Littérature scientifique sur le sujet « Raw Material Criticality »
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Articles de revues sur le sujet "Raw Material Criticality"
Frenzel, M., J. Kullik, M. A. Reuter et J. Gutzmer. « Raw material ‘criticality’—sense or nonsense ? » Journal of Physics D : Applied Physics 50, no 12 (20 février 2017) : 123002. http://dx.doi.org/10.1088/1361-6463/aa5b64.
Texte intégralLütkehaus, Hauke, Christian Pade, Matthias Oswald, Urte Brand, Tobias Naegler et Thomas Vogt. « Measuring raw-material criticality of product systems through an economic product importance indicator : a case study of battery-electric vehicles ». International Journal of Life Cycle Assessment 27, no 1 (4 décembre 2021) : 122–37. http://dx.doi.org/10.1007/s11367-021-02002-z.
Texte intégralHelbig, Christoph, Martin Bruckler, Andrea Thorenz et Axel Tuma. « An Overview of Indicator Choice and Normalization in Raw Material Supply Risk Assessments ». Resources 10, no 8 (4 août 2021) : 79. http://dx.doi.org/10.3390/resources10080079.
Texte intégralGlöser, Simon, Luis Tercero Espinoza, Carsten Gandenberger et Martin Faulstich. « Raw material criticality in the context of classical risk assessment ». Resources Policy 44 (juin 2015) : 35–46. http://dx.doi.org/10.1016/j.resourpol.2014.12.003.
Texte intégralSchrijvers, Dieuwertje, Alessandra Hool, Gian Andrea Blengini, Wei-Qiang Chen, Jo Dewulf, Roderick Eggert, Layla van Ellen et al. « A review of methods and data to determine raw material criticality ». Resources, Conservation and Recycling 155 (avril 2020) : 104617. http://dx.doi.org/10.1016/j.resconrec.2019.104617.
Texte intégralMancini, Lucia, et Philip Nuss. « Responsible Materials Management for a Resource-Efficient and Low-Carbon Society ». Resources 9, no 6 (5 juin 2020) : 68. http://dx.doi.org/10.3390/resources9060068.
Texte intégralFathia, Sarah, Tjahja Muhandri et Nugraha Edhi Suyatma. « Profil Bahan Perisa Kritis Halal dalam Peraturan BPOM No. 13/2020 ». Jurnal Mutu Pangan : Indonesian Journal of Food Quality 9, no 2 (31 octobre 2022) : 92–102. http://dx.doi.org/10.29244/jmpi.2022.9.2.92.
Texte intégralBlum, Ulrich, et Jiarui Zhong. « The Loss of Raw Material Criticality : Implications of the Collapse of Saudi Arabian Oil Exports ». Intereconomics 56, no 6 (novembre 2021) : 362–70. http://dx.doi.org/10.1007/s10272-021-1015-4.
Texte intégralGjoka, Margariti, Georgios Sempros, Stefanos Giaremis, Joseph Kioseoglou et Charalampos Sarafidis. « On Structural and Magnetic Properties of Substituted SmCo5 Materials ». Materials 16, no 2 (5 janvier 2023) : 547. http://dx.doi.org/10.3390/ma16020547.
Texte intégralKim, Juhan, Jungbae Lee, BumChoong Kim et Jinsoo Kim. « Raw material criticality assessment with weighted indicators : An application of fuzzy analytic hierarchy process ». Resources Policy 60 (mars 2019) : 225–33. http://dx.doi.org/10.1016/j.resourpol.2019.01.005.
Texte intégralThèses sur le sujet "Raw Material Criticality"
Leroy-Parmentier, Noémie. « Évaluer les impacts des produits issus de la bio-économie : Une approche intégrée de l’analyse de durabilité du cycle de vie et de l’évaluation de la criticité des matières premières issues de la biomasse ». Electronic Thesis or Diss., Bordeaux, 2024. http://www.theses.fr/2024BORD0106.
Texte intégralSo demand for biomass is increasing, access to these resources is further constrained by socio-economic, (geo-)political or climatic events that destabilize value chains. Bio-economy structure, bio-economy value chains can be vulnerable to supply to supply disruptions. It is therefore supply risks and their impact on environmental, social and economic on the environmental, social and economic performance (i.e. sustainability) of activities. For this purpose, various assessment methodologies assessment methodologies exist: Life Cycle Sustainability Analysis (LCSA) and raw materials criticality assessment. These are very often carried out within companies by different people, with different objectives and objectives and timeframes. What's more, they cannot be used and need to be adapted to assess the challenges of the bio-economy and bio-economy and green chemistry.This work aims to answer the question "How can the sustainability of products from the bio-economy be assessed in a context of variation in the availability and accessibility of renewable biomass resources?". By adopting the point of view of firms, this research studies the potential integration of life-cycle sustainability assessment and criticality assessment of lignocellulosic resources, whose demand is growing rapidly, notably with the emergence of biofuels. in particular with the emergence of biorefineries driven by the green chemistry the production and use of bio-sourced solvents. The latter are based on the transformation of bio-sourced platforms and aim to substitute petro-sourced solvents in order to the transition to a bio-economy. The question of substituting a lignocellulosic resource by another in the case of this thesis, is central to the is at the heart of these questions, since it is a common strategy for supply risks, although this decision may also have environmental, social and economic have negative environmental, social and economic impacts.The thesis proposes a criticality assessment method specific to the resources and commodities of the bio-economy, "LignoCrit". The development of LignoCrit, based in part on ADCV data and results ADCV, requires a common structure to integrate the two methods. Thus, ADCV was applied to the case of a bio-sourced solvent, 2-Methyl Tetrahydrofuran (2-MeTHF), demonstrating the preponderance of chemical transformation processes in the solvent's social and economic impacts of the solvent. However, the choice of lignocellulosic resource and the country of production, for solvent production has a significant effect on the results.Data and results of the different 2-MeTHF production scenarios evaluated in the ADCV are then injected into the criticality method on the basis of the data and results obtained. Thus, a score aggregating the various dimensions of the LignoCrit method is obtained for each triplet resource-process-producing country of the platform molecule purchased for the production of 2-MeTHF. Due to the nature of the indicators selected, this evaluation is generalizable multiple resource-process-producing country for multiple platform molecules.Last but not least these results and their interpretation can be used to implement continuous continuous improvement initiatives within companies, as well as for external external communication in the context of EMS and CSR
Santillan, Saldivar Jair. « Integrated assessment of selected materials for criticality and environmental sustainability : application to the healthcare sector and methodological enhancements ». Thesis, Bordeaux, 2021. http://www.theses.fr/2021BORD0084.
Texte intégralThe activities required to provide healthcare services bring challenges to environmental sustainability. The sector relies on diverse products, services and facilities, including disposable products, complex equipment and transportation. This domain has not been well explored from a sustainability lens and the level of awareness around healthcare sustainability is low. Life-cycle based methods have the potential to characterize systems related to the healthcare sector and many others; however, these methods are mostly – if not exclusively – related to an inside-out pathway to assess impacts. From an outside-in perspective, there is potential for raw material criticality to assess resource availability in the healthcare sector, especially after the proposal to integrate it into the Life Cycle Sustainability Assessment (LCSA) framework.A pending task around this proposed methodological pathway is to explore the applicability and readiness of supply risk methods, specifically the geopolitical supply risk (GeoPolRisk) method has been proposed to assess resource related impacts. This research provides and integrates methods to assess environmental sustainability from a life cycle perspective with focus on enhancing criticality indicators as an outside-in impact pathway associated with the Area of Protection “Natural Resources” in Life Cycle Assessment (LCA); moreover, their applicability is validated with multiple case studies, being one of those a part of the healthcare sector.The thesis is divided in 9 chapters along two branches: “Healthcare Sustainability” and “Raw Material Criticality in Life Cycle Assessment”. The first chapter provides an introduction to the manuscript and presents the research question and objectives of the thesis; it is followed by the state of the art in chapter 2. Chapter 3 presents the development of a novel framework to help address sustainability challenges in the healthcare sector through life cycle thinking. Chapter 4 and Chapter 5 propose and test methodological enhancements to the geopolitical supply risk method required to better address resource related impacts in life cycle assessment. Chapter 6 presents an integrated assessment taking into account the enhanced method and its relation to more traditionally used environmental impact categories in LCA. In chapter 7, the GeoPolRisk method is used to better understand the relevance of assessing outside-in impacts associated to an element used in the healthcare sector. Chapter 8 integrates the methodological enhancements previously presented to study inside-out and outside-in impacts for a case study associated with medical imaging. Finally, accomplishments and future opportunities for development on the field are discussed as part of the last chapter of the manuscript.Along the branch of “Healthcare Sustainability” this work contributes to the development of an integrated framework to support research in this domain and the first application to a case study in the healthcare sector of an integrated life cycle assessment incorporating environmental indicators and the GeoPolRisk method. Along the branch of “Raw Material Criticality in LCA”, the PhD develops new approaches and proposes methodological enhancements to advance the assessment of resource use in LCA
Chapitres de livres sur le sujet "Raw Material Criticality"
Buzatu, Raluca, Viorel Ungureanu, Adrian Ciutina et Ioan Both. « Environmental Impact Assessment of Buildings with Steel-Intensive Façade Systems – A Case Study ». Dans Lecture Notes in Civil Engineering, 572–81. Cham : Springer Nature Switzerland, 2024. http://dx.doi.org/10.1007/978-3-031-57800-7_53.
Texte intégralArgyriou, Thodoris. « The Fossil Record of Ray-Finned Fishes (Actinopterygii) in Greece ». Dans Fossil Vertebrates of Greece Vol. 1, 91–142. Cham : Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-68398-6_4.
Texte intégral« Picosecond hard X-ray pulses and their application to time-resolved diffraction ». Dans Time-resolved Diffraction, sous la direction de V. Tomov;*, P. Chen, S. H. Lin et P. M. Rentzepis, 1–43. Oxford University PressOxford, 1997. http://dx.doi.org/10.1093/oso/9780198500322.003.0001.
Texte intégralRietveld, Elmer, et Ton Bastein. « In Search of an Appropriate Criticality Assessment of Raw Materials in the Dutch Economy ». Dans World Scientific Series in Current Energy Issues, 151–76. WORLD SCIENTIFIC, 2019. http://dx.doi.org/10.1142/9789813271050_0008.
Texte intégralOlayemi Raji, Akeem. « Utilization of Starch in Food and Allied Industries in Africa : Challenges and Prospects ». Dans Innovation in the Food Sector Through the Valorization of Food and Agro-Food By-Products [Working Title]. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.95020.
Texte intégralE. Müller, Thomas. « Supply Chains for Hydrogen and Carbon Dioxide for Sustainable Production of Base Chemicals ». Dans Supply Chain - Perspectives and Applications [Working Title]. IntechOpen, 2024. http://dx.doi.org/10.5772/intechopen.114031.
Texte intégralNyasani, Majorie Moraa, et Victor Odhiambo Shikuku. « Life Cycle Assessment of Biofuels ». Dans Biomass and Bioenergy Solutions for Climate Change Mitigation and Sustainability, 22–31. IGI Global, 2022. http://dx.doi.org/10.4018/978-1-6684-5269-1.ch002.
Texte intégralGross, Stephen G. « The Coupling Paradigm ». Dans Energy and Power, 46—C2P73. Oxford University PressNew York, 2023. http://dx.doi.org/10.1093/oso/9780197667712.003.0003.
Texte intégralGaravaglia, Marcello, Fabio Grisoni, Marta Mantegazza et Marco Rottoli. « Advanced Shell-and-Tube Longitudinal Flow Technology for Improved Performances in the Process Industry ». Dans Heat Transfer - Advances in Fundamentals and Applications [Working Title]. IntechOpen, 2023. http://dx.doi.org/10.5772/intechopen.113132.
Texte intégralCoppens, Philip. « Charge Density Studies of Transition Metal Compounds ». Dans X-Ray Charge Densities and Chemical Bonding. Oxford University Press, 1997. http://dx.doi.org/10.1093/oso/9780195098235.003.0012.
Texte intégralActes de conférences sur le sujet "Raw Material Criticality"
Josso, P. « What is Behind a Critical Raw Material List ? a Review of Best Practice in Criticality Assessments ». Dans 85th EAGE Annual Conference & Exhibition - Workshop Programme. European Association of Geoscientists & Engineers, 2024. http://dx.doi.org/10.3997/2214-4609.2024101745.
Texte intégralZambak, Caner. « CIRCULAR ECONOMY AND CRITICALITY OF RAW MATERIALS ». Dans International Symposium "The Environment and the Industry". National Research and Development institute for Industrial Ecology, 2022. http://dx.doi.org/10.21698/simi.2022.ab21.
Texte intégralCremers, David A., et Joseph R. Wachter. « Analysis of Uranium Solutions Using Laser-Induced Breakdown Spectroscopy ». Dans Lasers in Material Diagnostics. Washington, D.C. : Optica Publishing Group, 1987. http://dx.doi.org/10.1364/lmd.1987.wc3.
Texte intégralWatkins, Robert W., Daniel R. Leduc et Allen C. Smith. « Radioactive Material Packaging Torque Requirements Compliance ». Dans ASME 2011 Pressure Vessels and Piping Conference. ASMEDC, 2011. http://dx.doi.org/10.1115/pvp2011-57203.
Texte intégralMcConnell, Paul, Charles Robino, Ron Mizia, John DuPont, Gregg Wachs et William Hurt. « A New Ni-Cr-Mo-Based Gadolinium Structural Alloy for Neutron Adsorption Application in Radioactive Material Packages ». Dans ASME 2006 Pressure Vessels and Piping/ICPVT-11 Conference. ASMEDC, 2006. http://dx.doi.org/10.1115/pvp2006-icpvt-11-93042.
Texte intégralAbramczyk, Glenn, James Shuler, Steven J. Nathan et Allen C. Smith. « Case Study of Certification of Small Quantities of RAM : Comparison With SGQ Concept ». Dans ASME 2011 Pressure Vessels and Piping Conference. ASMEDC, 2011. http://dx.doi.org/10.1115/pvp2011-57666.
Texte intégralRao, L. Kameswara, et A. Selvarajan. « Photodarkening In insitu Textured PbTe Eilms - A Novel Technique for High Contrast Optical Storage in Polycrystalline Thin Eilms ». Dans Lasers in Material Diagnostics. Washington, D.C. : Optica Publishing Group, 1987. http://dx.doi.org/10.1364/lmd.1987.thb2.
Texte intégralHepworth, Stephen, Rob Way et Jonathan Sharpe. « Critical Evaluation on the Use of Non-Destructive Assay of Nuclear Packages Through Destructive Breakdown and Inventory Recovery ». Dans ASME 2009 12th International Conference on Environmental Remediation and Radioactive Waste Management. ASMEDC, 2009. http://dx.doi.org/10.1115/icem2009-16081.
Texte intégralColombo, Chiara, Stefano Monti, Mario Guagliano, Laura Vergani, Emanuele Fiordaligi et Fausto Fusari. « Numerical and Experimental Residual Stresses of Different Welded Joint Configurations in Heavy Wall ». Dans ASME 2020 Pressure Vessels & Piping Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/pvp2020-21495.
Texte intégralHan, Zenghu, Vikram N. Shah et Yung Y. Liu. « Dynamic Finite Element Analysis of Drum-Type Shipping Packages for Radioactive Materials ». Dans ASME 2012 Pressure Vessels and Piping Conference. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/pvp2012-78707.
Texte intégralRapports d'organisations sur le sujet "Raw Material Criticality"
Litaor, Iggy, James Ippolito, Iris Zohar et Michael Massey. Phosphorus capture recycling and utilization for sustainable agriculture using Al/organic composite water treatment residuals. United States Department of Agriculture, janvier 2015. http://dx.doi.org/10.32747/2015.7600037.bard.
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