A review of methods and data to determine raw material criticality

•Differences in goal and scope of criticality studies result in different outcomes.•Cause-and-effect mechanisms of indicators and outcomes are poorly understood.•The availability of high-quality data limits the evaluation of criticality.•Criticality methods should be more transparent to support inte...

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Published in	Resources, conservation and recycling Vol. 155; p. 104617
Main Authors	Schrijvers, Dieuwertje, Hool, Alessandra, Blengini, Gian Andrea, Chen, Wei-Qiang, Dewulf, Jo, Eggert, Roderick, van Ellen, Layla, Gauss, Roland, Goddin, James, Habib, Komal, Hagelüken, Christian, Hirohata, Atsufumi, Hofmann-Amtenbrink, Margarethe, Kosmol, Jan, Le Gleuher, Maïté, Grohol, Milan, Ku, Anthony, Lee, Min-Ha, Liu, Gang, Nansai, Keisuke, Nuss, Philip, Peck, David, Reller, Armin, Sonnemann, Guido, Tercero, Luis, Thorenz, Andrea, Wäger, Patrick A.
Format	Journal Article
Language	English
Published	Elsevier B.V 01.04.2020 Elsevier
Subjects	Critical raw materials Critical resources Criticality assessment data quality Earth Sciences experts Material criticality raw materials risk Sciences of the Universe Strategic raw materials uncertainty UNDP PGM(s) HHI PPI Strategic raw materials HDI KIRAM/KITECH NIES NSTC OECD Critical raw materials REE(s) UBA SI Empa INSEAD OH VDI EC GE ISO SDU NEDO BRGM LCA Material criticality USGS BGS EU EIT UNEP IRP US DOE Criticality assessment WGI Critical resources iCIRCE IRTC NRC CRM
Online Access	Get full text
ISSN	0921-3449 1879-0658
DOI	10.1016/j.resconrec.2019.104617

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Abstract	•Differences in goal and scope of criticality studies result in different outcomes.•Cause-and-effect mechanisms of indicators and outcomes are poorly understood.•The availability of high-quality data limits the evaluation of criticality.•Criticality methods should be more transparent to support interpretation. The assessment of the criticality of raw materials allows the identification of the likelihood of a supply disruption of a material and the vulnerability of a system (e.g. a national economy, technology, or company) to this disruption. Inconclusive outcomes of various studies suggest that criticality assessments would benefit from the identification of best practices. To prepare the field for such guidance, this paper aims to clarify the mechanisms that affect methodological choices which influence the results of a study. This is achieved via literature review and round table discussions among international experts. The paper demonstrates that criticality studies are divergent in the system under study, the anticipated risk, the purpose of the study, and material selection. These differences in goal and scope naturally result in different choices regarding indicator selection, the required level of aggregation as well as the subsequent choice of aggregation method, and the need for a threshold value. However, this link is often weak, which suggests a lack of understanding of cause-and-effect mechanisms of indicators and outcomes. Data availability is a key factor that limits the evaluation of criticality. Furthermore, data quality, including both data uncertainty and data representativeness, is rarely addressed in the interpretation and communication of results. Clear guidance in the formulation of goals and scopes of criticality studies, the selection of adequate indicators and aggregation methods, and the interpretation of the outcomes, are important initial steps in improving the quality of criticality assessments.
AbstractList	•Differences in goal and scope of criticality studies result in different outcomes.•Cause-and-effect mechanisms of indicators and outcomes are poorly understood.•The availability of high-quality data limits the evaluation of criticality.•Criticality methods should be more transparent to support interpretation. The assessment of the criticality of raw materials allows the identification of the likelihood of a supply disruption of a material and the vulnerability of a system (e.g. a national economy, technology, or company) to this disruption. Inconclusive outcomes of various studies suggest that criticality assessments would benefit from the identification of best practices. To prepare the field for such guidance, this paper aims to clarify the mechanisms that affect methodological choices which influence the results of a study. This is achieved via literature review and round table discussions among international experts. The paper demonstrates that criticality studies are divergent in the system under study, the anticipated risk, the purpose of the study, and material selection. These differences in goal and scope naturally result in different choices regarding indicator selection, the required level of aggregation as well as the subsequent choice of aggregation method, and the need for a threshold value. However, this link is often weak, which suggests a lack of understanding of cause-and-effect mechanisms of indicators and outcomes. Data availability is a key factor that limits the evaluation of criticality. Furthermore, data quality, including both data uncertainty and data representativeness, is rarely addressed in the interpretation and communication of results. Clear guidance in the formulation of goals and scopes of criticality studies, the selection of adequate indicators and aggregation methods, and the interpretation of the outcomes, are important initial steps in improving the quality of criticality assessments. The assessment of the criticality of raw materials allows the identification of the likelihood of a supply disruption of a material and the vulnerability of a system (e.g. a national economy, technology, or company) to this disruption. Inconclusive outcomes of various studies suggest that criticality assessments would benefit from the identification of best practices. To prepare the field for such guidance, this paper aims to clarify the mechanisms that affect methodological choices which influence the results of a study. This is achieved via literature review and round table discussions among international experts. The paper demonstrates that criticality studies are divergent in the system under study, the anticipated risk, the purpose of the study, and material selection. These differences in goal and scope naturally result in different choices regarding indicator selection, the required level of aggregation as well as the subsequent choice of aggregation method, and the need for a threshold value. However, this link is often weak, which suggests a lack of understanding of cause-and-effect mechanisms of indicators and outcomes. Data availability is a key factor that limits the evaluation of criticality. Furthermore, data quality, including both data uncertainty and data representativeness, is rarely addressed in the interpretation and communication of results. Clear guidance in the formulation of goals and scopes of criticality studies, the selection of adequate indicators and aggregation methods, and the interpretation of the outcomes, are important initial steps in improving the quality of criticality assessments.
ArticleNumber	104617
Author	Liu, Gang van Ellen, Layla Goddin, James Gauss, Roland Thorenz, Andrea Blengini, Gian Andrea Lee, Min-Ha Schrijvers, Dieuwertje Nansai, Keisuke Tercero, Luis Sonnemann, Guido Nuss, Philip Hofmann-Amtenbrink, Margarethe Habib, Komal Peck, David Eggert, Roderick Le Gleuher, Maïté Wäger, Patrick A. Hirohata, Atsufumi Ku, Anthony Reller, Armin Hool, Alessandra Chen, Wei-Qiang Hagelüken, Christian Grohol, Milan Dewulf, Jo Kosmol, Jan
Author_xml	– sequence: 1 givenname: Dieuwertje surname: Schrijvers fullname: Schrijvers, Dieuwertje organization: Univ. Bordeaux, ISM, UMR 5255, F-33400 Talence, France – sequence: 2 givenname: Alessandra surname: Hool fullname: Hool, Alessandra email: alessandra.hool@esmfoundation.org organization: ESM Foundation, Junkerngasse 56, 3011 Bern, Switzerland – sequence: 3 givenname: Gian Andrea surname: Blengini fullname: Blengini, Gian Andrea organization: European Commission, DG JRC – Joint Research Centre, Sustainable Resources Directorate Unit D3 – Land Resources, Via Enrico Fermi 2749 TP270, I-21027 Ispra, Italy – sequence: 4 givenname: Wei-Qiang surname: Chen fullname: Chen, Wei-Qiang organization: Key Lab of Urban Environment and Health, Institute of Urban Environment, Chinese Academy of Sciences, 1799 Jimei Road, Xiamen 361021, China – sequence: 5 givenname: Jo surname: Dewulf fullname: Dewulf, Jo organization: Research Group Sustainable Systems Engineering, Department Green Chemistry and Technology, Faculty of Bioscience Engineering, Ghent University, Campus Coupure, Building B, Coupure Links 653, 9000 Ghent, Belgium – sequence: 6 givenname: Roderick surname: Eggert fullname: Eggert, Roderick organization: Division of Economics & Business, Colorado School of Mines, Golden, CO 80401, USA – sequence: 7 givenname: Layla surname: van Ellen fullname: van Ellen, Layla organization: Delft University of Technology, Faculty of Architecture and the Built Environment, Architectural Engineering and Technology, Building 8, Delft University of Technology (TU Delft), Julianalaan 134, 2628BL, The Netherlands – sequence: 8 givenname: Roland surname: Gauss fullname: Gauss, Roland organization: EIT RawMaterials GmbH, Europa Center, Tauentzienstr. 11, 10789 Berlin, Germany – sequence: 9 givenname: James surname: Goddin fullname: Goddin, James organization: Granta Design/ANSYS, Rustat House, 62 Clifton Road, Cambridge, CB1 7EG, UK – sequence: 10 givenname: Komal surname: Habib fullname: Habib, Komal organization: Faculty of Environment, University of Waterloo, 200 University Ave West, Waterloo, Ontario, N2L3G1, Canada – sequence: 11 givenname: Christian surname: Hagelüken fullname: Hagelüken, Christian organization: ESM Foundation, Junkerngasse 56, 3011 Bern, Switzerland – sequence: 12 givenname: Atsufumi surname: Hirohata fullname: Hirohata, Atsufumi organization: Department of Electronic Engineering, University of York, Heslington, York YO10 5DD, United Kingdom – sequence: 13 givenname: Margarethe surname: Hofmann-Amtenbrink fullname: Hofmann-Amtenbrink, Margarethe organization: MatSearch Consulting Hofmann, Chemin Jean Pavillard 14, 1009 Pully, Switzerland – sequence: 14 givenname: Jan surname: Kosmol fullname: Kosmol, Jan organization: German Environment Agency (UBA), Wörlitzer Platz 1, 06844 Dessau-Rosslau, Germany – sequence: 15 givenname: Maïté surname: Le Gleuher fullname: Le Gleuher, Maïté organization: BRGM, 3 avenue C. Guillemin, 45060 Orléans, France – sequence: 16 givenname: Milan surname: Grohol fullname: Grohol, Milan organization: European Commission, DG Internal Market, Industry, Entrepreneurship and SMEs, BREY 07/045, 1049 Brussels, Belgium – sequence: 17 givenname: Anthony surname: Ku fullname: Ku, Anthony organization: NICE America Research, 2091 Stierlin Ct, Mountain View, CA 94043, USA – sequence: 18 givenname: Min-Ha surname: Lee fullname: Lee, Min-Ha organization: Korea Institute of Industrial Technology (KITECH), 156 Gaetbeol-ro, Yeonsu-Gu, 21999 Incheon, Republic of Korea – sequence: 19 givenname: Gang surname: Liu fullname: Liu, Gang organization: SDU Life Cycle Engineering, Department of Chemical Engineering, Biotechnology, and Environmental Technology, University of Southern Denmark, 5230 Odense, Denmark – sequence: 20 givenname: Keisuke surname: Nansai fullname: Nansai, Keisuke organization: National Institute for Environmental Studies, 16-2 Onogawa, Tsukuba 305-8506, Japan – sequence: 21 givenname: Philip surname: Nuss fullname: Nuss, Philip organization: German Environment Agency (UBA), Unit I1.1 - Fundamental Aspects, Sustainability Strategies and Scenarios, Sustainable Resource Use, Woerlitzer Platz 1, 06844 Dessau-Rosslau, Germany – sequence: 22 givenname: David surname: Peck fullname: Peck, David organization: Delft University of Technology, Faculty of Architecture and the Built Environment, Architectural Engineering and Technology, Building 8, Delft University of Technology (TU Delft), Julianalaan 134, 2628BL, The Netherlands – sequence: 23 givenname: Armin surname: Reller fullname: Reller, Armin organization: ESM Foundation, Junkerngasse 56, 3011 Bern, Switzerland – sequence: 24 givenname: Guido surname: Sonnemann fullname: Sonnemann, Guido organization: Univ. Bordeaux, ISM, UMR 5255, F-33400 Talence, France – sequence: 25 givenname: Luis surname: Tercero fullname: Tercero, Luis organization: ESM Foundation, Junkerngasse 56, 3011 Bern, Switzerland – sequence: 26 givenname: Andrea surname: Thorenz fullname: Thorenz, Andrea organization: Institute for Materials Resource Management/Resource Lab, Universitätsstr. 1a, University of Augsburg, 86159 Augsburg, Germany – sequence: 27 givenname: Patrick A. surname: Wäger fullname: Wäger, Patrick A. organization: ESM Foundation, Junkerngasse 56, 3011 Bern, Switzerland
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Keywords	UNDP PGM(s) HHI PPI Strategic raw materials HDI KIRAM/KITECH NIES NSTC OECD Critical raw materials REE(s) UBA SI Empa INSEAD OH VDI EC GE ISO SDU NEDO BRGM LCA Material criticality USGS BGS EU EIT UNEP IRP US DOE Criticality assessment WGI Critical resources iCIRCE IRTC NRC CRM
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Snippet	•Differences in goal and scope of criticality studies result in different outcomes.•Cause-and-effect mechanisms of indicators and outcomes are poorly... The assessment of the criticality of raw materials allows the identification of the likelihood of a supply disruption of a material and the vulnerability of a...
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SubjectTerms	Critical raw materials Critical resources Criticality assessment data quality Earth Sciences experts Material criticality raw materials risk Sciences of the Universe Strategic raw materials uncertainty
Title	A review of methods and data to determine raw material criticality
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