CORDIS provides links to public deliverables and publications of HORIZON projects.
Links to deliverables and publications from FP7 projects, as well as links to some specific result types such as dataset and software, are dynamically retrieved from OpenAIRE .
Deliverables
This research will focus on stakeholders in the value chain (users, designers, management, retailers, suppliers and competitors). How are they likely to respond to building up business models and product portfolios based on CE based value propositions, how can this be anticipated, and how can insights be used for communication and marketing of new business models and portfolios, both internally and externally. The result is envisaged to be a decision framework for ‘acceptance risk’ analysis of CE based value propositions.
ESR/PhD 7: Assessment of user (B2B, B2C) acceptance of circular value propositions (opens in new window)The research will focus on how consumer requirements such as (perceived) convenience for the end user and fulfilling requirements for circularity can be balanced. The research builds on existing insights from fields like design for sustainable behaviour, environmental psychology and social practice theory. It will focus on creating understanding about consumption paradigms that exist on the micro level, and will address locked-in behaviour in terms of what users think is acceptable when acquiring ‘functionality’ from commercial offerings
ESR/PhD 13: Assessment of macro-environmental implications of circular business models (opens in new window)Using case work from other ESRs and other bottom-up case studies, this research will analyse the environmental implications of circular business models at macro level. This will be done using detailed input output databases developed in other FP/H2020 projects (EXIOBASE), adapting input and output coefficients of sectors, and applying rebalancing procedures, and if possible, dynamic models to create an understanding of the macro economic and environmental impacts when a wide implementation of circular business models will be realised. This PhD will focus on the potential of biotic materials and static IO models
ESR/PhD 10: Tested approaches and manuals with design strategies, methods and tools based on user and business requirements (opens in new window)The research in this task focuses on searching for strategies, methods and tools that fit the new solutions that circular economy provides. Case studies at companies and their users will be conducted to understand their ways of working and requirements on circular solutions and design methods/tools. Based on this research new design strategies will be developed. This research will propose a methodology (in line with Task 4.2 and 4.3) to be used by companies supported by guidelines and tools for a new design strategy approach related to circular economy principles
ESR/PhD 2: Organisational change roadmap for companies embarking on CE business models (opens in new window)The project will analyse the organisational development from a product focused to a service focused business model. The transition involves substantial cultural, structural and strategic changes across the organisation. The task is focused on identifying the organisational pathways and evaluating the experiences of product-service transitions to develop a guiding framework for organisational product-service transformation.
ESR/PhD 8: Decision making framework that facilitates the identification, justification and marketing of ciruclar value propositions for companies (opens in new window)The research would focus on the priorities, considerations and requirements that would feed into product portfolio and business model development, based on circular rather than linear value propositions. The research will create a decision making framework that facilitates the identification, justification and marketing of circular based PSSs to encourage sustainable consumption
ESR/PhD 4: Circular economy based reverse logistics network design methodology (opens in new window)This PhD project focuses on and analyse the roles of reverse logistics as a critical enabler of an effective and efficient PSS supply chain. It provides clear strategies for optimising the reverse logistics processes and functions, by embedding the principles of circular economy, thus allowing companies to grow the sustainable PSS businesses. Desk-based research will be carried out to identify from the body of literature crucial circular economy principles. System development and experimental design will be followed to formulate the desigbn methodology and use cases
ESR/PhD 1: Circular business model design methodology, tested with companies (opens in new window)Exploring how companies can create new forms of value and achieve scale while transitioning to a circular, PSS based business model - the linkages between product and business model design
ESR/PhD 6: Tools and demonstrators to specify a recovery solutions (during the design process and/or during the lifetime) (opens in new window)This PhD project focuses on defining the mechanisms of an efficient product recovery management system to collect recovered material and components from products taking into account product characteristics, end of life processes and business models, in order to optimise the end of use scenarios for products and to maximize the material/value recovered. In conjunction with ESR 5, ESR 6 will propose technical specifications and guidelines for recovery strategies management to be used by companies to formulate end-of-life processes and circular business models. Methods include the creation and formalization of knowledge about potential recovery value chains. It will include technical knowledge (assembly/disassembly, upgrading, additive manufacturing, etc.), but also knowledge related to the value chain to be put in place (organization, legislation, etc.) and definition of the mechanisms to model and optimise the value related to recovery scenarios from an economic, technical and environmental point of view.
ESR/PhD 15: Analysis of effectiveness of policy packages that facilitate the circular economy (opens in new window)Analysing the effectiveness of policies for resource efficiency at the micro level. This means that analysis of interplay between policies and companies’ business activities will be conducted in the operational level. Long-term flows of materials from products and services as well as their related regulations will be analysed using System Dynamics (SD) technique. The analysis will be based on a real-life case chosen from industrial partners. After obtaining feedback from the industrial partners to the simulation results, this project delivers insights about policies with high potential for resource efficiency.
ESR/PhD 5: Best practices and operational strategies for maximising retained values of servitised products (opens in new window)Provision of servitised products requires a well-managed logistics network to maximise the retained values of servitised products and to sustain its circulation. This PhD project will focus on collating best practices combined with the applications of modelling techniques, e.g. agent-based simulation, to come up with a set of operational strategies that companies can adopt to configure a circular economy supply chain that ultimately prolongs the life of the products in circulation, hence maximising its retained values. Methodologies include multiple exploratory case studies will be conducted to better understand the enablers and inhibitors of the circular economy supply chain and simulation and modelling of the actors within the supply chain will be conducted to come up with a set of operational strategies for the supply chain
ESR/PhD 3: Model capturing how digital strategies can create added value in a CE context (opens in new window)The project will analyse the role of digital resources as enablers of product-service business models. Technology developments related to the Internet of Things and Big Data analysis create substantial opportunities to advance product-service business models and provide organisations with additional business value. The task is focused on developing a model that captures the digital strategies employed by organisations in a product service context and explains the contributions these strategies create
ESR/PhD 14: Assessment of macro-economic implications of circular business models (opens in new window)Using case work from other ESRs and other bottom-up case studies, this research will analyse the implications of circular business model at macro level. This will be done using detailed input output databases developed in other FP/H2020 projects (EXIOBASE), adapting input and output coefficients of sectors, and applying rebalancing procedures, and if possible, dynamic models to create an understanding of the macro economic and environmental impacts when a wide implementation of circular business models will be realised. This PhD will focus on abiotic and energy materials and will endeavour to expand EXIOBASE with a dynamic model. The two PhDs together will give good insight what financial and environmental benefits shifts to circularity will have on the long term. As can be seen ESR 13 and 14 will closely interact.
ESR/PhD 12: Validated design methodologies for optimal circular implementation of advanced technologies (opens in new window)The contribution of new technologies to strong circular propositions will be investigated. Case studies will be used to demonstrate the implementation of technologies like internet of things to data management in a circular solution context and additive manufacturing in relation to personalized design and remanufacturing. This will lead to validated design methodologies for optimal circular implementation of advanced technologies
ESR/PhD 11: Design methodologies based on company demonstrators (opens in new window)The objective is to develop design methodologies based on circular solution demonstrators. The demonstrators will be developed based on different circular scenarios including product, services, maintenance, remanufacturing and material recycling in different ways. The demonstrators will be used in a bottom-up approach at companies to be able to generate practical design methodologies. Case studies will be performed with companies involved in the project along with companies in their networks. The case studies will include - Study theory on how to develop design methodologies based on demonstrators - Analyse case company to understand what circular scenarios that could be realised - Study other circular solutions used by similar companies in the same and other industry sectors. - Generate demonstrator based on the circular solutions - Develop general design methodologies based on the results of the demonstrators
Final progress report (opens in new window)A final report will give an overview of how the action was run and show the outcomes of the action.
A public website will be published with information and progress on the action.
• 3 days capita selecta design perspective (building on courses at particularly TUD and LIU) • 2 days structured exchange between groups of ESRs about draft 3rd and 4th papers for their respective theses (facilitated by all academic participants)
Summer/Winterschool 2: Capita selecta business perspective and exchange (opens in new window)• 3 days capita selecta business perspective (building on courses at particularly Cranfield, Aston Business school, with additional input of Leiden University and TUD) • 2 days structured exchange between groups of ESRs about first outline review paper for their respective theses (facilitated by all academic participants)
Supervisory Board installed (opens in new window)A supervisory board of the network will be installed, to be consulted for advice
Summer/Winter school 6: Capita selecta system perspective and exchange (opens in new window)• 3 days capita selecta systems perspective (based on available courses at particularly UL and TUD) • 2 days structured exchange between groups of ESRs about draft theses (facilitated by all academic participants)
Summer/Winter school 4: Capita selecta user perspective and exchange (opens in new window)• 3 days capita selecta user perspective (building on courses at particularly NTNU, TUD and University of Grenoble) • 2 days structured exchange between groups of ESRs about draft second papers and outline 3rd and 4th papers for their respective theses (facilitated by all academic participants)
Summer/Winterschool 1: Introduction (opens in new window)1 day general introduction to the ETN and its philosophy (Leiden Univ.) • 4 times 0.5 day introductions into the research areas (business models, product design, users, system perspective – by leaders WP2, 3, 4, 5 respectively) • 2 days structured exchange between groups of ESRs about research plan, methodology, etc. (facilitated by all academic participants)
Final Conference: Overall integration and exchange (opens in new window)• 1 days interactive sessions that must lead to overall conclusions of the ETN, including an outline for an overarching final paper of the ETN (facilitated by all academic participants). • 1 day external dissemination event
Summer/Winter school 3: Capita selecta supply chain perspective and exchange (opens in new window)• 3 days capita selecta business perspective (building on courses at particularly Cranfield, Aston Business school, with additional input of Leiden University and TUD) • 2 days structured exchange between groups of ESRs about draft first papers and outline 2nd and 3rd papers for their respective theses (facilitated by all academic participants)
Publications
Author(s):
Glenn A. Aguilar-Hernandez, Carlos Pablo Sigüenza-Sanchez, Franco Donati, Stefano Merciai, Jannick Schmidt, João F.D. Rodrigues, Arnold Tukker
Published in:
Resources, Conservation and Recycling, Issue 151, 2019, Page(s) 104452, ISSN 0921-3449
Publisher:
Elsevier BV
DOI:
10.1016/j.resconrec.2019.104452
Author(s):
Jan Konietzko, Brian Baldassarre, Phil Brown, Nancy Bocken, Erik Jan Hultink
Published in:
Journal of Cleaner Production, Issue 277, 2020, Page(s) 122596, ISSN 0959-6526
Publisher:
Elsevier BV
DOI:
10.1016/j.jclepro.2020.122596
Author(s):
Yohannes A. Alamerew, Marianna Lena Kambanou, Tomohiko Sakao, Daniel Brissaud
Published in:
Sustainability, Issue 12/12, 2020, Page(s) 5129, ISSN 2071-1050
Publisher:
MDPI Open Access Publishing
DOI:
10.3390/su12125129
Author(s):
Juana Camacho-Otero, Casper Boks, Ida Nilstad Pettersen
Published in:
Journal of Cleaner Production, Issue 231, 2019, Page(s) 928-939, ISSN 0959-6526
Publisher:
Elsevier BV
DOI:
10.1016/j.jclepro.2019.05.162
Author(s):
Tomohiko Sakao, Raphael Wasserbaur, Fabrice Mathieux
Published in:
CIRP Annals, Issue 68/1, 2019, Page(s) 33-36, ISSN 0007-8506
Publisher:
Hallwag AG
DOI:
10.1016/j.cirp.2019.04.084
Author(s):
Raphael Wasserbaur, Tomohiko Sakao, Maria Ljunggren Söderman, Andrius Plepys, Carl Dalhammar
Published in:
Resources, Conservation and Recycling, Issue 158, 2020, Page(s) 104780, ISSN 0921-3449
Publisher:
Elsevier BV
DOI:
10.1016/j.resconrec.2020.104780
Author(s):
Raphael Wasserbaur, Tomohiko Sakao
Published in:
Sustainability, Issue 12/19, 2020, Page(s) 8104, ISSN 2071-1050
Publisher:
MDPI Open Access Publishing
DOI:
10.3390/su12198104
Author(s):
Carl Kühl, Michael Bourlakis, Emel Aktas, Heather Skipworth
Published in:
Journal of Enterprise Information Management, Issue 33/4, 2019, Page(s) 703-728, ISSN 1741-0398
Publisher:
Emerald Group Publishing Ltd.
DOI:
10.1108/jeim-01-2019-0024
Author(s):
Emilia Ingemarsdotter, Ella Jamsin, Gerd Kortuem, Ruud Balkenende
Published in:
Sustainability, Issue 11/20, 2019, Page(s) 5689, ISSN 2071-1050
Publisher:
MDPI Open Access Publishing
DOI:
10.3390/su11205689
Author(s):
Patricia Carolina Garcia Martin, Andreas Schroeder, Ali Ziaee Bigdeli
Published in:
Journal of Business Research, Issue 104, 2019, Page(s) 438-449, ISSN 0148-2963
Publisher:
Elsevier BV
DOI:
10.1016/j.jbusres.2019.04.010
Author(s):
V.S.C. Tunn, E.A. van den Hende, N.M.P. Bocken, J.P.L. Schoormans
Published in:
Resources, Conservation and Recycling, Issue 162, 2020, Page(s) 105045, ISSN 0921-3449
Publisher:
Elsevier BV
DOI:
10.1016/j.resconrec.2020.105045
Author(s):
V. S. C. Tunn, L. Ackermann
Published in:
Proceedings of the Design Society: DESIGN Conference, Issue 1, 2020, Page(s) 2167-2176, ISSN 2633-7762
Publisher:
Cambridge University Press
DOI:
10.1017/dsd.2020.80
Author(s):
Jan Konietzko, Nancy Bocken and Erik Jan Hultink
Published in:
Sustainability, 2020, ISSN 2071-1050
Publisher:
MDPI Open Access Publishing
DOI:
10.3390/su12010417
Author(s):
Yohannes A. Alamerew, Daniel Brissaud
Published in:
Journal of Remanufacturing, Issue 9/3, 2019, Page(s) 169-185, ISSN 2210-464X
Publisher:
Springer Verlag
DOI:
10.1007/s13243-018-0064-8
Author(s):
Tomasz Stec, Peggy Zwolinski
Published in:
Procedia CIRP, Issue 69, 2018, Page(s) 805-809, ISSN 2212-8271
Publisher:
Elsevier
DOI:
10.1016/j.procir.2017.11.112
Author(s):
Juana Camacho‐Otero, Ida Nilstad Pettersen, Casper Boks
Published in:
Sustainable Development, Issue 28/1, 2019, Page(s) 279-293, ISSN 0968-0802
Publisher:
John Wiley & Sons Inc.
DOI:
10.1002/sd.2002
Author(s):
Jan Konietzko, Nancy Bocken, Erik Jan Hultink
Published in:
Journal of Cleaner Production, Issue 253, 2020, Page(s) 119942, ISSN 0959-6526
Publisher:
Elsevier BV
DOI:
10.1016/j.jclepro.2019.119942
Author(s):
Emilia Ingemarsdotter, Ella Jamsin, Ruud Balkenende
Published in:
Resources, Conservation and Recycling, Issue 162, 2020, Page(s) 105047, ISSN 0921-3449
Publisher:
Elsevier BV
DOI:
10.1016/j.resconrec.2020.105047
Author(s):
Tobias Widmer, Benny Tjahjono, Michael Bourlakis
Published in:
Procedia CIRP, Issue 73, 2018, Page(s) 142-147, ISSN 2212-8271
Publisher:
Elsevier
DOI:
10.1016/j.procir.2018.03.329
Author(s):
Lucy Chamberlin, Åsa Callmer
Published in:
Journal of Sustainability Research, Issue 3/1, 2021, ISSN 2021-2100
Publisher:
Hapres
DOI:
10.20900/jsr20210007
Author(s):
Carl Kühl, Benny Tjahjono, Michael Bourlakis, Emel Aktas
Published in:
Procedia CIRP, Issue 73, 2018, Page(s) 124-129, ISSN 2212-8271
Publisher:
Elsevier
DOI:
10.1016/j.procir.2018.03.303
Author(s):
Raphael Wasserbaur, Tomohiko Sakao, Mattias Lindahl
Published in:
Procedia CIRP, Issue 83, 2019, Page(s) 32-37, ISSN 2212-8271
Publisher:
Elsevier
DOI:
10.1016/j.procir.2019.02.136
Author(s):
Juana Camacho-Otero, Casper Boks, Ida Pettersen
Published in:
Sustainability, Issue 10/8, 2018, Page(s) 2758, ISSN 2071-1050
Publisher:
MDPI Open Access Publishing
DOI:
10.3390/su10082758
Author(s):
Lucy Chamberlin, Casper Boks
Published in:
Sustainability, Issue 10/6, 2018, Page(s) 2070, ISSN 2071-1050
Publisher:
MDPI Open Access Publishing
DOI:
10.3390/su10062070
Author(s):
Glenn A. Aguilar-Hernandez, Carlos Pablo Sigüenza-Sanchez, Franco Donati, João F. D. Rodrigues, Arnold Tukker
Published in:
Journal of Economic Structures, Issue 7/1, 2018, ISSN 2193-2409
Publisher:
SpringerOpen
DOI:
10.1186/s40008-018-0113-3
Author(s):
Yohannes A. Alamerew, Daniel Brissaud
Published in:
Journal of Remanufacturing, 2018, ISSN 2210-464X
Publisher:
Springer
Author(s):
Glenn A. Aguilar-Hernandez, João F. Dias Rodrigues, Arnold Tukker
Published in:
Journal of Cleaner Production, Issue 278, 2021, Page(s) 123421, ISSN 0959-6526
Publisher:
Elsevier BV
DOI:
10.1016/j.jclepro.2020.123421
Author(s):
Carlos Pablo Sigüenza, Stefano Cucurachi, Arnold Tukker
Published in:
Sustainable Production and Consumption, Issue 26, 2021, Page(s) 1084-1098, ISSN 2352-5509
Publisher:
Elsevier
DOI:
10.1016/j.spc.2021.01.011
Author(s):
Jekaterina Dmitrijeva, Andreas Schroeder, Ali Ziaee Bigdeli, Tim Baines
Published in:
Production Planning & Control, Issue 31/13, 2020, Page(s) 1077-1097, ISSN 0953-7287
Publisher:
Taylor & Francis
DOI:
10.1080/09537287.2019.1699195
Author(s):
Raphael Wasserbaur, Tomohiko Sakao
Published in:
Procedia CIRP, Issue 73, 2018, Page(s) 130-136, ISSN 2212-8271
Publisher:
Elsevier
DOI:
10.1016/j.procir.2018.04.004
Author(s):
Carlos Pablo Sigüenza, Bernhard Steubing, Arnold Tukker, Glenn A. Aguilar‐Hernández
Published in:
Journal of Industrial Ecology, 2020, ISSN 1088-1980
Publisher:
MIT Press
DOI:
10.1111/jiec.13072
Author(s):
V.S.C. Tunn, N.M.P. Bocken, E.A. van den Hende, J.P.L. Schoormans
Published in:
Journal of Cleaner Production, Issue 212, 2019, Page(s) 324-333, ISSN 0959-6526
Publisher:
Elsevier BV
DOI:
10.1016/j.jclepro.2018.11.290
Author(s):
Vivian S. C. Tunn, Richard Fokker, Koen A. Luijkx, Silke A. M. De Jong, Jan P. L. Schoormans
Published in:
Sustainability, Issue 11/1, 2019, Page(s) 274, ISSN 2071-1050
Publisher:
MDPI Open Access Publishing
DOI:
10.3390/su11010274
Author(s):
Johannes Daae, Lucy Chamberlin, Casper Boks
Published in:
The Design Journal, Issue 21/4, 2018, Page(s) 521-541, ISSN 1460-6925
Publisher:
Ashgate Publishing Ltd.
DOI:
10.1080/14606925.2018.1468003
Author(s):
Beatriz Pozo Arcos, Conny Bakker, Bas Flipsen, Ruud Balkenende
Published in:
Journal of Cleaner Production, Issue 265, 2020, Page(s) 121812, ISSN 0959-6526
Publisher:
Elsevier BV
DOI:
10.1016/j.jclepro.2020.121812
Author(s):
Jekaterina Dmitrijeva, Ali Ziaee Bigdeli, Andreas Schroeder, Tim Baines
Published in:
2018 Proceedings of the 25th Annual EurOMA Conference, Budapest, Hungary, 2018
Publisher:
EurOMA
Author(s):
Ingrid Kongelf, Juana Camacho-Otero
Published in:
Balancing Innovation and operation, 2020, ISBN 9781912254088
Publisher:
The Design Society
DOI:
10.35199/norddesign2020.53
Author(s):
Tobias Widmer, Daniel Prior
Published in:
2019
Publisher:
ResearchGate
Author(s):
Ali Ziaee Bigdeli, Jekaterina Dmitrijeva, Andreas Schroeder, Tim Baines
Published in:
2018 Proceedings of the 25th Annual EurOMA Conference, Budapest, Hungary, 2018
Publisher:
EurOMA
Author(s):
Patricia Carolina Garcia Martin, Andreas Schroeder, Ali Ziaee Bigdeli, Tim Baines
Published in:
2017 Proceedings of the 24th Annual EurOMA Conference, Edinbourgh, UK, 2017
Publisher:
EurOMA Conference
Author(s):
Patricia Carolina Garcia Martin, Andreas Schroeder, Ali Ziaee Bigdeli, Tim Baines
Published in:
2018 Proceedings of the 25th Annual EurOMA Conference, Budapest, Hungary, 2018
Publisher:
EurOMA Conference
Author(s):
Camacho, J., Pettersen, I., Boks, C.
Published in:
International Sustainable Development Research Society Conference, June 2018, Messina, Italy, 2017
Publisher:
Sustainable Development Research Society
Author(s):
Yohannes Alamerew, Daniel Brissaud
Published in:
3rd International Conference on Remanufacturing-ICoR17, 2017
Publisher:
Linkoping University
Author(s):
Yohannes Alamerew, Daniel Brissaud
Published in:
Procedia CIRP Life Cycle Engineering, 2018
Publisher:
Elsevier
Author(s):
Stec Tomek, Zwolinski Peggy
Published in:
Procedia CIRP Life Cycle Engineering, 2018, Page(s) 805–809
Publisher:
Elsevier
Author(s):
Beatriz Pozo Arcos, A. Ruud Balkenende, Conny A. Bakker, Erik Sundin
Published in:
Proceedings of the DESIGN 2018 15th International Design Conference, 2018, Page(s) 2727-2738, ISBN 978-953-7738-59-4
Publisher:
Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, Croatia; The Design Society, Glasgow, UK
DOI:
10.21278/idc.2018.0214
Author(s):
Alamerew, Yohannes Admassu
Published in:
"Physics and Society [physics.soc-ph]. Université Grenoble Alpes [2020-..], 2020. English. ⟨NNT : 2020GRALI022⟩", Issue 2, 2020
Publisher:
TEL
Author(s):
Camacho-Otero, J.
Published in:
2020, ISBN 978-82-326-4706-4
Publisher:
NTNU
DOI:
10.13140/rg.2.2.20258.86726
Author(s):
Juana Camacho-Otero, Vivian S.C. Tunn, Lucy Chamberlin, Casper Boks
Published in:
Handbook of the Circular Economy, 2020, Page(s) 74-87, ISBN 9781788972727
Publisher:
Edward Elgar Publishing
DOI:
10.4337/9781788972727.00014
Author(s):
Daae, Johannes; Chamberlin, Lucy; Boks, Casper
Published in:
Product Lifetimes And The Environment 2017 - Conference Proceedings, 2017, Page(s) 98-101
Publisher:
IOS Press
DOI:
10.3233/978-1-61499-820-4-98
Author(s):
Wasserbaur, R.
Published in:
2021, ISBN 9789179297114
Publisher:
Elsevier
DOI:
10.3384/diss.diva-171908
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