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 | |
Location: Salle 2.3 & 2.4 |
Date: Wednesday, 06/Sept/2023 | |
2:00pm - 3:30pm |
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 |
4:30pm - 6:00pm |
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 |
Date: Thursday, 07/Sept/2023 | |
11:00am - 12:30pm |
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 |
2:00pm - 3:30pm |
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 |
4:30pm - 6:00pm |
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 |
Date: Friday, 08/Sept/2023 | |
9:00am - 10:30am |
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 |
11:00am - 12:30pm |
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 |
1:30pm - 3:00pm |
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 |