Three poster sessions are spread across the conference programme:
A | Monday 6th July B | Tuesday 7th July C | Wednesday 8th July
All poster sessions will combine with an extended lunch break from 12:30 – 2pm and take place in the Reddaway Room on the first floor of the Hall Building.
Posters should be hung up on your poster board and taken down in the times indicated below. Velcro coins will be provided to hang up your poster, and conference helpers will be available for assistance during drop-off and pick-up times should you need it.
If you have not taken your poster down by the end of the conference day, the conference team will do this on your behalf and store it in the Reddaway Room. There will be three clearly labelled containers (A, B and C) for poster storage. Delegates will also be given a sticky label with their poster number, to stick to the back of posters for identification.
| Date | Session | Drop-off time | Session time | Pick-up time | Location |
| 06/07/26 | A | 08:00-09:00 | 12:30-14:00 | 17:30 onwards | Reddaway Room |
| 07/07/26 | B | 08:00-09:00 | 12:30-14:00 | 15:30 onwards | Reddaway Room |
| 08/07/26 | C | 08:00-09:00 | 12:30-14:00 | 16:00 onwards | Reddaway Room |
| Session A – Day 1 | Monday 6th July, 12:30-2pm | Reddaway Room | ||||
|---|---|---|---|---|
| Board # | Submission ID | Poster Title | Presenter Name | Affiliation |
| 01 | 19 | Building Inequality: How Construction Materials Shape Service Provision and Socio-economic Divides in Lima | Alessia Linares-Capurro | Leiden University |
| 02 | 24 | Why is monitoring material flows insufficient for tracking progress towards a sustainable circular economy? An analysis of the material-impact nexus in buildings. | Loïs Lozach | ETH Zurich |
| 03 | 26 | Combining circular economy models with macro-economic and energy system models for better policy assessments | Sietske Lensen | TNO |
| 04 | 42 | Embodied carbon in buildings: Where regulations stand, what science demands, and the gap between them. | Christiana Vann | University of Toronto |
| 05 | 45 | Evaluating Reuse and Recycling Targets for Plastic Packaging: Insights from a Material Flow Analysis of Industrial Plastic Packaging Waste in Belgium | Sofie Ferauge | KU Leuven |
| 06 | 46 | Modelling the Security of the United Kingdom's Lithium Supply | Philip Mitchell | University of Cambridge |
| 07 | 55 | Analysing the spatial logistics of construction materials for a circular economy | Ling Min Tan | The University of Sheffield |
| 08 | 63 | Quantifying energy storage requirements to decarbonise the electricity grid in the United Kingdom — influence of the share of dispatchable generation, storage efficiency, and curtailment | Jakub Lastowiecki | University of Cambridge |
| 09 | 71 | Battery Circularity in Fleet and Equipment Electrification: mitigation of resource use and Environmental Impacts over time | Diego Valdivia | Chalmers University of Technology |
| 10 | 72 | Social metabolism: characterising the biophysical economies of eight countries | Laura Felício | MARETEC, Instituto Superior Técnico, Universidade de Lisboa |
| 11 | 75 | Optimizing the "Nervous System" of Corporate Carbon Metabolism: The Countervailing Effects of Digitalization and Information Friction in Carbon Trading | Chendan Huang | Beijing Institute of Technology |
| 12 | 76 | Reshaping Provincial Carbon Metabolism for China's NDC 3.0: A Synergistic Development Pathway Based on the "Responsibility-Capacity" Matching Principle | Kaiyuan Guo | Tsinghua University, School of Environment |
| 13 | 83 | Agent-Driven Chemical Process Simulation, Optimization, Carbon Accounting, and Uncertainty Analysis | Yunhu Gao | Shanghai Advanced Research Institute, Chinese Academy of Sciences |
| 14 | 90 | Material Stock and Circularity Potential of Urban Road Networks: The Case of Singapore | Mohit Arora | Department of Engineering |
| 15 | 101 | Global Material Flows: A Multirregional Physical framework | Nuno Carvalhinho | Instituto Superior Técnico |
| 16 | 134 | A Systems Analysis of Net Energy and Critical Materials for EU Hydrogen Deployment | Juan Manuel Campos-Rodríguez | University of Valladolid |
| 17 | 141 | Future Eutrophication Challenges and Hotspots Driven by Growing Phosphorus Tailings | Binze Wang | Graduate School of Environmental Studies, Tohoku University |
| 18 | 153 | Global building stocks under a multi-hazard risk of climate extremes | Anna Fedotova | The University of Sheffield |
| 19 | 165 | Mapping plastics for policy analysis and sector decarbonisation pathways in the UK | Jennifer Hawkin | The University of Sheffield |
| 20 | 174 | Beyond households: Exploring how global household and non-household demand shapes well-being outcomes and environmental pressures | Diego Becerra | Leuphana University Lüneburg |
| 21 | 178 | The greenhouse gas footprints of Austria’s federal states from local to global scale: A globally-nested subnational multi-regional input-output analysis | Hanspeter Wieland | BOKU University |
| 22 | 181 | Upscaling Wastewater Innovations: A Regional Material Flow Analysis on Technology Deployment | Roger Plans i Vilardell | ICTA-UAB |
| 23 | 183 | Greening the Belt and Road: Reducing Embodied Emissions of African Infrastructure through China’s Aluminum Decarbonization | Lingli Hou | Institute of Environmental Sciences (CML), Leiden University |
| 24 | 489 | Bayesian Material Flow Analysis of the Global Food System: A Novel Framework for Probabilistic Quantification of Mass Flows and Circular Resource Use | Maia Watson-Hearne | Imperial College London |
| Session B – Day 2 | Tuesday 7th July, 12:30-2pm | Reddaway Room | ||||
|---|---|---|---|---|
| Board # | Submission ID | Poster Title | Presenter Name | Affiliation |
| 01 | 187 | How Accounting Choices Shape Urban Foodprints: Comparing Balance-Based and Consumption-Based Foodprints for the City of Antwerp | Boki Veldscholten | University of Antwerp |
| 02 | 189 | Maximal Housing, Minimal Impacts: Gentle Density Optimization in Three Cities | Jesse Ward-Bond | University of Toronto |
| 03 | 190 | Regional dynamics of Neodymium stocks and flows for EV and wind: lessons for industrial planning and critical mineral strategies | Olivier Karl Anton Heldwein | BOKU University |
| 04 | 191 | Scaling Laws of Material Stocks in Global Cities: Heterogeneity and Evolution, 2000–2019 | Yunying Chen | College of Urban and Environmental Science, Peking University |
| 05 | 198 | Understanding the fate of plastic pollution in endorheic basins: the case of Lake Titicaca | Diana Ita-Nagy | Pontificia Universidad Católica del Perú |
| 06 | 209 | How far should Europe’s mixed plastic waste travel? A NUTS-3 optimisation of EU27+3 waste-to-chemicals routing | Teresa Oehlcke | Institute for Industrial Production (IIP), Karlsruhe Institute of Technology (KIT) |
| 07 | 211 | Demand Scenarios for Critical Minerals in Electricity Systems | Judith Tettenborn | Copernicus Institute of Sustainable Development, Utrecht University |
| 08 | 219 | Extracting Value, Exporting Risk: Profit Repatriation and Brazil’s Deforestation Dynamics | Siwar Ortiz | Wirtschaftsuniversität Wien |
| 09 | 232 | Bulk materials on the transition to net-zero emissions: analysis of opportunities for including resource and infrastructure requirements in the monitoring of energy transitions in Europe | Lukas Gast | University College London |
| 10 | 235 | Prioritizing hydrogen use in industry: Options and trade-offs in the context of scarce renewable hydrogen | Niels Kunz | University of Cambridge |
| 11 | 241 | Production technology matters: How to track resource requirements in supply chains in energy transition scenarios | Martin Cerny | Charles University Prague; WU Vienna University of Economics and Business |
| 12 | 244 | Recycling as a critical lever to mitigate solar photovoltaic waste and carbon burdens | Yuyao Yang | Institute of Urban Environment, Chinese Academy of Sciences |
| 13 | 250 | Assessing the Potential of Circular Economy Strategies to Reduce Material and Energy Demand in the European Energy Transition for Photovoltaic, Wind, Battery and Electrolysis Technologies by 2050 | Marcel Geller | University of Freiburg |
| 14 | 257 | Are the digital and green transitions compatible? Outlook for data centre and green hydrogen projects in Aragon (Spain) between 2025 and 2035. | Jorge Torrubia | British Geological Survey |
| 15 | 261 | Tracing the fate of lithium, nickel, and cobalt by using the MaTrace model | Ziyan He | National Institute for Environmental Studies (NIES) |
| 16 | 313 | Electric Vehicles within a Safe and Just Operating Space: A Global Planetary Boundaries Assessment | Elham Mohammadi | University of Waterloo |
| 17 | 333 | Mapping Critical Minerals Value Chains for Resilience and Sustainability: The Cases of Lithium and Nickel | Haoning Liu | Institute for Sustainable Resources |
| 18 | 334 | Co-creating regional circular economy intermediaries: lessons from a participatory pathway towards cluster institutionalization | Sonia Ascaso | Assistant Professor |
| 19 | 338 | Delineating biophysical stocks and flows along the supply chain of provisioning systems: housing and mobility in the United States from 1964–2022 | Simon Graf | BOKU University |
| 20 | 340 | HARM: An Open-Source Framework for Extending Crop Specific Water Stress Indicators and Tracing Embodied Impacts in Global Trade | Yanfei Shan | TUM |
| 21 | 342 | Using Energy Flow Analyses in a local participatory process for energy policy-making: lessons learned | Jean-Yves Courtonne | Équipe STEEP, Université Grenoble Alpes, CNRS, INRIA, Grenoble INP, LJK, Grenoble, France |
| Session C – Day 3 | Wednesday 8th July, 12:30-2pm | Reddaway Room | ||||
|---|---|---|---|---|
| Board # | Submission ID | Poster Title | Presenter Name | Affiliation |
| 01 | 346 | Assessing drought exposure in European agriculture using PICCOLO-FABIO, an interregional food trade model | Francis Barre | NILU |
| 02 | 350 | Recycling Cascades in WEEE: A Material Flow and Life-Cycle Costing Analysis | David Pfeffer | ETH Zurich |
| 03 | 354 | Copper contamination of steel: what are the perspectives for steel recycling? | Basile Guth | BRGM, DRM/2ES |
| 04 | 355 | MATER: from an academic energy transition model to an ecosystem of open source tools beyond research | Lauranne Sarribouette | Université Grenoble Alpes |
| 05 | 370 | Navigating the Trade-offs in Green Hydrogen Production: A Life Cycle Assessment of the Water-Energy Nexus in Water-Scarce Regions | Yi-Shin Wang | National Taiwan Normal University |
| 06 | 372 | Causal Chains in Global Supply Chains: Evidence from the Kimberley Process and the Dodd–Frank Act | Natsuki Konishi | The University of Tokyo |
| 07 | 384 | Enhancing copper recycling in Europe for a greater resilience: A Stock and Flow analysis of Waste Electric and Electronic Equipment | Francesca Stein | Joint Research Centre of the European Commission (JRC) |
| 08 | 388 | Socio-ecological inequalities in housing consumption: How income, urban form, and tenure drive carbon footprints | Mira Kopp | Potsdam Institute for Climate Impact Research |
| 09 | 400 | The potential of electric vehicle flexibility to reduce material demand in future net-zero European electricity systems | Tobias Verheugen Hvidsten | University of Oslo |
| 10 | 406 | Towards a circular blue-green bioeconomy: Substance Flow Analysis of emerging N and P recovery value chains in Norway’s aquaculture-agriculture system | Marceau Cormery | Norwegian University of Science and Technology |
| 11 | 409 | Revealing the accountability of multi-nationals for global livestock environmental impacts | Christina Drotenko | CML - Leiden University |
| 12 | 410 | A Decision Support System for Raw Materials Criticality Assessment: Soft-Linking Multi-Regional Input–Output Analysis to the Analytic Hierarchy Process | Gabriele Casella | Politecnico di Milano - Department of Energy |
| 13 | 427 | Differential Dynamics of Population, Aging, and Building Stocks across Flood Frequency Zones: A Case Study of Thailand and Laos | SHIRAKAWA Hiroaki | Graduate School of Environmental Studies |
| 14 | 428 | Integrating Material Leakage into Circularity Assessment of Construction and Demolition Waste through Illegal Dumping detection | Rafaela Goncalves de Almeida | University of Pittsburgh |
| 15 | 436 | The transition of global energy supply chains through a flow perspective the case of Scottish ports and offshore energy | Ulysse DAVID | Kühne Logistics University (KLU) |
| 16 | 442 | Explainable AI and Spatial Metabolic Dynamics of Urban Regions: A Case Study of Belgium | Pramit Verma | Catholic University of Louvain |
| 17 | 445 | Environmental Trade-offs of Circular Economy Strategies for EU‑Manufactured Industrial Machinery: Scenario‑Based Life‑Cycle Modelling | Alejandro Arias-Castillo | Pforzheim University |
| 18 | 454 | Material and Energy Implications of Decarbonizing Aluminium and Steel: Linking Hydrogen, Electrification, and Infrastructure Feedbacks | Moritz Langhorst | Norwegian University of Science and Technology |
| 19 | 455 | From Trash to Treasure: Trade Insights on Raw Material Substitution | Isabella Gourevich | Ludwig Maximilian University of Munich |
| 20 | 472 | Material Requirements of French Offshore Wind Cable Infrastructure to 2050: Archetypes, Stocks, and Industrial Bottlenecks | yolan blanchon | Université Grenoble Alpes |
| 21 | 476 | Industrial Symbiosis Pathways in Fragmented Wine Regions: A Spatially Defined Material Flows in the DO Ribeira Sacra | Óscar Páramo-Telle | ICEDE Research Group, Department of Applied Economics, Universidade de Santiago de Compostela, |
| 22 | 481 | Quality Aware Material Flow Analysis of Aluminium in European WEEE: Implications for Target Design under Emerging EU Policy | Nils Dittrich | Norwegian University of Science and Technology |