Towards carbon neutrality with LCM (1) Location: Théâtre Marie Curie Chair: Anne Cécile de Bortoli, Polytechnique Montreal, Canada Chair: Jennifer Bravinder, Michelin, France Understanding interrelations in corporate GHG reporting schemes: An analysis of methodologies and data sources TU Darmstadt, Germany Leveraging LCA Automation to achieve carbon neutrality Sphera, United States of America Ambitions and challenges for carbon reduction: Insights from a global industry survey 1: Christian Doppler Laboratory for Sustainable Product Management, Institute of Environmental Systems Sciences, University of Graz, Austria; 2: iPoint-Systems GmbH, Reutlingen, Germany Using the analytical framework developed for the European Commission to assess the contribution of sectoral circular economy measures to carbon neutrality VITO, Belgium Carbon capture, use and storage: challenges for their implementation in LCA 1: WeLOOP, France; 2: Université de Bordeaux, France Human and planetary health implications of negative emissions technologies 1: ETH Zurich, Switzerland; 2: University of Jaén, Spain; 3: Radboud University, the Netherlands |
Use of EPD in different legislations & policies Location: Salle 3.1 Chair: Dieter De Lathauwer, Federal Public Service of Health and Environment, Belgium Chair: Jacques CHEVALIER, Association HQE, France Integration of EPDs in building LCA tools – Challenges and opportunities in the Belgian context 1: VITO, Belgium; 2: EnergyVille, Belgium; 3: KU Leuven, Belgium; 4: OVAM, Belgium; 5: Brussels Environment, Belgium; 6: SPW, Belgium Investigating harmonization challenges in the EPD system - A Focus on EPDs Used in the Danish Building Sector 1: Aalborg University, Denmark; 2: COWI; 3: Transition The transition from EN 15804 A1 to EN 15804 A2: the consequences and impacts on the buildings WeLOOP, 254 Rue du Bourg, 59130 Lambersart, France Product Category rules, an efficient way to produce Product Environmental Profiles for industries. 1: Schneider Electric, PEP ecopassport Technical committee member, France; 2: PEP ecopassport general delegate, France; 3: Groupe Atlantic, PEP ecopassport Technical commitee President, France Industry Perspectives on the use of Environmental Product Declarations to inform building design University of Bath, United Kingdom |
Increased life cycle actions in small & medium sized companies Location: Salle 3.2 Chair: Christian TRAISNEL, HEXA STRATEGIE, France Chair: Hélène Teulon, Gingko 21, France Karbon tool: an easy solution for SMEs to implement environmental labelling in France 1: WeLOOP, 254 Rue du Bourg, 59130 Lambersart, WeLOOP; 2: Karbon, 165 avenue de Bretagne, 59000 Lille Joint research projects as a kick-starter for life cycle actions in SMEs 1: Fraunhofer Institute for Building Physics IBP; 2: Fraunhofer Institute for Manufacturing Engineering and Automation IPA; 3: University of Stuttgart Declaring environmental performance with reuse and recycling business – approaches for small and medium sized enterprises 1: Department of Engineering, Østfold University College, P.O. Box 700, 1757 Halden, Norway; 2: Departamento de Ingeniería Mecánica, Materiales y Fabricación, Universidad Politécnica de Cartagena, Cartagena, Spain; 3: Norwegian Institute of Wood Technology, P.O Box 113 Blindern, 0314 Oslo, Norway Life Cycle Sustainability Management (LCSM) in SMEs – Learnings from electronics in the developing economies WRFA, Switzerland Supporting Eco-Socio-Design for SME 1: EVEA; 2: REBOND A digital common to leverage eco-design and eco-labelling for SMEs 1: Ecobalyse (French Ministry of Ecological Transition), France; 2: ADEME |
Setting environmental sustainability targets in LCM Location: Salle 2.3 & 2.4 Chair: Julie Clavreul, ENGIE, France Chair: Morten Ryberg, Sweco Danmark, Denmark How to bring a macro level sustainability goal to micro level targets? 1: Ghent University, Belgium; 2: Antwerp University, Belgium Evaluating urban mitigation strategies against absolute sustainability targets: Focus on building stocks 1: DTU, Denmark; 2: SDU, Denmark; 3: Ramboll, Denmark; 4: Sweco, Denmark Absolute Environmental Sustainability Assessment of aviation transition scenarios 1: ISAE-SUPAERO, France; 2: Toulouse Biotechnology Institute, France; 3: ENAC, France Will the future European electricity mix exceed the planetary boundaries? 1: Technical University of Denmark, Denmark; 2: ENGIE Lab CRIGEN, France; 3: Sweco Danmark, Denmark Consumption footprint to support future scenarios assessment against policy targets and planetary boundaries 1: European Commission - Joint Research Centre, Italy; 2: Uni Systems, Luxembourg Bridging the Gap Between Biodiversity Footprint Metrics and Biodiversity State Indicator Metrics 1: PRé, Netherlands, The; 2: Queen Mary University London |
Innovative approach to rethinking sustainability the UN SDGs & the circular economy Location: Salle 3.2 bis Chair: Deborah Andrews, London South Bank University, United Kingdom Chair: Elizabeth Newton, London South Bank University, United Kingdom Conceptual framework for a life-cycle based methodology for corporate SDG assessment Section for Quantitative Sustainability Assessment, Department of Environmental and Resource Engineering, Technical University of Denmark (DTU), Kgs. Lyngby, Denmark Linking LCA information to the UN SDGs – a use case PRé Sustainability, Netherlands, The The Preliminary Study of Social Impact Consideration with Emphasis on Water Infrastructure Program to Overcome Clean Water Scarcity among Local Communities in East Kalimantan 1: Environmental Professional & Sustainability Practitioner; 2: PT Indominco Mandiri, Indonesia Investigating Sector-Relevant SDGs and Opportunities for Increasing Sustainability Maturity of the Data Centre Industry According to the Triple Bottom Line London South Bank University, United Kingdom |
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12:30pm - 2:00pm |
Lunch Break and Poster thematic session Location: Hall Lille |
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2:00pm - 3:30pm |
Assessing sustainability of flexible energy systems transition Location: Théâtre Pasteur Chair: Anne Prieur-Vernat, ENGIE, France Chair: Jan Mertens, Ugent, Belgium Decarbonizing maritime shipping: Life cycle sustainability assessment of a multi-fuel capable propulsion system based on Solid Oxide Fuel Cell technology for maritime shipping ZHAW, Switzerland Environmental consequences of vehicle-to-grid for a future energy system: A case study on the Danish Island Bornholm. MOBI Research Group, ETEC Department, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium Variation in the GHG emissions from electrolytic hydrogen production in a flexible energy system within the EU legislation framework 1: Joint Research Center, Italy; 2: Joint Research Center, Netherlands Using LCA to demonstrate the environmental relevance of energy management systems 1: ENGIE Lab CRIGEN, France; 2: ENGIE Laborelec, Belgium |
Towards carbon neutrality with LCM (2) Location: Théâtre Marie Curie Chair: Matthias Finkbeiner, TU Berlin, Germany Chair: Ketan Prasad Vaidya, Northvolt AB, Sweden Assessing the product carbon footprint of captured CO2: A discussion on allocation and its consequences Henkel AG & Co. KGaA, Germany Challenges of renewable electricity accounting in life cycle assessment Technische Universität Berlin, Germany Feasibility and Overcoming Challenges of Integrating Life Cycle Assessment into Carbon Neutrality Scenarios: A French Case Study 1: Laboratoire de Génie Chimique, Université de Toulouse, CNRS, INPT, UPS, Toulouse, France; 2: EDF R&D, Département TREE, Groupe E3M, EDF Lab Les Renardières, Moret-Loing-et-Orvanne, France The new TfS guideline for Product Carbon Footprints (PCFs) 1: BASF SE; 2: Sika Technology AG; 3: Bayer AG; 4: Corteva; 5: Covestro Deutschland AG; 6: Dow; 7: Eastman; 8: Evonik Operations GmbH; 9: Henkel AG & Co. KGaA; 10: Solvay; 11: Syngenta; 12: Wacker Chemie AG; 13: sustainable AG Unternehmensberatung The Journey to Carbon Neutrality for Poultry Industry: A science-based approach 1: Life Cycle Indonesia, Indonesia; 2: Japfa Ltd New Zealand: Moving towards carbon neutral in transport The University of Auckland, New Zealand |
Innovation for sustainable construction in buildings & cities Location: Salle 3.1 Chair: Adelaide Feraille, Ecole des PontsParisTech, France Chair: Maxime Trocme, VINCI, France Life cycle assessment-based industrialized building retrofitting GreenDelta, Germany Plant-based Insulation as Carbon Sink? Life Cycle Assessment of Biochar-Based Building Insulation Materials Zurich University of Applied Sciences, Switzerland Comparative LCA of single houses rehabilitation : contribution to the Perf In Mind project 1: RECto, France; 2: VERSo, France Resource efficiency of urban districts – A toolbox for planning of ur-ban material flow management systems Institute IWAR, Material Flow Management and Resource Economy, Technical University of Darmstadt, Germany Digital solution for intelligent material sourcing and road infrastructure LCA - a case study in Germany ORIS |
Life cycle sustainability in Textiles Location: Salle 3.2 Chair: Anne Perwuelz, ensait, France Chair: Caroline Bottin, BUNSHA (BRAND KIABI), France Environmental assessment of the European apparel market – domestic production, imports and resale 1: 2.-0 LCA consultants, France; 2: Univ. Lille, ENSAIT, ULR 2461 - GEMTEX - Génie et Matériaux Textiles, F-59000 Lille, France Repairability of textiles and clothing Consumption Research Norway (SIFO), Norway Life Cycle Sustainability Assessment of Textile Recycling Efficiencies in Future Waste Market Scenarios 1: Technical University of Denmark, Denmark; 2: Ghent University, Belgium Life cycle assessment of a novel fibre-to-fibre solution RISE Research Institutes of Sweden, Sweden Integrating Traceability in Apparel and Footwear Green Claims at the Product Level 1: EVEA, France; 2: FHCM, France Eco-design of a multifunctional worsted wool men's suit jacket using comparative LCA 1: Univ. Lille, ENSAIT, ULR 2461 - GEMTEX - Génie et Matériaux Textiles, F-59000 Lille, France; 2: Univ. Lille, Centrale Lille, CS20048, F-59651 Villeneuve d’Ascq Cedex, France; 3: INDUO, 16 Rue des champs, 59650 Villeneuve d’Ascq, France; 4: Univ. Monastir, École nationale d'ingénieurs de Monastir, Monastir 5035, Tunisie |
Digitization of product environmental information Location: Salle 2.3 & 2.4 Chair: William Lepercq, Schneider Electric, France Chair: Enrico Benetto, Luxembourg Institute of Science and Technology, Luxembourg A new approach to automate LCA impacts results at commercial reference level Schneider Electric, France Lessons learned applying topic modelling to improve data processing efficiency when building automatic life-cycle inventories for LCM 1: Luxembourg Institute of Science and Technology, Luxembourg; 2: PRé Sustainability Automating PCF calculations in a multi-sectorial chemical industry - Solvay example SOLVAY, France How to get to a trustful LCA result in complex supply chains using digital tools? – Key challenges and requirements TÜV SÜD Product Service GmbH, Germany Streamlining Life Cycle Management with AI and Machine Learning Makersite, Germany Analysis of Primary Data Share as a rising indicator for supply chain specificity 1: Siemens AG, ID FA MF Product Carbon Footprint, Siemensdamm 50, 13629 Berlin, Germany; 2: Technische Universität Berlin, Institute of Environmental Technology, Chair of Sustainable Engineering, Strasse des 17. Juni 135, 10623 Berlin, Germany |
3:30pm - 4:30pm |
Coffee break and Poster thematic session Location: Hall Lille |
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4:30pm - 6:00pm |
Challenges & Methods for quantifying the benefits of recycling in LCM Location: Théâtre Pasteur Chair: Steven De Meester, Ghent University, Belgium Chair: Milad Golkaram, Milad Golkaram, Scientist, TNO, Netherlands, The Assessing the net benefits and loads occurring outside of the boundaries (module D) for an electrical equipment 1: Schneider Electric, PEP ecopassport steering committee member, France; 2: Schneider Electric, PEP ecopassport Technical committee member, France; 3: Eaton Industries France SAS, PEP ecopassport Technical Committee member, France; 4: Legrand, PEP ecopassport Technical Committee member, France; 5: Groupe Atlantic, PEP ecopassport Technical commitee President, France; 6: PEP ecopassport general delegate, France; 7: Hager Group, PEP ecopassport Technical Committee member, France; 8: Bureau Veritas, PEP ecopassport Technical Committee member, France A new process cost-based allocation method is needed for integrated smelter-refineries Umicore, Belgium Disassembly: The Key to Unlocking an enhanced Circular Future 1: Robert Bosch GmbH, Corporate Research; 2: Robert Bosch (SEA) Pte Ltd, Corporate Research Recovery of thermoplastics and flame retardants from mixed WEEE and EoL vehicles, an LCA evaluation 1: Materia Nova, Belgium; 2: COMET Traitement SA, Belgium Life Cycle Sustainability Assessment of a novel recycling process for concrete waste 1: Fraunhofer IBP, Dep. Life Cycle Engineering, Germany; 2: Fraunhofer IBP, Dep. Inorganic Materials and Recycling, Germany; 3: Leiblein GmbH, Germany |
Advances in LCM through AI, data science & machine learning Location: Théâtre Marie Curie Chair: Raoul Meys, Carbon Minds, Germany Chair: Artur Schweidtmann, Delft University of Technology, Netherlands, The Expanding the Reach of Life Cycle Assessment with Artificial Intelligence Life Cycle Indonesia, Indonesia Stoichiometry-based prediction of life cycle inventories: Benchmarking & best practices 1: Energy and Process Systems Engineering, ETH Zurich, Switzerland; 2: Institute for Energy and Climate Research - Energy Systems Engineering (IEK-10), Forschungszentrum Jülich GmbH, Germany Environmental impact prediction of chemical processes using graph neural networks 1: Process Intelligence Research, Department of Chemical Engineering, Delft University of Technology, Van der Maasweg 9, Delft 2629 HZ, The Netherlands; 2: Pattern Recognition and Bioinformatics, Department of Intelligent Systems, Delft University of Technology, Van Mourik Broekmanweg 6, 2628 XE Delft, The Netherlands; 3: CarbonMinds GmbH, Eupener Str. 165, 50933 Cologne, Germany A Novel Framework using Artificial Neural Networks to Predict Environmental Impacts of Construction Products 1: Institute of Molecular Sciences, University of Bordeaux, Centre National de la Recherche Scientifique, Bordeaux INP, ISM, UMR 5255, 33400 Talence, France; 2: Institute IWAR Material Flow Management and Resource Economy, Technical University Darmstadt, Germany; 3: Data and AI Systems, Department of Computer Science, Technical University Darmstadt, Germany; 4: WeLOOP, 254 Rue de Bourg, 59130 Lambersart, France Exploring the Potential of Word Vectorization for Automatic Prediction of Greenhouse Gas Emission Factor: Supervised Learning in Inventory Database for Environmental Analysis (IDEA) using word2vec The University of Tokyo, Japan |
Life cycle management in the bio-economy Location: Salle 3.1 Chair: Tomas Rydberg, IVL Swedish Environmental Research Institute, Sweden Chair: Alberto Bezama, Helmholtz Centre for Environmental Research - UFZ, Germany Between Climate Resilience and Sustainability: An LCA-based Stochastic Linear Programming Approach for Second-Generation Bioethanol Production in the EU Resource Lab, University of Augsburg Challenges in carrying out comparative LCA of biobased products with their fossil based counterparts Wageningen University & Research, Netherlands, The Integrated LCA of decarbonisation scenarios for an industrial bioeconomy network 1: Helmholtz Centre for Environmental Research - UFZ, Germany; 2: ZIRKON - Zittauer Institut für Verfahrensentwicklung, Kreislaufwirtschaft, Oberflächentechnik, Naturstoffforschung. Hochschule Zittau/Görlitz Dynamic Carbon Accounting on bio-based feedstocks for bio-plastics production SABIC, India |
Developing the future life cycle network Location: Salle 3.2 Chair: Anna Charlotte Wikström, Chalmers University of Technology, Sweden Chair: Debbie Steckel, ACLCA, United States of America Learnings, success stories and views from Swedish Life Cycle Center Swedish Life Cycle Center/Chalmers University of Technology, Sweden FSLCI - A community approach to accelerate Life Cycle Innovation globally Forum for Sustainability through Life Cycle Innovation e.V., Germany Becoming mainstream after three decades; what are the consequences? PRé, Netherlands, The Life cycle management in industry – supporting business with life cycle-based assessments along value chains 1: DSM Nutritional Products Ltd.; 2: BASF SE; 3: Henkel AG & Co. KGaA,; 4: Siemens AG; 5: Syngenta AG; 6: Corbion; 7: Volkswagen AG; 8: ArcelorMittal Europe ESTAINIUM Association – developing mutual solutions to drive industrial decarbonization 1: Siemens AG (SiGREEN); 2: TÜV SÜD Product Service GmbH; 3: Weidmüller GmbH & Co KG; 4: BISON FOREST GmbH; 5: Ferdinand Steinbeis Institut; 6: Friedrich-Alexander-Universität Erlangen-Nürnberg |
Environmental impacts & benefits of digital services Location: Salle 2.3 & 2.4 Chair: Margaux Escande, IT's on us, France Chair: AGNES COMTE, BANQUE DE FRANCE, France Looking up into the sky – dependency of digital services on outer space and related environmental impacts 1: Laboratory for Energy Systems Analysis, Paul Scherrer Institute, Switzerland; 2: EPFL Space Center (eSpace), Switzerland Assessing the environmental impacts of digital tools in agriculture and food supply chain: a state-of-the-art 1: ITAP, Univ Montpellier, INRAE, Institut Agro, Montpellier, France; 2: Elsa, Research Group for Environmental Lifecycle & Sustainability Assessment, Montpellier, France LCA of a showcase website, a typical digital service use case 1: ENS de Lyon; 2: Inria; 3: OCTO Technology CEDaCI – an overview of outputs, achievements, and inspiring change in the data centre industry 1: London South Bank University, United Kingdom; 2: WeLOOP, Lambersart, France; 3: Operational Intelligence, London, United Kingdom; 4: Techbuyer, Harrogate, UK; 5: Wuppertal Institute for Climate, Environment, Energy, Wuppertal, Germany |
6:00pm - 8:00pm |
Side events Location: Lille Grand Palais |
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8:00pm - 11:00pm |
Dinner Location: Palais de la Bourse |
Date: Friday, 08/Sept/2023 | |||||
8:00am - 9:00am |
Welcome coffee Location: Hall Lille |
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9:00am - 10:30am |
Product design for sustainable LCM (1) Location: Théâtre Pasteur Chair: Nicolas PERRY, Arts et Métiers, France Next Level Lightweight Production (NeLiPro) University of Applied Sciences Bonn-Rhein-Sieg; International Center for Sustainable Development (IZNE) The future generation of lightweight materials? A Life Cycle Assessment for innovative lightweight structures 1: Institute of Sustainability in Civil Engineering (INaB), RWTH Aachen University; 2: Porsche AG; 3: Institut für Leichtbau und Kunststofftechnik (ILK), TU Dresden Assessing the Sustainability of Steel Products in the Context of Emerging Frameworks and Targets Tata Steel UK Limited A methodological approach for implementing screening LCA into the early phases of product development 1: TU Dresden, Germany; 2: iPoint-systems gmbh, Germany; 3: Siemens AG, Germany Ecodesign approach for complex systems - How to design attractive and sustainable vehicles 1: Université de toulon, France; 2: Nantes Université, École Centrale Nantes, CNRS, LS2N, UMR 6004, F-44000 Nantes Going completely new ways for sustainability: Methods to develop and implement radical sustainable innovations in companies Pforzheim University, Germany |
Transitioning towards sustainable value chains for chemicals & materials (1) Location: Théâtre Marie Curie Chair: Guido Sonnemann, Université de Bordeaux, France Chair: Ananda Kumaran Sekar, SABIC, India Market based chain of custody models in LCAs & implications for the chemical industry Henkel AG & Co. KGaA, Germany Comparative life cycle sustainability assessment of chemical and enzymatic production: the case of isopropyl palmitate Ghent University, Belgium The importance of hazardous substance tracking during the life cycle of circular products. Ecomatters, Netherlands, The A case study on the implementation of LCA in the Safe and Sustainable by Design. Challenges and way forward 1: Joint Research Center, Italy; 2: Politecnico di Torino Decarbonization of the chemical industry by Circular Economy concepts BASF, Germany Green chemistry vs. life cycle impact metrics: Does green necessarily mean sustainable? Dept. of Chemistry and Applied Biosciences, ETH Zürich, Switzerland |
Informing & stimulating green lifestyle choices Location: Salle 3.1 Chair: Michiel De Bauw, Sciensano, Belgium A detailed analysis of the carbon footprint linked to consumption in Canada and its provinces. CIRAIG, Canada The role of consumers´ practices in Life Cycle Management: combining Life Cycle Assessment with Practice Theory 1: Sant´Anna School of Advanced Studies Pisa (Italy); 2: Aalborg University, Department of Planning, Copenhagen (Denmark) Climate duel - The climate wins: A gamification approach to Education for Sustainable Development (ESD) at university level ZHAW IUNR Wädenswil, Switzerland Digital Receipt Based Monitoring of Carbon and Biodiversity Footprints of Individual Food Baskets 1: Zurich University of applied sciences, Switzerland; 2: Department of Management, Technology and Economics, ETH Zürich Informing and individual behavioural change in perspective KU Leuven, Belgium |
New methodological developments for LCM Location: Salle 3.2 Chair: Jo Dewulf, Ghent University, Belgium Chair: Shaniq Ursula Pillay, PRé Sustainability, Netherlands, The Marine biodiversity impacts of offshore wind farms decommissioning 1: Vattenfall A/S, Jupitervej 6, 6000 Kolding, Denmark; 2: Section for Quantitative Sustainability Assessment, Department of Environmental and Resource Engineering, Technical University of Denmark, Produktionstorvet, Building 424, 2800 Kgs. Lyngby, Denmark Integration of the new biodiversity indicator (BioMAPS) into Sphera’s Managed LCA Content Sphera Solutions GmbH, Germany Life Cycle Management of systems with heterogeneous life cycles of system elements Chemnitz University of Technology, Germany Development of Life Cycle Inventory Analysis Methodology of Structural Materials Considering Properties University of Tokyo, Japan Contribution of products and technologies to the achievement of the sustainable development goals – A quantitative calculation approach 1: Technische Universität Braunschweig, Germany; 2: Hamburg University of Technology; 3: Cluster of Excellence “SE²A – Sustainable and Energy-Efficient Aviation” Reconciling regional production with sustainability: a novel methodological framework to assess the sustainability of PDO agro-food products Research group LCA, Agroscope, Switzerland |
Strategy for collection of LCA data from suppliers Location: Salle 2.3 & 2.4 Chair: Rupert J. Baumgartner, University of Graz, Austria Chair: Bálint Simon, Mitsubshi Chemical Europe, Germany Perspectives and challenges of supplier-specific data collection – ArcelorMittal experience ArcelorMittal Maizières Research, France Analysis of Secondary Raw Materials for Steel and Copper ABB, Italy Connecting the Internet of Things to a Digital Ecosystem for Streamlined Environmental Assessments Empa, Switzerland How to automatise life cycle analysis in the context of electrical and electronic equipment 1: Arts et Métiers, CNRS, Université de Bordeaux, I2M Bordeaux, F-33405 Talence Cedex, France; 2: Qweeko, 150 rue Mondenard, 33000 Bordeaux, France; 3: Arts et Métiers, CNRS, Université de Bordeaux, I2M - site de Chambéry, F-73375 Le Bourget-du-Lac, France How can CO2 emissions data be requested and offered within the supply chain to provide a transparent basis for achieving decarbonization targets in the automotive industry? Volkswagen AG, Germany The TfS solution for a PCF sharing platform 1: Henkel AG & Co. KGaA, Germany; 2: Akzo Nobel GmbH; 3: BASF SE; 4: BAYER AG; 5: Brenntag SE; 6: Clariant AG; 7: Evonik Industries AG; 8: LANXESS AG; 9: Lyondellbasell Industries; 10: Merck KGaA; 11: Sika AG; 12: Solvay; 13: Syngenta Crop Protection AG; 14: Givaudan SA; 15: Arkema S.A.; 16: Together for Sustainability AISBL (TfS); 17: Eastman Chemical Company; 18: Wacker Chemie AG; 19: Covestro AG |
10:30am - 11:00am |
Coffee break and Poster thematic session Location: Hall Lille |
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11:00am - 12:30pm |
Product design for sustainable LCM (2) Location: Théâtre Pasteur Chair: Stephane Morel, Quantis & ESCP, France Implementation of Circularity Principles in Industrial Product Design 1: Institut for Industrial Ecology (INEC) at Pforzheim University, Tiefenbronner Str. 65, 75175 Pforzheim; 2: Robert Bosch GmbH Corporate Research and Advance Development, Robert-Bosch-Campus 1, 71272 Renningen Life cycle thinking as foundation for sustainable business transformations Implement Consulting Group, Switzerland The GreenLab4IoT project : development of an IoT measurement testbench for better ecodesign 1: EVEA, France; 2: GREENSPECTOR, France Carbon footprint study of Volvo C40 Recharge – use of conclusions in development work and implications for future studies Volvo Cars, Sweden Schneider Electric, return of experience of 2 decades of sustainability integration into product design Schneider Electric, France Ecodesign AFM / metabolism approach for Paris olympic games Paris 2024 - Comité d'organisation des Jeux Olympiques |
Transitioning towards sustainable value chains for chemicals & materials (2) Location: Théâtre Marie Curie Chair: Peter Saling, BASF SE, Germany Cleaner Cleaning with CO2-based Surfactants: A Cradle-to-Grave Life Cycle Assessment 1: RWTH Aachen University, Germany; 2: Goethe University Frankfurt, Germany; 3: Covestro Deutschland AG, Germany; 4: Technical University of Berlin, Germany; 5: Forschungszentrum Jülich GmbH, Germany Coupling LCA and mass-balance approach for bio-circular products at Solvay SOLVAY, France Tiered approach for product development based on environmental performance 1: TNO, Energy & Materials Transition; 2: TNO, Defence, Safety & Security Predicting the environmental impacts of novel electrochromic displays architectures using prospective life cycle assessment University of Bordeaux, France Development of a site-specific LCA model to assess pathways towards a net-zero chemical industry 1: Carbon Minds, Eupener Str. 165 50933 Cologne, Germany; 2: Institute for Technical Thermodynamics, Schinkelstraße 8, 52062 Aachen, Germany Where can we find the best data for the LCA of chemicals? 1: ETH Zurich, Switzerland; 2: National Centre of Competence in Research (NCCR) Catalysis, Switzerland; 3: empa - Swiss Federal Laboratories for Materials Science and Technology, Switzerland |
LCM applied to food , agriculture & beverages (1) Location: Salle 3.1 Chair: Sergiy Smetana, DIL German Institute of Food Technologies (DIL e.V.), Germany Chair: Viktor Klochko, AB InBev, Czech Republic Urbanisation of food production: Can indoor vertical farming reduce the footprint of kitchen herbs? Zurich University of applied sciences, Switzerland Environmental impacts of agricultural robots and possible improvements: example of weeding robots used in vineyards 1: INRAE, UR TSCF, France; 2: Naïo Technologies, France Making the business case for a more resource-efficient food sector: case study on artificial intelligence in bakeries Thünen Institute of Market Analysis, Germany SustainIT: sector-driven platform for alignment and scalability of sustainability metrics between suppliers and buyers 1: Olam Group, United Kingdom; 2: Olam Group, Netherlands; 3: Olam Group, Netherlands; 4: Olam Group, United Kingdom An environmental sustainability assessment of several packed food products: some key lessons 1: Ghent University, Belgium; 2: Pack4Food, Belgium |
Evaluating the sustainable use of resources Location: Salle 3.2 Chair: Stephanie Muller, BRGM, France Chair: Frederic Goettmann, Extracthive, France Abiotic resource metrics in Life Cycle Impact Assessment: A review from a cultural theory point of view and perspectives for the future within the transition to a low carbon economy 1: WeLOOP, 59130 Lambersart, France; 2: Institute of Molecular Sciences, University of Bordeaux, Centre National de la Recherche Scientifique, Bordeaux INP, ISM, UMR 5255, 33400 Talence, France From extraction to dissipation in life cycle impact assessment of mineral resource use – A review, case study, and outlook University of Twente, Netherlands, The Closing material loops with life cycle resource indicators in waste management DTU, Denmark Assessing and improving the resource efficiency of refractories recycling: a comprehensive analysis accounting for resource losses, environmental impacts and economic benefits 1: BRGM, France; 2: RDC Environment, Belgium; 3: Extracthive Ceramics Recycling, France Characterizing Raw Material’s Criticality within LCSA According to Stakeholders’ Requirements 1: Research Group Sustainable Systems Engineering (STEN) - Ghent University, Coupure Links 653, 9000 Ghent, Belgium; 2: European Institute for Energy Research (EIFER) EDF-KIT EEIG, Emmy-Noether-Strasse 11, 76131, Karlsruhe, Germany; 3: ecoinvent, Technoparkstrasse 1, 8005 Zurich, Switzerland |
Valorization of LCA results in a LCM perspective (1) Location: Salle 2.3 & 2.4 Chair: DENIS LE BOULCH, EDF, France Chair: Philippe Osset, SCORELCA, France The use of LCA in a large industrial group: 15 years of experience at ArcelorMittal ArcelorMittal, France Multi-criteria evaluation methods of environmental, social and economic impacts 1: RDC Environment, Belgium; 2: Ecoinnovazione, Italy Ecotoxicity in LCA: how to guide practitioners towards sound decision making for business? 1: Sayari, 6 rue Carnot, 78112 Saint Germain en Laye, France; 2: ITAB, French Research Institute of Organic Food and Farming, 149 Rue de Bercy, 75595 Paris CEDEX 12, France; 3: I-Care, 28 rue du Quatre Septembre, 75002 Paris, France; 4: SCORE LCA, 66 boulevard Niels Bohr, 69110 Villeurbanne, France Innovative methods for resources use in LCA 1: RDC Environment, Belgium; 2: BRGM, France |
12:30pm - 1:30pm |
Lunch Break and Poster thematic session Location: Hall Lille |
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1:30pm - 3:00pm |
Application of LCSA in the industry Location: Théâtre Pasteur Chair: Jana Gerta Backes, RWTH Aachen University, Germany Chair: Nils Jäger, thyssenkrupp Steel Europe AG, Germany A case study of sustainability assessment in the mining sector Politecnico di Milano, Italy Life cycle sustainability assessment and raw material criticality assessment as inter-related tools for supply chain risks management: the case of bio-based solvents 1: Univ. Bordeaux, CNRS, Bordeaux INP, ISM, UMR 5255, F-33400 Talence, France; 2: Bordeaux Sciences Economiques (BSE) UMR 6060, Bordeaux University A methodology for Life Cycle Sustaianbility Assessment in road pavements industries 1: Dipartimento di Ingegneria Università degli Studi di Palermo, Viale Delle Scienze, Ed.8, Palermo 90128, Italy; 2: Nottingham Transportation Engineering Centre University of Nottingham, University Park, Nottingham NG7 2RD, UK; 3: TNO Rijksuniversiteit, Princetonlaan 6, Utrecht NL-3584, Netherlands; 4: Statens väg- & transportforskningsinstitut, Olaus Magnus väg 35, Linköping SE-581 95, Sweden Indoor paints for concrete walls using biomass balance binders: a chemicals case study applying the ORIENTING LCSA methodology 1: BASF SE; 2: Fraunhofer Institute for Building Physics IBP; 3: Tecnalia ORIENTING’s LCSA methodology – lessons learnt from industrial testing 1: VTT Technical Research Centre of Finland; 2: Tecnalia; 3: EIFER; 4: Ecoinnovazione; 5: Ghent University; 6: Fraunhofer Institute for Building Physics; 7: BASF; 8: Stora Enso Should I stay or should I go? 1: KU Leuven, Belgium; 2: Flanders Make, Corelab VCCM, Belgium; 3: Aalborg University, Rendsburggade 14, 9000 Aalborg, Denmark; 4: 2.-0 LCA consultants, Rendsburggade 14, 9000 Aalborg, Denmark; 5: Center for Economics and Corporate Sustainability (CEDON), KU Leuven, Warmoesberg 26, BE-1000 Brussels, Belgium |
Contribution of LCM to more sustainable plastics value chains Location: Théâtre Marie Curie Chair: Christian Krüger, BASF, Germany Chair: Tomas Ekvall, Chalmers University of Technology, Sweden Life Cycle Assessment (LCA) of Circular Food and Non-Food Flexible Plastic Packaging Ugent, Belgium How sustainability strategies could be considered in Life Cycle Management (LCM) of systems – The South African plastics sector as a case study 1: University of Cape Town (UCT), South Africa; 2: University of the Witwatersrand (WITS); 3: Council for Scientific and Industrial Research (CSIR) Integrated environmental, economic and social LCA application in the polymer composites sector 1: Norwegian University of Science and Technology- NTNU, Norway; 2: NORSUS Norwegian Institute for Sustainability Research, Norway Meta analysis of Chemical Recycling LCAs 1: BASF SE; 2: Sphera Solutions, Inc. Life Cycle Assessment of Carbios enzymatic recycling technology: towards a closed-loop recycling for PET waste 1: Deloitte, France; 2: Carbios Towards a circular economy for plastics through a modelling approach and transition LCA: PRISM (Plastic Recycling and Impact Scenario Model) TNO Energy and material transition, Netherlands, The |
LCM applied to food , agriculture & beverages (2) Location: Salle 3.1 Chair: Ulrike Eberle, corsus-corporate sustainability GmbH, Germany Chair: Marcela Porto Costa, Olam Agri, United Kingdom Life Cycle Assessment of the North Sea SYMAPA project: nearshore oyster aquaculture and innovative passive fisheries 1: Colruyt Group, Belgium; 2: WeLoop, France Levels approach in Life Cycle Sustainability Assessment - The case of processed tomato in Italy 1: Ecoinnovazione; 2: Solana spa; 3: Fraunhofer A framework to guide method advancement in nutrient profiling algorithms for application in holistic life cycle assessments 1: ETH Zurich, Switzerland; 2: Agroscope, Switzerland; 3: ETH Zurich, Switzerland Internalizing the environmental costs of food products: Effects on price-demand equilibria and environmental impacts 1: University of Hohenheim, Germany; 2: University of Augsburg, Germany; 3: University of Greifswald, Germany Application of a novel practical framework to assess the resilience & sustainability of salad production in the Azores 1: Department of Botany, School of Natural Sciences, Trinity College Dublin, Dublin, Ireland; 2: Ryan Institute, National University of Ireland Galway, Galway, Ireland; 3: University of Gastronomic Sciences, Pollenzo, Italy; 4: Business Economics, Wageningen University, Wageningen, the Netherlands Environmental assessment of wheat grown in rotation with chickpea under Mediterranean conditions CRETUS Institute, Department of Chemical Engineering, School of Engineering, University of Santiago de Compostela, 15782 Santiago de Compostela, Spain. |
Valorization of LCA results in a LCM perspective (2) Location: Salle 3.2 Chair: Anse Smeets, VITO nv, Belgium Lifecycle sustainability assessment - applications for the bio-based products Corbion, The Netherlands Use of LCA in Electrolux: strategy, opportunities, and challenges. 1: Electrolux Italia, Italy; 2: Electrolux AB, Sweden The environmental impact assessment linked to the deployment of solutions : a way to foster the scale-up of solutions. 1: VINCI, France; 2: I-Care by Bearing Point A novel modelling approach to assess the role of product innovation and supply chain programmes to achieve Corporate Net Zero commitments Unilever, United Kingdom Bringing LCA results into the financial equation: How biodiversity footprinting enables financial players to make new strategic decisions that include nature. PRe Sustainability, Netherlands, The |
Time and Space: Acknowledging and integrating the variability of sustainability impacts into LCM Location: Salle 2.3 & 2.4 Chair: Mario Martín-Gamboa, Rey Juan Carlos University, Spain Chair: Thomas Gibon, Luxembourg Institute of Science and Technology (LIST), Luxembourg Methodological advances towards a robust geographical identification of supply chains 1: IMDEA Energy, Spain; 2: Rey Juan Carlos University, Spain Improving time and spatial variability of Consumption Footprint indicators at EU and Member States scale 1: European Commission - Joint Research Centre, Italy; 2: Uni Systems, Luxembourg; 3: Piksel SRL, Italy; 4: FootPrinting, The Netherlands Remote Sensing Based Data Products for Large Scale Life Cycle Inventory Models LCA Research Group, Institute of Natural Resource Sciences, Zurich University of Applied Sciences, Switzerland Temporal Inconsistencies in LCA : A New Tool for Calculating Dynamic Climate Change Characterization Factors 1: IFP Energie nouvelles, France; 2: Université Gustave Eiffel, France Time positioning for Product Labelling Renault Group, France The updated water scarcity impact characterization method AWARE2.0 1: CIRAIG, Polytechnique Montreal, Canada; 2: University of Twente, Netherlands; 3: Goethe University Frankfurt, Germany |
3:15pm - 4:30pm |
Closing Ceremony Location: Théâtre Pasteur |