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2. Life Cycle-Based Product Sustainability Assessment Employing Quality and Cost. (2025). Pacana, Andrzej ; Siwiec, Dominika.
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14. Integrating Prospective LCA in the Development of Automotive Components. (2023). Marten, Thorsten ; Troster, Thomas ; Ostermann, Moritz ; Kasewieter, Karoline ; Grenz, Julian ; Cerdas, Felipe ; Herrmann, Christoph.
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15. Integrating Prospective Scenarios in Life Cycle Engineering: Case Study of Lightweight Structures. (2023). Marten, Thorsten ; Troster, Thomas ; Ostermann, Moritz ; Triebus, Marcel ; Grenz, Julian ; Cerdas, Felipe ; Herrmann, Christoph.
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16. Sustainable Vehicle Design Considering Quality Level and Life Cycle Environmental Assessment (LCA). (2023). Ulewicz, Robert ; Siwiec, Dominika ; Pacana, Andrzej.
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17. Prospective environmental impact assessment and simulation applied to an emerging biowaste-based energy technology in Europe. (2023). Gibon, Thomas ; Righi, Serena ; Porcelli, Roberto ; Marazza, Diego ; Rugani, Benedetto.
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18. How do variations in ship operation impact the techno-economic feasibility and environmental performance of fossil-free fuels? A life cycle study. (2023). Olsson, Tobias ; Brynolf, Selma ; Grahn, Maria ; Hansson, Julia ; Ellis, Joanne ; Kanchiralla, Fayas Malik.
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19. Prospective life cycle assessment of alternatively fueled heavy-duty trucks. (2023). van den Oever, A. E. M., ; Messagie, M ; Costa, D.
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20. An energy future beyond climate neutrality: Comprehensive evaluations of transition pathways. (2023). Madrid-López, Cristina ; Nebot-Medina, Rafael ; Martin, Nick ; Talens-Peiro, Laura ; Villalba-Mendez, Gara ; Madrid-Lopez, Cristina.
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21. Low carbon strategies need to tackle the carbon footprint of materials production. (2023). Lefevre, Julien ; Teixeira, Antoine.
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22. Impacts of shared mobility on vehicle lifetimes and on the carbon footprint of electric vehicles. (2022). Morfeldt, Johannes.
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23. Prospective Life Cycle Assessment and Cost Analysis of Novel Electrochemical Struvite Recovery in a U.S. Wastewater Treatment Plant. (2022). Popp, Jennie ; English, Leah ; Morrissey, Karla G ; Thoma, Greg.
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24. The Circular Economy in the Agri-food system: A Performance Measurement of European Countries. (2022). Furesi, Roberto ; Pulina, Pietro ; Sau, Paola ; Madau, Fabio A ; Arru, Brunella.
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25. PRospective EnvironMental Impact asSEment (premise): A streamlined approach to producing databases for prospective life cycle assessment using integrated assessment models. (2022). Siala, K ; Luderer, G ; Mutel, C ; Bauer, C ; Cox, B ; Dirnaichner, A ; Daioglou, V ; Terlouw, T ; Sacchi, R.
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26. Assessing the prospective environmental performance of hydrogen from high-temperature electrolysis coupled with concentrated solar power. (2022). Dufour, Javier ; Puig-Samper, Gonzalo ; Bargiacchi, Eleonora ; Iribarren, Diego.
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27. Life cycle assessment of CO2 conversion and storage in metal–CO2 electrochemical cells. (2022). Pfeiffer, Olivia ; Olivetti, Elsa A ; Gallant, Betar M ; Khurram, Aliza.
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28. Integration of future water scarcity and electricity supply into prospective LCA: Application to the assessment of water desalination for the steel industry. (2022). Baustert, Paul ; Chion, Laurent ; Biemans, Hester ; Benetto, Enrico ; Igos, Elorri ; Stehfest, Elke ; van Vuuren, Detlef ; Beltran, Angelica Mendoza ; Schaubroeck, Thomas.
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29. A practice‐based framework for defining functional units in comparative life cycle assessments of materials. (2022). Molander, Sverker ; Arvidsson, Rickard ; Furberg, Anna.
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30. The PIOLab: Building global physical input–output tables in a virtual laboratory. (2022). Giljum, Stefan ; Eisenmenger, Nina ; Lenzen, Manfred ; Schenk, Johannes ; Fry, Jacob ; Wieland, Hanspeter ; Wiedenhofer, Dominik ; Geschke, Arne.
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31. Regional circular economy of building materials: Environmental and economic assessment combining Material Flow Analysis, Input‐Output Analyses, and Life Cycle Assessment. (2022). Kytzia, Susanne ; Meglin, Ronny ; Habert, Guillaume.
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32. Toward the development of subnational hybrid input–output tables in a multiregional framework. (2022). , Wouter ; Zeller, Vanessa ; Merciai, Stefano ; Schmidt, Jannick ; Towa, Edgar.
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33. The Circular Economy in the Agri-food system: A Performance Measurement of European Countries. (2022). Furesi, Roberto ; Pulina, Pietro ; Sau, Paola ; Madau, Fabio A ; Arru, Brunella.
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34. Regional waste footprint and waste treatments analysis. (2021). Achten, Wouter ; Zeller, Vanessa ; Merciai, Stefano ; Towa, Edgar Battand.
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35. Life Cycle Assessment of Autonomous Electric Field Tractors in Swedish Agriculture. (2021). Hansson, Per-Anders ; Lagnelov, Oscar ; Larsson, Gunnar ; Larsolle, Anders.
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36. Systems Engineering for the Energy Transition: Potential Contributions and Limitations. (2021). Evers, Vince ; Muller, Gerrit ; Kirkels, Arjan.
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37. Time-Dependent Climate Impact of Utilizing Residual Biomass for Biofuels—The Combined Influence of Modelling Choices and Climate Impact Metrics. (2021). Olofsson, Johanna.
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38. A Multifaceted Challenge to Enhance Multicriteria Decision Support for Energy Policy. (2021). Krysiak, Magdalena ; Kluczek, Aldona.
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39. Energy-carbon-investment payback analysis of prefabricated envelope-cladding system for building energy renovation: Cases in Spain, the Netherlands, and Sweden. (2021). Yang, Xining ; Garnesson, Thomas ; Hu, Mingming ; Zhang, Chunbo ; Laclau, Benjamin ; Tukker, Arnold.
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40. Plastic packaging flows in Europe: A hybrid input‐output approach. (2021). Bjelle, Eivind Lekve ; Cimpan, Ciprian ; Stromman, Anders Hammer.
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41. Global distribution of material inflows to in‐use stocks in 2011 and its implications for a circularity transition. (2021). Merciai, Stefano ; Deetman, Sebastiaan ; Aguilarhernandez, Glenn A ; Tukker, Arnold.
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42. The environmental and material implications of circular transitions: A diffusion and product‐life‐cycle‐based modeling framework. (2021). Aguilarhernandez, Glenn A ; Siguenza, Carlos Pablo ; Steubing, Bernhard ; Tukker, Arnold.
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43. Modeling the circular economy in environmentally extended input–output: A web application. (2021). Niccolson, Sidney ; Christis, Maarten ; Boonen, Katrien ; Donati, Franco ; Daniels, Bart ; Tukker, Arnold ; de Koning, Arjan ; Geerken, Theo.
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44. How to Conduct Prospective Life Cycle Assessment for Emerging Technologies? A Systematic Review and Methodological Guidance. (2020). Thonemann, Nils ; Maga, Daniel ; Schulte, Anna.
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45. Economic Evaluation of Large-Scale Biorefinery Deployment: A Framework Integrating Dynamic Biomass Market and Techno-Economic Models. (2020). Söderholm, Patrik ; Bryngemark, Elina ; Harvey, Simon ; Soderholm, Patrik ; Zetterholm, Jonas ; Ahlstrom, Johan ; Wetterlund, Elisabeth.
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46. Electrodialytic Energy Storage System: Permselectivity, Stack Measurements and Life-Cycle Analysis. (2020). Bock, Robert ; Burheim, Odne Stokke ; Morales, Marjorie ; Einarsrud, Kristian Etienne ; Krakhella, Kjersti Wergeland ; Seland, Frode.
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47. Life Cycle Assessment of Electricity Generation from an Array of Subsea Tidal Kite Prototypes. (2020). Molander, Sverker ; Kaddoura, Mohamad ; Tivander, Johan.
    In: Energies.
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48. Prospective Environmental Impacts of Passenger Cars under Different Energy and Steel Production Scenarios. (2020). Brown, Nils ; Koroma, Michael Samsu ; Messagie, Maarten ; Cardellini, Giuseppe.
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49. Integrating sustainable value thinking into technology forecasting: A configurable toolset for early stage technology assessment. (2020). Holgado, Maria ; Farrukh, Clare.
    In: Technological Forecasting and Social Change.
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50. A review on learning effects in prospective technology assessment. (2020). van Passel, Steven ; Dewulf, JO ; Thomassen, Gwenny.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:130:y:2020:i:c:s1364032120302288.

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51. Prospective life cycle assessment of third-generation photovoltaics at the pre-industrial scale: A long-term scenario approach. (2020). Maranghi, S ; Basosi, R ; Parisi, M L ; Vesce, L ; Sinicropi, A ; di Carlo, A.
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52. Reaching net-zero carbon emissions in construction supply chains – Analysis of a Swedish road construction project. (2020). Rootzen, Johan ; Karlsson, Ida ; Johnsson, Filip.
    In: Renewable and Sustainable Energy Reviews.
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53. Efficient computation of environmentally extended input–output scenario and circular economy modeling. (2020). Heijungs, Reinout ; Etinay, Hale ; Donati, Franco ; Sprecher, Benjamin.
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54. Suggested use? On evidence‐based decision‐making in industrial ecology and beyond. (2020). Zhu, Junming.
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    RePEc:bla:inecol:v:24:y:2020:i:5:p:943-950.

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55. Environmental impact assessment of plasma‐assisted and conventional ammonia synthesis routes. (2020). Hessel, Volker ; Keijzer, Robin ; Lang, Jurgen ; van Rooij, Gerard ; Patil, Bhaskar ; Anastasopoulou, Aikaterini.
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56. Input-output models and waste management analysis: A critical review. (2019). Achten, Wouter ; Zeller, Vanessa ; Towa, Edgar Battand.
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57. Bio-Based Production Systems: Why Environmental Assessment Needs to Include Supporting Systems. (2019). Prade, Thomas ; Broberg, Sarah ; Khalil, Sammar ; Tufvesson, Linda ; Lindqvist, Andreas Nicolaidis.
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58. Circular Integration of processes, industries, and economies. (2019). Walmsley, Timothy Gordon ; Tan, Raymond R ; Varbanov, Petar Sabev ; Kleme, Jii Jaromir.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:107:y:2019:i:c:p:507-515.

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59. Implementing exogenous scenarios in a global MRIO model for the estimation of future environmental footprints. (2018). Wiebe, Kirsten ; Wood, Richard ; Tobben, Johannes ; Bjelle, Eivind Lekve.
    In: Journal of Economic Structures.
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