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Publications

Education Ioannou, O., & Klein, T. (2022). Closing the Knowledge Gap on Circularity: the CBE Hub Lifelong Education Programmes . In CLIMA 2022 The 14th REHVA HVAC World Congress (pp. 1-7) Ioannou, O., Geldermans, B., Klein, T., & Wandl, A. (2022). Planning for Change: A Methodological Framework for Integrating Circularity at TU Delft's Faculty of Architecture and the Built Environment Curricula . Serbian Architectural Journal, 12 (3), 234-269. Circular building materials, products and business models Azcarate Aguerre, J. F., den Heijer, A. C., Arkesteijn, M. H., Vergara d'Alençon, L. M., & Klein, T. (2023). Facades-as-a-Service: Systemic managerial, financial, and governance innovation to enable a circular economy for buildings. Lessons learnt from a full-scale pilot project in the Netherlands . Frontiers in Built Environment, 9 , [1084078]. Nußholz, J., Çetin, S., Eberhardt, L., De Wolf, C., & Bocken, N. (2023). From circular strategies to actions: 65 European circular building cases and their decarbonisation potential . Resources, Conservation and Recycling Advances, 17 , [200130]. Ding, L., Wang, T., Chan, P W.(2023) Forward and reverse logistics for circular economy in construction: A systematic literature review , Journal of Cleaner Production, Volume 388, 2023, 135981, ISSN 0959-6526. Gordon, M., Batallé, A., De Wolf, C., Sollazzo, A., Dubor, A., & Wang, T. (2023). Automating building element detection for deconstruction planning and material reuse: A case study . Automation in Construction, 146, [104697]. Çetin, S., Gruis, V. H., & Straub, A. (2022). Digitalization for a circular economy in the building industry: Multiple-case study of Dutch social housing organizations . Resources, Conservation and Recycling Advances, 15 , 1-15. [200110]. Çetin, S., Gruis, V. H., & Straub, A. (2022). Digitalization for a circular economy in the building industry: Multiple-case study of Dutch social housing organizations. Resources, Conservation and Recycling Advances , 15 , 1-15. [200110]. Çetin, S., Rukanova, B. D., De Wolf, C., Gruis, V. H., & Tan, Y. (2022). A Conceptual Framework for a Digital Circular Built Environment: The Data Pipeline, Passport Generator and Passport Pool . In S. Shahnoori, & M. Mohammadi (Eds.), The state of circularity: The content of "the 2nd International Conference on Circular Systems for the Built Environment" (pp. 97-106). Technische Universiteit Eindhoven. Çetin, S., Straub, A., & Gruis, V. H. (2022). How Can Digital Technologies Support the Circular Transition of Social Housing Organizations? Empirical Evidence from Two Cases. In The state of circularity: : The content of "the 2nd International Conference on Circular Systems for the Built Environment" (pp. 210-224). Eindhoven University of Technology. Sacranie, H., & Çetin, S. (Accepted/In press). Towards a Socially Inclusive Circular Economy: A Study of Tenant Engagement in European Social Housing Organisations . In Social and Cultural Aspects of the Circular Economy : Toward Solidarity and Inclusivity Routledge - Taylor & Francis Group. Oorschot, L. M., & Asselbergs, M. F. (2021). New Housing Concepts: Modular, Circular, Biobased, Reproducible, and Affordable . Sustainability, 13 (24), [13772]. Çetin, S., & Vervoort, J. (2021). Potentiële stimulerende digitale technologieën voor circulaire installatietechniek . TVVL Magazine, 2021 (5), 32-37. Kooter, E., van Uden, M., van Marrewijk, A., Wamelink, H., van Bueren, E., & Heurkens, E. (2021). Sustainability transition through dynamics of circular construction projects . Sustainability (Switzerland), 13 (21), [12101]. Van den Berghe, K. B. J., & Verhagen, T. (2021). Making it Concrete: Analysing the Role of Concrete Plants’ Locations for Circular City Policy Goals . Frontiers in Built Environment , 7 , [748842]. Çetin, S., De Wolf, C. E. L., & Bocken, N. (2021). Circular Digital Built Environment: An Emerging Framework . Sustainability, 13 (11), [6348]. Çetin, S., Gruis, V. H., & Straub, A. (2021). Towards Circular Social Housing: An Exploration of Practices, Barriers, and Enablers . Sustainability (Switzerland) , 13 (4), [2100]. Geldermans, B., Tavakolly, N., & Udding, H-J. (2020). Circular Building Design for the Infill Domain: Materialisation, and Value Network study of the Niaga ECOR Panel innovation . IOP Conference Series: Earth and Environmental Science, 588 (1.13), [042035]. Dubbeling, D. J. (2020). Keten circulair bouwen voorlopig nog niet gesloten: Groeiende inzet ondanks beperkingen . Bouwmarkt, 60 (3), 5-7. Geldermans, B. (2020). Securing Healthy Circular Material Flows In The Built Environment: The Case Of Indoor Partitioning . A+BE | Architecture and the Built Environment (PhD thesis). Heesbeen, C. & Prieto Hoces, A. (2020). Archetypical CBMs in Construction and a Translation to Industrialized Manufacture . Sustainability, 12(4), [1572] Jansen, B., van Stijn, A., Gruis, V., & van Bortel, G. (2020). A circular economy life cycle costing model (CE-LCC) for building components . Resources, Conservation and Recycling, 161, [104857]. Medici, P., van den Dobbelsteen, A. & Peck, D. (2020). Safety and Health Concerns for the Users of a Playground, Built with Reused Rotor Blades from a Dismantled Wind Turbine . Sustainability, 12(9), [3626] van Stijn, A., & Gruis, V. H. (2019). Circular Housing Retrofit Strategies and Solutions: Towards Modular, Mass-Customised and 'Cyclable' Retrofit Products . IOP Conference Series: Earth and Environmental Science, 290(1), [012035]. Van Stijn, A., & Gruis, V. (2019). Towards a circular built environment: An integral design tool for circular building components . Smart and Sustainable Built Environment. Jensen, J. P., Prendeville, S. M., Bocken, N. M. P., & Peck, D. (2019). Creating sustainable value through remanufacturing: Three industry cases . Journal of Cleaner Production, 218, 304-314. Geldermans, B., & van der Werf, F. (2018). The relation between infill practice and circular building . RuMoer: Periodical for the Building Technologist, (68. Smart Envelopes), 38-41. Azcarate Aguerre, J., Klein, T., den Heijer, A., Vrijhoef, R., Ploeger, H., & Prins, M. (2018). Façade Leasing: Drivers and barriers to the delivery of integrated Façades-as-a-Service . Real Estate Research Quarterly, 17(3), 11-22. Azcarate Aguerre, J., Klein, T., den Heijer, A., Prins, M., Vrijhoef, R., & Ploeger, H. (2017). Facade Leasing Upscaler Preparation Project: Overcoming the barriers towards the implementation of a Circular business model for leasable facades . Delft University of Technology. (report) Azcarate Aguerre, J., den Heijer, A., & Klein, T. (2017). Integrated Facades as a Product-Service System: Business process innovation to accelerate integral product implementation . Journal of Facade Design and Engineering, 6(1), 41-56. van den Brink, R., Prins, M., Straub, A., & Ploeger, H. (2017). Finding the right incentives; circular business models for the construction industry . In Proceedings of the International Research Conference 2017: Shaping tomorrow's built environment. Azcarate Aguerre, J., Klein, T., & den Heijer, A. (2016). A business-oriented roadmap towards the implementation of circular integrated facades . In P. Bertoldi (Ed.), 9th International Conference Improving Energy Efficiency in Commercial Buildings and Smart Communities (pp. 463-473). JRC Science Hub. Geldermans, B. (2016). Design for Change and Circularity: Accommodating Circular Material & Product Flows in Construction . Energy Procedia, 96, 301-311. Tukker, A., van Bueren, E., van Raak, R., & Spork, C. (2016). Towards a Circular Products Initiative in the EU : Report by the Leiden-Delft-Erasmus Centre for Sustainability. Leiden: Leiden-Delft-Erasmus Centre for Sustainability. (report) Circular landscapes and cityscapes Bucci Ancapi, Felipe, Van den Berghe, Karel, & van Bueren, Ellen (2024). Circular city policy coherence in Greater London . Cities, 155 , 105423. Van den Berghe, Karel, Tsui, Tanya, Nefs, Merten, Iliopoulos, Giorgios, Papadimitriou, Chrysanthi, Fitzgerald, Tom, Bonte, Thomas, & Arrindell, Aryzo (2024). Spatial planning of the circular economy in uncertain times: Focusing on the changing relation between port, city, and hinterland. Maritime Transport Research, 7 , 100120. Van den Berghe, K. (2024). Bedrijvigheid en wonen: Van Central Business naar Central (re)manufacturing district? In H. Remøy, G. van Bortel, E. Heurkens, & R. van Venrooij (Eds.), Transformatie naar Woningen (pp. 231-241). Bouwkunde TU Delft. Tsui, T. P. Y., Wuyts, W., & Van den Berghe, K. B. J. (2024). Geographic Information Systems for Circular Cities and Regions . In A Circular Built Environment in the Digital Age (pp. 21). Springer. van Bueren, E., Buizer, M., Van den Berghe, K. B. J., Heijkers, B., Meijs, L., Verhagen, T., Dittrich, K., & Sprecher, B. (2022). Perspectieven op circulaire gebiedsontwikkeling: Lessen uit de Binckhorst en andere gebiedsontwikkelingen . Accelerating the Circular Economy Zuid-Holland (ACCEZ). Van den Berghe, K. B. J. (2021). De paradox van circulariteit . Ruimte: vakblad van de Vlaamse Vereniging voor Ruimte en Planning (Brussel), 49(141), 52-55. Amenta, L., Attademo, A., Remøy, H., Berruti, G., Cerreta, M., Formato, E., ... Russo, M. (2019). Managing the Transition towards Circular Metabolism: Living Labs as a Co-Creation Approach . Urban Planning, 4(3), 5-18. Arciniegas Lopez, G., Šileryte, R., Dabrowski, M., Wandl, A., Dukai, B., Bohnet, M., & Gutsche, J-M. (2019). A Geodesign Decision Support Environment for Integrating Management of Resource Flows in Spatial Planning . Urban Planning, 4(3), 32-51. Van den Berghe, K., & Vos, M. (2019). Circular Area Design or Circular Area Functioning? A Discourse-Institutional Analysis of Circular Area Developments in Amsterdam and Utrecht, The Netherlands . Sustainability, 11(18), [4875]. Amenta, L., & van Timmeren, A. (2018). Beyond wastescapes: Towards circular landscapes. addressing the spatial dimension of circularity through the regeneration of wastescapes . Sustainability, 10(12), [4740]. Geldermans, B., Wandl, A., Steenmeijer, M., Furlan, C., Streefland, T., Formato, E., ... Taelman, S. E. (2018). REPAiR: REsource Management in Peri-urban AReas: Going Beyond Urban Metabolism: D3.3 Process model for the two pilot cases: Amsterdam, the Netherlands & Naples, Italy . Delft University of Technology. (Report) Van der Leer, J., van Timmeren, A., & Wandl, A. (2018). Social-Ecological-Technical systems in urban planning for a circular economy: an opportunity for horizontal integration . Architectural Science Review, 61(5), 298-304. Ouillon, S., Dibb, S., & Peck, D. (2017). Understanding the societal, entrepreneurship and economic aspects of developing a Circular Economy in cities: a case study of Coventry in the UK . In C. A. Bakker, & R. Mugge (Eds.), PLATE: Product Lifetimes And The Environment (pp. 329-333). (Research in Design Series; Vol. 9). IOS Press. Sanders, F., & van Timmeren, A. (2018). Dutch circular cities by the energy of people: Post PhD best practices research on Amsterdam and Rotterdam citizen initiatives. In AMPS Conference proceedings series (AMPS Conference proceedings series). Architecture and design Hamida, M. B., & Gruis, V. (2024). Circulaire en aanpasbare gebouwtransformatie: Een overzicht van strategieën . In H. Remøy, G. van Bortel, E. Heurkens, & R. van Venrooij (Eds.), Transformatie naar Woningen (pp. 207-218). Bouwkunde TU Delft. van der Zwaag, M., Wang, T., Bakker, H., van Nederveen, S., Schuurman, A. C. B., & Bosma, D. (2023). Evaluating building circularity in the early design phase . Automation in Construction, 152 , [104941]. Medici, P. (2022). Autonomous Houses and Architecture of Cybernetics in the 1970s: Towards Limits and Undeveloped Potentials of the Sustainable . Sustainability, 14 (10), [6073]. Medici, P. (2022). The Secondary Use Group: Unlocking Waste as a Common Pool of Resources in the 1970s’ . In G. Bruyns, & S. Kousoulas (Eds.), Design Commons: Practices, Processes and Crossovers (pp. 183-205). (Design Research Foundations). Springer. Hamida, M. B., Jylhä, T., Remøy, H., & Gruis, V. (2022). Circular building adaptability and its determinants: A literature review . International Journal of Building Pathology and Adaptation . Dubbeling, D. J. (2020). Circulair bouwen raakt ingeburgerd: Rijksvastgoedbedrijf en Rijkswaterstaat in 2030 circulaire bouwopdrachtgevers . Bouwmarkt, 60 (2), 5-7. Geldermans, B., Tenpierik, M., & Luscuere, P. (2019). Circular and Flexible Indoor Partitioning: A Design Conceptualization of Innovative Materials and Value Chains . Buildings, 9(9), [194]. Geldermans, B., Tenpierik, M., & Luscuere, P. (2019). Circular and Flexible Infill Concepts: Integration of the Residential User Perspective . Sustainability, 11(1), [261]. Geldermans, B., Tenpierik, M., & Luscuere, P. (2019). Human Health and Well-Being in Relation to Circular and Flexible Infill Design: Assessment Criteria on the Operational Level . Sustainability, 11(7), [1984]. Kyrö, R., Jylhä, T., & Peltokorpi, A. (2019). Embodying circularity through usable relocatable modular buildings . Facilities, 37(1-2), 75-90. Wandl, A., Balz, V., Qu, L., Furlan, C., Arciniegas Lopez, G., & Hackauf, U. (2019). The Circular Economy Concept in Design Education: Enhancing Understanding and Innovation by Means of Situated Learning . Urban Planning, 4(3), 63-75. Zairul, M., Wamelink, H., Gruis, V. H., Heintz, J. L., & Nasir, N. M. (2018). The circular economy approach in a flexible housing project: A proposal for affordable housing solution in Malaysia . International Journal of Engineering and Technology, 7(4.28), 287-293. Resource management and policy Bucci Ancapi, F. E., Van den Berghe, K. B. J., & van Bueren, E. (2022). The circular built environment toolbox: A systematic literature review of policy instruments . Journal of Cleaner Production, 373, [133918]. Arciniegas, G., Wandl, A., Mazur, M., & Mazurek, D. (2022). Eliciting Information for Developing a Circular Economy in the Amsterdam Metropolitan Area . In L. Amenta, M. Russo, & A. van Timmeren (Eds.), Regenerative Territories: Dimensions of Circularity for Healthy Metabolisms (pp. 175-192). (GeoJournal Library; Vol. 128). Springer. Sileryte, R., Sabbe, A., Bouzas, V., Meister, K., Wandl, A., & van Timmeren, A. (2022). European Waste Statistics data for a Circular Economy Monitor: Opportunities and limitations from the Amsterdam Metropolitan Region . J ournal of Cleaner Production, 358 , [131767]. Furlan, C., Wandl, A., Cavalieri, C., & Unceta, P. M. (2022). Territorialising Circularity . In L. Amenta, M. Russo, & A. van Timmeren (Eds.), Regenerative Territories: Dimensions of Circularity for Healthy Metabolisms (pp. 31-49). (GeoJournal Library; Vol. 128). Springer. Bucci Ancapi, F. E., van Bueren, E., & Van den Berghe, K. B. J. (2022). Circular Cities . In The Palgrave Encyclopedia of Urban and Regional Futures (pp. 1-12). Palgrave McMillan. Haezendonck, E., & Van den Berghe, K. (2020). Patterns of Circular Transition: What Is the Circular Economy Maturity of Belgian Ports? Sustainability, 12 (21), 9269. Tercero Espinoza, L., Schrijvers, D., Chen, W. Q., Dewulf, J., Eggert, R., Goddin, J., Habib, K., Hagelüken, C., Hurd, A. J., Kleijn, R., Ku, A. Y., Lee, M. H., Nansai, K., Nuss, P., Peck, D., Petavratzi, E., Sonnemann, G., van der Voet, E., Wäger, P. A., Young, S. B. & Hool, A. (2020). Greater circularity leads to lower criticality, and other links between criticality and the circular economy . Resources, Conservation and Recycling, 159(3), [104718] Remøy, H., Wandl, A., Ceric, D., & van Timmeren, A. (2019). Facilitating circular economy in urban planning . Urban Planning , 4(3), 1-4. Ploeger, H., Prins, M., Straub, A., & Van den Brink, R. (2019). Circular economy and real estate: the legal (im)possibilities of operational lease . Facilities. Barthel, S., Isendahl, C., Vis, B. N., Drescher, A., Evans, D. L., & van Timmeren, A. (2019). Global urbanization and food production in direct competition for land: Leverage places to mitigate impacts on SDG2 and on the Earth System . Anthropocene Review, 6(1-2), 71-97. Dubbeling, D. J. (2018). Circulair bouwen vraagt om sprong voorwaarts: Veel ideeën maar nog weinig uitvoering . Bouwmarkt, 58 (8), 8-9. Luscuere, P. (Ed.) (2018). Circulariteit: Op weg naar 2050? TU Delft Open. (edited book) Ersoy, A., Bryson, J., & van Bueren, E. (2018). Local Infrastructure Assets and the Creation of Alternative Values through Industrial Symbiosis and the Circular Economy . In Annual Conference Regional Studies Association 2018: A Leading and Impactful Community Taelman, S. E., Tonini, D., Wandl, A., & Dewulf, J. (2018). A Holistic Sustainability Framework for Waste Management in European Cities: Concept Development . Sustainability, 10(7), [2184]. Vrijhoef, R. (2018). The Rise of the Smart Circular City: Intelligent Modelling of Cities for Improved Waste Reuse and Environmental Effects . In K. W. Chau, I. Chan, W. Lu, & C. Webster (Eds.), Proceedings of the 21st International Symposium on Advancement of Construction Management and Real Estate (pp. 1463-1471). Singapore: Springer. (book chapter) Šileryte, R., Wandl, A., & van Timmeren, A. (2017). Impact Modelling for Circular Economy: Geodesign Discussion Support Environment . In A. Bregt, T. Sarjakoski, R. van Lammeren, & F. Rip (Eds.), Proceedings of the 20th AGILE Conference on Geographic Information Science: Societal Geo-innovation Wageningen University. Peck, D., Bakker, C., Kandachar, P., & de Rijk, T. (2017). Product policy and material scarcity challenges: The essential role of government in the past and lessons for today . In C. Bakker, & R. Mugge (Eds.), Plate Product Lifetimes And The Environment 2017: Conference Proceedings (pp. 347-352). (Research in Design Series; Vol. 9). Amsterdam: IOS Press. Ploeger, H., Prins, M., Straub, A., & van den Brink, R. (2017). Circular economy and real estate: alternatives for operational lease . In Proceedings of the International Research Conference 2017: Shaping tomorrow's built environment Jansen, SC., Luscuere, PG., Tenpierik, MJ., & Geldermans, RJ. (2016). Beyond Cities: Energie(-plus) en circulariteit . TVVL Magazine, 45(1), 18-21. Tenpierik, MJ., van Dijk, S., Luscuere, PG., Jansen, SC., & Geldermans, RJ. (2016). Beyond Cities: Circulariteit in het watersysteem. TVVL Magazine, 45(1), 14-17.

Design Roadmapping

Strategic designing for long term foresight Organizations increasingly realize that single solutions and short-term efforts no longer fit with the growing awareness of collective concerns in society. Designing foresights and innovation strategies that thrive on long term values becomes vital. This Master Class teaches the essentials of design roadmapping, including uncovering new trends, scouting for new technologies, and mapping long term values. Date 27 & 28 November 2024 Group size 8-16 participants Location Industrial Design Engineering, TU Delft Deadline 18th of November 2024 For professionals who would like to take a more strategic role in the organization, this two-day training delves into the creative challenges of for example future visioning and designing time horizons. Besides frameworks and concepts from the latest research results, DIY exercises and examples from the experience of strategic designers are part of the master class. Participants will learn how to use the models and methods of design roadmapping to impact strategic decision-making and create cross-functional support for long term innovation strategies. Learning Objectives During this master class, you will learn: how to map and pace an innovation strategy; create a future vision; synchronize evolutions and resource constraints. Content 3-diamond process of design roadmapping ; Value mapping by creative trend research and future visioning Time pacing and Idea mapping Pathway mapping and visualizing a roadmap Cases and examples of roadmapping practices in use. Concept and frameworks of design roadmapping. Speakers Lianne Simonse Lianne Simonse teaches Design Roadmapping on the master program of Strategic Product Design at IDE, TU Delft. She holds a MSc. and PhD. in innovation management and has combined her academic positions with 20 years of professional experience in industry. Lianne has led several roadmapping projects and worked with different organizations including start-up ventures and corporates. At the faculty of Industrial Design Engineering she is researching creative foresight methodologies for data driven service strategies. In this master class she will share the essentials of the design roadmapping that stem directly from her working life. Programme Day 1 Day 2 9:00 Registration and Welcome drinks 9:30 Introduction and overview Overview of the master class, aims and structure, expectations and background of the participants. 10:00 Lecture - Introducing Design roadmapping Overview of the origin, evolution and main models of design roadmapping in theory and practice. 10:45 Break 11:00 Case study by guest speaker - Design roadmapping Best practice case in strategic designing a roadmap – a complete process story. Discussion of the main insights to participants’ own practice. 12:30 Lunch at the Porceleyne Fles Mapping a future vision grounded on creative trend research 13:30 Lecture and Lab exercise - Creative Trend research Uncovering user value drivers at the top of a design roadmap. Lab exercise: Trend Topics technique for practicing the application of creative trend research. 15:15 Break 15:30 Lecture and Lab exercises - Future Visioning Overview of principles and guidelines in mapping a future vision. Lab exercise: Expression on a desirable future for practicing future visioning. 16:45 Wrap-up and conclusive thoughts 17:30 End of the first day Mapping time horizons and decide on the time pacing 9:30 Lecture and Lab exercise - Time pacing strategy Overview of main models, principles and guidelines for a time pacing strategy at the core of design roadmapping. Lab exercise: Map design clocks. 10:45 Break 11:0 Lecture and Case studies - Technology Scouting and Idea mapping Lecture and video cases on establishing a modular architecture for technology scouting. Discussion of the main insights to participants’ own practice. 12:30 Lunch at the Faculty of Industrial Design Engineering Mapping value propositions and decide on pathways 13:30 Case study by guest speaker - Mapping value propositions Best practice of digital service roadmapping incl. business model designs. Discussion of the main insights to participants’ own practice. 15:00 Break 15:15 Lab exercise - Visualizing and setting up your own roadmapping project Introduction of visualizing a roadmap as guiding framework for setting up the mapping sessions. Lab exercise: Create your roadmap template / critical mapping session’s process. 16:30 Wrap-up and conclusive thoughts 17:00 Drinks and closing How to prepare Preparation for this master class includes preparing a personal introduction and bringing a relevant design challenge from your own practice to class. Instructions will be send about one week before the workshop. The preparation will take approximately two hours. Book All participants receive a copy of Simonse’s book ‘Design roadmapping: guidebook for future foresight techniques’ (2018 |BISPublishers). After the course Two months after the course, a pre-set consultation timeslot will be offered to all participants to share experiences and ask questions to the IDE Master Class. The format and the timing will be discussed with the participants during the IDE Master Class. Costs Master Class € 950 standard € 850 for members of BNO, KIVI IO, HumanFactorsNL € 750 for IDE alumni Courses are VAT-free Lunch, drinks, material and book are included Reduction € 100 for each additional Master Class per organisation in 2024 € 100 if you register before the 15th of September 2024

Facilities

Facilities Overall view Workshop EWI EMDs Milling 3D printing Other machines Micro EDM Wire EDM Sarix SX200 micro EDM machine: zinc wire machine with a wire EDM unit X – Y table travel: 250 x 150 mm with a height range of +/- 200 mm 4th axis A precision of 0.005 to 0.01 mm can be achieved Working range (XYZ): 350 x 200 x 200 mm Sarix Various Fanuc wire EDM machines, including a six-axis machine Maximum X – Y table travel: 370 x 270 mm with a height of 255 mm Maximum travel of the U and V axes: 60 mm Wire EDM with 0.25 mm and 0.10 mm wire. 0.05 mm wire can be used if necessary. Fanuc wire EDM machine Milling: A wide range of very precise milling work is possible. Fehlman Picomax 825 Versa: Enhanced precision version Precision: 0.001 mm per axis Ability to mill 5 axes simultaneously Equipped with an Erowa zero-point workholding system Fehlman P90, P60, P56 TOP and several P55 machines With the 4th and/or 5th rotation axis Well-suited for carrying out complex fine-precision milling Ability to work with milling depths of up to 0.01 mm. A CNC simultaneous 5-axis milling machine with a maximum table travel of 850 x 700 mm and a height of up to 500 mm Multiple Hermle CNC simultaneous 5-axis milling machines A maximum table travel of 850 x 700 mm and a height of up to 500 mm Maximum workpiece weight: 1400 kg (Hermle C40) CNC simultaneous 3-axis machine (Hermle U1130): A maximum table travel of 700 x 1100 mm and a height of up to 800 mm Various conventional milling machines: Maximum table travel of 600 x 800 Control Panel of Hermle C40U Fehlman Picomax 825 Versa 3D printen plastic 3D Metal printing SLM Metalprinter Plastic 3D printing Two build platforms with different sizes: 1 platform is 115 x 72 x 230 mm with an xy resolution of 30 µm and 1 platform is 84 x 52.5 x 230 mm with an xy resolution of 21.5 µm Both platforms have a z-axis resolution of at least 25 µm. Various types of plastic material can be printed Examples: High temperature resistant material Ceramic-filled plastics Biocompatible materials ABS and rubber-like materials 3D-printer Sisma Mysint 100 PM Building volume of 100 x 100 mm high in diameter In principle, stainless steel is used for printing, but other materials such as aluminium, titanium and bronze are also possible The printer is fitted with a glove box to enable reactive materials such as titanium to be printed. * Sisma Mysint 100 PM metal printer is currently offline due to renovation. It is expected to be available again around mid-December 2024. Sisma Mysint 100 PM DMG Mori Lasertec 30 SLM (voorjaar 2021 in laatste testfase) Powder bed with 300 × 300 × 300 mm construction volume High precision building of 3D parts with layer thicknesses between 20 and 100 µm for maximum productivity Dynamic adjustment of the focus diameter between 70 and 200 µm Application-specific fibre laser sources of 600 W Optimised shield gas volume flow for highest component quality with minimum Argon consumption < 72 l / hour Maximum work safety due to closed material cycle and integrated powder recycling Material exchange via replaceable powder module * DMG Mori Lasertec 30 SLM metaalprinter is momenteel offline vanwege een verbouwing. Naar verwachting zal hij medio december 2024 weer beschikbaar zijn. Lathing Modifying plastic Welding Sheetwork Water jet cutting waterjet cutting machine CNC lathing using powered tools and a controlled C-axis to modify the top surface or the outside of the workpiece in a clamp Conventional lathe with a maximum diameter of 450 mm and a length of 800 mm Maximum modification dimensions: Diameter 275 x 400 mm and diameter 150 x 750 mm There is a separate workplace for modifying plastics Modifications to a wide variety of plastics are possible CNC milling, lathing, sawing and planing Connecting plastics by welding or glueing Bending the plate and tube Laser welding: Trumpf pulsed laser 5004 Max. 5 kW Max. weld spot size 2.236 mm Min. pulse power 250 W max. pulse power 5 kW Min. pulse time 0.2 ms Max. pulse time 50 ms Orbital welding: Diameters of up to 38 mm, including the possibility of welding connectors to the tube Each weld can be recorded and stored in digital form TIG and MIG welding of: Stainless steel Aluminium Steel Cutting 3000 x 8 mm Press-brake bending lengths of up to 3000 mm, 150 tons Rolling of sheets and profiles Various 3D clamping tables for clamping and modifying welding and assembly work. Micro Waterjet Cutter Omax: Work Area: 650 x 650 mm Axes: Controlled X, Y, and A axes; fixed Z axis Precision: High accuracy of 0.01 mm Cutting Range: 0.1 mm to 25 mm material thickness (material dependent). With tilted jet technology, allowing for a clean perpendicular cut on one side, avoiding tapering. Cutting Pressure: 2800 bar (water exits the nozzle at 300 m/s) Options: Automatic abrasive feed system, abrasive extraction system with hopper, water softener. This machine is highly suited for precision cutting in a wide range of materials, offering flexibility and accuracy in complex cutting tasks. For the most up-to-date information, please contact Leon Roessen: info-demo@tudelft.nl

Möller-Gulland

George Popi

Luca Flessati

Gouweleeuw

Sole Pera

Half Height Horizontal

Bring your own cutlery set

Starting January 1, 2025 As of January 1, 2025 , disposable cutlery will no longer be offered for free at TU Delft’s catering locations. It will only be available for a fee (0.25 euros per fork/spoon/knife). In the academic year 2023/2024, over 130,000 pieces of disposable cutlery were used. By bringing your own reusable cutlery set we reduce waste. This aligns with TU Delft’s sustainability ambition to be CO2-neutral, circular, and climate-adaptive by 2030. Don’t have a cutlery set yet? Purchase one for 2 euros at any catering location on campus or at the Aula shop .

How Are You - Week 2024

A Dynamic Week of Workshops and Events to Check-In, Relax, and Connect in Collaboration with Exhale How Are U - Week 2024 takes place from 11-15 November. This week is all about creating space for you in a hectic student life. It’s an invitation to check in with yourself and each other. We’ve teamed up with Student Development and Exhale to bring you a unique mix of inspiring workshops, creative activities, care & support and analogue get-togethers designed to help you relax, connect, and recharge. Join the HAU Week Come join us for an Outdoor Hot Tub Night or the ADHD LIVE - Community Night. Or maybe the Offline Escape Night with Candlelit Concert, Movie Night or the creative Kintsugi workshop? Whatever your pick HAU Week offers you the opportunity to escape, relax and connect. During HAU Week we invite you to leave the pressure of productivity, performance, and perfection at the door, Exhale style. What can you expect? Daily events at Exhale, with pop-up events at Aula and the Library. The HAU program includes creative workshops, (acro) yoga, and interactive sessions that focus on community building and stress relief. Connect will also be at Exhale each weekday in November between 12 - 14 so if you have any type of question about your studies, development and well-being, it’s welcome at Exhale. Whether you're looking to soothe your mind, move your body, ask a question or simply hang out: we've got you. Signing up You can easily sign up for them via the How Are U - week event page . Signup for Exhale events will go via the website of Exhale. For any questions or more information, feel free to reach out to communication-esa@tudelft.n l. Let’s check in, relax and connect this November—see you at How Are U-week! Are you looking for help or support during your study? TU Delft offers various options for guidance and support during your studies, assisting you with your personal development and well-being. For more information about available resources and initiatives, you can visit ‘My Study and Me’ on the TU Delft Student Portal .

DigiPedia – Gateway to computational methods and tools

DigiPedia is a new digital platform designed to offer comprehensive tutorials on software and computational methods to students and life-long learners around the globe. All conveniently housed in one location for easy access.

Early attempt at colour photography discovered

Delft University of Technology has unearthed six glass slides (1890 – 1910), which represent one of the earliest attempts at colour photography. The slides were found during an inventory conducted by the Programme Tailor-Made Approach to Faculty Collections at the Imaging Physics department of the Faculty of Applied Sciences. To view the images, technician Thim Zuidwijk reconstructed a diffraction chromoscope, revealing vivid depictions of a vase with a floral motif and a still life of a fruit basket alongside a banana and a wrapped citrus fruit.

How storm surge barriers can keep the Netherlands safe and liveable

A safe and liveable delta, who doesn't go for that? Storm surge barriers play a crucial role in this. Yet there are many choices to be made in the short term to keep the storm surge barriers in a good condition, to eventually cope with rising sea levels in the longer term. A new project receives funding from NWO for five years to explore the best routes to a liveable delta. Storm surge barriers, like the Maeslantkering and the Oosterscheldekering are essential for protecting the Netherlands from high water coming in from the sea. How long will these imposing structures remain effective bearing in mind sea level rise, decay of the structures and an altering surrounding area. In the short term, decisions will have to be taken on maintenance, while in the longer term, adaptation or replacement should be considered. Linking storm surge barriers with the delta Within the SSB-Δ (storm surge barrier delta) project, a diverse consortium will investigate under what circumstances storm surge barriers can keep the Netherlands safe and liveable. The consortium consists of the universities of Delft, Utrecht, and Rotterdam; the universities of applied sciences of Rotterdam and Zeeland; knowledge institutes Deltares and TNO, as well as Rijkswaterstaat, water boards and companies. Bram van Prooijen, associate professor at TU Delft, will lead the research: “Decisions on flood defences are important for the entire delta. The link between the hinterland and the flood defences needs to be made properly. During this project, we will have the opportunity to bring different areas of expertise together and strengthen each other.” Long term perspective Therefore, the research is not only about the technical lifespan of the barriers. It will also clarify how the delta is going to change and how society thinks about it, resulting in a guideline to on how and when decisions need to be taken in the short term, with a long term perspective. Van Prooijen cites an example of car maintenance: “Think of replacing the engine block. This is very expensive maintenance, but sometimes necessary to keep the car running safely. But is it worth the investment if you plan to buy a new car next year? Or if you prefer to travel by train? Important choices will have to be made for storm surge barriers. We want to provide a strong basis for that.” Informed decisions The project will reveal the possible pathways to a liveable delta, and how storm surge barriers fit into that. Van Prooijen: “That offers clarity, to make quick and better-informed decisions. Many trials run for a long time, with the outcome of this research we can decide which trials specifically are the best option to proceed with.” Future experts One of the storm surge barriers involved in the research is the Maeslantkering. This barrier is expected to last another fifty years or so. That may seem far away, Van Prooijen reasons, “but we need to train the experts who will decide on this now. Those are probably the PhD students on this project.”

What subject do you want to master?

Master’s Event (28 November 2024) Are you almost done with your bachelor's and orientating on a master's programme? During the online Master’s Event on the 28th of November, you will get all the information you need to make a conscious choice. There will be an in-depth session via Microsoft Teams about every TU Delft master’s programme. If you would rather visit an on campus event, you can join the next event on the 20th of February. Register now: https://www.tudelft.nl/masters-event

Apply to become a student fellow at Impact Studio’s Ideation lab!

Do you want to experience entrepreneurship? Are you curious about how exploring business opportunities work? Join the Ideation Lab ..

Merging like a human: TU Delft develops new model to help self-driving cars drive socially

Scientists at TU Delft have developed a new model that better describes human behaviour when merging into motorway traffic. Current models often assume that drivers are constantly trying to optimise their behaviour to reach their destination as quickly and safely as possible, but this is not always the case, says postdoctoral researcher Olger Siebinga.

Energy Hubs: Stories of Team Science

In this longread we talk with Peter Palensky, head of the department Electrical Sustainable Energy, and with Laura Ramirez Elizondo, Associate Professor Micro-grids, about the important role for energy hubs in the energy transition

The TU Delft Library – a driving force of open access publishing

With open publishing deeply ingrained in the DNA of TU Delft it is easy to overlook what happens behind the scenes. Joke Dales and Kees Moerman, both longtime employees of the TU Delft Library, have been involved from the start and they still provide abundant support.

Enrolment for new courses open on 13 November

The new courses will start from Monday 18 November. Enrolment for these starts from Wednesday 13 November at 08.00! In the second quarter, a new series of courses awaits you. You can find out more on the website. Maybe you already know that you want to attend your favourite course again or maybe you want to discover and try something new; it's all possible. Enrolments go fast Enrolment for our courses always runs fast, so don't wait too long or be surprised by a course where spots are still available! Enrolment closes Enrolment closes on Friday 22 November at 16.00.

Boost you Resillience

Develop yourself with the e-tool Gezondeboel Setbacks and challenges are a normal part of life, including student life. What you find challenging and how you deal with it is personal. It is important that you learn to deal with these challenges and grow from them. The Gezondeboel e-tool offers a wide range of online programmes that meet your development needs as a student. Think about topics such as stress, balance, decision making, planning, procrastination, fear of failure, perfectionism, feelings of loneliness and more. Use Gezondeboel as a self-help tool to strengthen your mental resilience. The programmes are suitable for everyone and offer practical tips for quick results. Choose a programme that suits you and follow it at your own pace, wherever and whenever you want - even via your mobile phone or tablet. You can follow as many programmes as you like, completely free and anonymously. Log in via the Student Portal using the link below. www.tudelft.nl/gezondeboel

Equity, Diversity and Inclusion Month 2024: Aftermovie

Equity, Diversity, & Inclusion (EDI) Month took place at TU Delft throughout October 2024, with the theme "United for Change, Together We Grow." This month featured over 20 events and activities organized by more than 35 contributors, providing a valuable opportunity for hands-on workshops, training sessions, and open discussions on various topics: Inclusive communication Unconscious bias Ally skills Neurodiversity Intercultural teamwork Good practices in EDI Girls in Tech Queer emancipation Emotional intelligence at work Deep Democracy and Inclusion Inclusive education Aftermovie Thanks to all faculties, student associations, networks, Diversity & Inclusion office for making this month possible! In this short aftermovie , you can get a glimpse of some (of the many) highlights of this month!

Don’t forget to terminate your enrolment after the final part of your study

Your termination of registration does not happen automatically! Have you completed the final part of your study? Please be aware that you need to send a request to terminate your enrolment through Studielink as it will not be done automatically. When you terminate your enrolment at TU Delft, you are entitled to a refund of one twelfth of the annual tuition fee for each month of the academic year in which you are no longer enrolled, with the exception of termination as from July and August. Enrolment termination with retroactive effect is not possible. Be aware! If you are not enrolled and you still use educational or examination facilities (including taking exams) there will be financial consequences. It can also affect your student grants and/or student travel product. For more information, please check the Student Administration website: Termination of Enrolment (tudelft.nl)

Celebrating One Year of Work Package ‘Future Skills for Engineers and Scientists’

Work Package ‘Future Skills for Engineers and Scientists’, marked one year of work with the completion of our Future Competencies Report. The report consists of our analysis of student surveys, alumni surveys, and self-conducted interviews. Notably, it includes a taxonomy of future competencies and future challenges, with further explanation about specific terms and trends. Over the coming months, these competencies and challenges will form the foundation for a SWOT analysis that aims to determine areas that we, as an alliance, need to address to advance European and technological development. During this process, we will seek to further align with our other ENHANCE work packages, such as those on Future Learning pedagogies and Sustainable Entrepreneurship, and continue to engage key stakeholders in European education, government and industry. If you would like to receive a digital copy of the Future Competencies Report, please contact g.r.penny@tudelft.nl Upcoming Work Package 4 events: 6 November 2025, TU Delft – Work Package 4 ‘Future Skills for Engineers and Scientists’ and Work Package ‘Diversity, Impact and Dissemination’ workshop: A DEI Perspective on Future Engineering Competencies and Challenges. 13 and 14 February 2025, TU Delft – Annual Work Package 4 meeting.

Work Package ‘IT Infrastructure and Services’ meetings

On the 5th and the 6th of September, the TU Delft was hosing the meeting with the work package ‘IT Infrastructure and Services’ leads from RWTH Aachen to discuss IT requirements and solutions aimed at enhancing the learner’s journey and reducing administrative burdens. In addition to this visit from RWTH Aachen, ETH Zurich hosted the inaugural IT Knowledge Hub. The event was a resounding success, bringing together IT and Education officers to collaborate and gain a deeper understanding of the innovative IT improvements needed to better serve our universities and the ENHANCE Alliance. This gathering provided a fantastic opportunity for closer collaboration and innovation.
ELLIS Delft Unit Logo

9 researchers from ELLIS Unit Delft honoured with Fellows or Scholars title

TU Delft has participated in ELLIS since 2019, currently with over 30 active members within the ELLIS Unit Delft. A total of nine researchers have recently been honour with an ELLIS Fellow or Scholar title.

A rudimentary quantum network link between Dutch cities

An international research team led by QuTech has demonstrated a network connection between quantum processors over metropolitan distances. Their result marks a key advance from early research networks in the lab towards a future quantum internet. The team developed fully independently operating nodes and integrated these with deployed optical internet fibre, enabling a 25 km quantum link. The researchers published their findings in Science Advances.

Bachelor students develop model to better understand the chemical process of renewable fuels

A group of TU Delft bachelor students has developed, as part of the students’ minor in Computational Science and Engineering, a new model that accurately predicts the molecular properties of alkanes. This knowledge is crucial for the development of renewable fuels.

Pioneering Tech: GovTech, Generative AI, and the hydrogen transition

This week, the latest edition of Pioneering Tech has been released. The cover story of this edition focuses on GovTech: the collaborative development of government technology by public and private sectors. GovTech can better safeguard public values and reduce government reliance on 'Big Tech' companies like Amazon, Google, and Microsoft.