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The next phase in aircraft design

The aircraft design of the Flying-V is potentially much more efficient than the traditional “pipe with wings” design. The concept was received with great enthusiasm, but a lot of hard work will need to be done if the sustainable flying wing is to be ready by 2040. I n June 2019, TU Delft and KLM presented their plans for the Flying-V: an aircraft designed to save 20% on both fuel and emissions due to its unique shape. KLM is sponsoring the project for sustainable flying as part of its 100th anniversary programme. During celebrations to mark the event last October, the scale model and the mock-up of the interior of the Flying-V attracted huge interest, and the story was covered by numerous media, from Dutch Design Week to the DWDD talk show. “Something we had been working on for years was suddenly in the spotlight”, explains Roelof Vos, project leader of Flying-V and Assistant Professor of flight performance and propulsion. Checking the calculations A patent that appeared in the media first drew Vos’s attention in 2014. Graduate Justus Benad from TU Berlin had come up with a draft design for Airbus, for a flying wing with seating for 300 passengers. “Most new aircraft concepts aren’t radically different from current designs. This one intrigued me”, says Vos. “It promised a staggering 10% improvement in aerodynamic efficiency and a 2% reduction in take-off weight compared with a conventional aircraft. My immediate reaction was: as critical researchers, we have to check these claims thoroughly.” Vos also thought that he could improve the draft design: “We gave it an oval fuselage instead of a round pipe, and it became the Delft Flying-V.” The aerodynamics research based on this version improved the results even further than the original promising 10%. The prognosis for a lower take-off weight also turned out to be correct, although this was difficult to calculate for an aircraft that was still only a design on paper. “After consulting with experts from Airbus, we concluded that whatever else, the aircraft would not become heavier. Our claim is that the unladen weight will be 7% lower, but the total weight will depend on the interior and all the systems.” Construction weight The lower weight is largely due to the unique shape of the aircraft: “Passengers normally sit in the middle of the plane and the wings generate the lift; this force must then be transferred to the cabin. This requires extra construction weight, which is no longer needed in our design.” This is nothing new; it’s one of the ideas behind aircraft such as the Blended Wing Body planes (BWB), in which the wings, cabin and engines are designed as a single unit. “But the Blended Wing Body design is not attractive from an industrial perspective, as every aircraft needs to be designed individually, whereas the Flying V is easy to lengthen or shorten so you can build series of aircraft using 95% of the same parts”, explains Vos. Test model Work is currently underway in the Aeroplane Hall of the Faculty of Aerospace Engineering to construct a scale model of the Flying-V with a wingspan of three metres. Researcher Malcom Brown is heading the project. His students are closely involved, as they are with other parts of the project. “It’s great to see how much students learn from doing something practical like building a model that actually works”, says Brown. “Some of them aren’t as practical as others when it comes to things like drilling or filing, but that’s just as much part of the learning process. The model will be used for actual research flights, so we have to be as accurate as possible.” Measurement arm A 3D measurement arm with laser scanner was purchased specially for the job. “The measurement arm allows us to determine the precise shape and location of components to a tenth of a millimetre. In this way, we can check whether all the parts we have ordered satisfy our requirements and are positioned correctly”, explains Brown. Despite all this accuracy, building a test model is a nerve-racking business, right up to the last moment. “Real life is never the same as the calculations, so we won’t know whether the aircraft can really fly, or the flight characteristics, until the test flights. Wind tunnel tests, for example, have shown that the aircraft might be less stable at a certain high angle. This didn’t show up in the computer simulations”, he continues. “Scaling up wind tunnel measurements to life-size test models is always a huge challenge in aerospace engineering.” A doctoral candidate is currently looking into ways of improving the theory behind this scaling up process; the research will be of use to other projects too. Interior Professor of Environmental Ergonomics Peter Vink, who is working on the plane’s interior, isn’t troubled by the scaling-up problems. Part of the interior has been built to true size and is currently on display in the Faculty of Industrial Design Engineering. “We are using the project as an opportunity to improve comfort for passengers”, he says. Four winning ideas were chosen from a design competition for students. They related to beds, lounge seats, group seating and individual seats. The beds make it possible for economy-class passengers to sleep horizontally, according to Vink: “We place three beds one above another, whereby the middle bunk can be slid up allowing the bottom bunk to be used for seating during take-off and landing. This is necessary to provide fast escape routes in the event of evacuation. You don’t lose any seating, because three beds take up just as much space as three seats”, he explains. In the group seating, passengers sit opposite each other like they do on trains. “More than a quarter of all passengers fly in groups. Sitting opposite each other makes it easier to chat or play games with the children”, continues Vink. “The lounge seats allow you to sit in different positions, from chill to working with a laptop. It is important to change your position regularly, and with this seat, your position is determined by what you are doing.” The individual seats are not directly next to each other, but alternate and are mounted at an angle of 26 degrees to the aircraft’s flight direction. This is a safety regulation. “Sitting at too wide an angle to the plane’s flightpath is less safe if the plane crashes”, he explains. “But there’s another advantage to this arrangement: you have more leg and shoulder room.” Boarding and disembarking in these spots is also made easier because you can flip over the seat cushion. “You can also use the folded seat position if you want to sit a bit higher”, says Vink. Sustainability Sustainability was also taken into account in the interior design. “Interior constitutes weight, and the heavier the plane is, the more fuel you need. The seats we’ve designed are three to five kilos lighter than the current models. In the rest of the interior, we’ve tried to use as much openwork as possible, rather than solid structures, using generative design methods. This saves material and therefore weight.” Many of these ideas could be used in regular aircraft, but there are still some unanswered questions about the interior of the Flying-V. “For example, our plans don’t leave enough room for hand luggage”, says Vink. “Then again, we have until 2040 to think about it.” Still so much to do The media attention may have quietened down, but work behind the scenes is still in full swing. “This was an integrated project from the word go; all disciplines are involved. You don’t want to complete a fantastic aerodynamic design, only to discover that the finished product is far too heavy”, explains Vos. “So we recently met experts from across the sector to discuss the challenges they envisaged. We ended up with a list of almost 50 subjects that need further scrutiny.” They varied from highly practical to totally theoretical. “This new aircraft must be capable of landing and being serviced at existing airports. Imagine if you have to change an engine and they’re fitted on top of the wings. You can get to them using a crane at Schiphol, but what about at other airports in the world?” And there are more conceptual questions about the dynamic stability of the design. “You need to know precisely how the mass is distributed and how the aerodynamics change at different speeds”, says Vos. “We can measure some of this during the test flights, but a small test model doesn’t fly fast enough to be able to draw any definite conclusions. We can try to estimate it using existing methods, but these were designed for the existing models. So in order to do this, we need to come up with a clever way of combining the results of various tests and analyses.” Next phase All three of them agree about the need for a new configuration. “You can’t just carry on using the current solutions”, claims Vink. “Existing configurations only allow incremental, minor improvements”, adds Vos. “This may well be the first step in the next phase of aviation”, says Brown. “The sector knows that it needs to modernise. Not only for economic reasons because fuel is currently the biggest expense for aviation companies, but also because of the increasingly strict emissions policies.” So will we be flying in a Flying-V in 2040? “Airbus, Schiphol, KLM and other parties are already very enthusiastic. We’ll form a consortium next year, so that we can work more intensively on developing the design with all of these parties”, explains Vos. But the researcher is still erring on the side of caution. “There’s still so much that we don’t know about this aircraft; in another five years, we might even come to the conclusion that it’s not feasible after all.” Existing configurations only allow incremental, minor improvements Read more stories of Aerospace Engineering Roelof Vos, Malcom Brown, Peter Vink This is a Portrait of Science from Aerospace Engineering I n June 2019, TU Delft and KLM presented their plans for the Flying-V: an aircraft designed to save 20% on both fuel and emissions due to its unique shape. KLM is sponsoring the project for sustainable flying as part of its 100th anniversary programme. During celebrations to mark the event last October, the scale model and the mock-up of the interior of the Flying-V attracted huge interest, and the story was covered by numerous media, from Dutch Design Week to the DWDD talk show. “Something we had been working on for years was suddenly in the spotlight”, explains Roelof Vos, project leader of Flying-V and Assistant Professor of flight performance and propulsion. Checking the calculations A patent that appeared in the media first drew Vos’s attention in 2014. Graduate Justus Benad from TU Berlin had come up with a draft design for Airbus, for a flying wing with seating for 300 passengers. “Most new aircraft concepts aren’t radically different from current designs. This one intrigued me”, says Vos. “It promised a staggering 10% improvement in aerodynamic efficiency and a 2% reduction in take-off weight compared with a conventional aircraft. My immediate reaction was: as critical researchers, we have to check these claims thoroughly.” Vos also thought that he could improve the draft design: “We gave it an oval fuselage instead of a round pipe, and it became the Delft Flying-V.” The aerodynamics research based on this version improved the results even further than the original promising 10%. The prognosis for a lower take-off weight also turned out to be correct, although this was difficult to calculate for an aircraft that was still only a design on paper. “After consulting with experts from Airbus, we concluded that whatever else, the aircraft would not become heavier. Our claim is that the unladen weight will be 7% lower, but the total weight will depend on the interior and all the systems.” Construction weight The lower weight is largely due to the unique shape of the aircraft: “Passengers normally sit in the middle of the plane and the wings generate the lift; this force must then be transferred to the cabin. This requires extra construction weight, which is no longer needed in our design.” This is nothing new; it’s one of the ideas behind aircraft such as the Blended Wing Body planes (BWB), in which the wings, cabin and engines are designed as a single unit. “But the Blended Wing Body design is not attractive from an industrial perspective, as every aircraft needs to be designed individually, whereas the Flying V is easy to lengthen or shorten so you can build series of aircraft using 95% of the same parts”, explains Vos. Test model Work is currently underway in the Aeroplane Hall of the Faculty of Aerospace Engineering to construct a scale model of the Flying-V with a wingspan of three metres. Researcher Malcom Brown is heading the project. His students are closely involved, as they are with other parts of the project. “It’s great to see how much students learn from doing something practical like building a model that actually works”, says Brown. “Some of them aren’t as practical as others when it comes to things like drilling or filing, but that’s just as much part of the learning process. The model will be used for actual research flights, so we have to be as accurate as possible.” Measurement arm A 3D measurement arm with laser scanner was purchased specially for the job. “The measurement arm allows us to determine the precise shape and location of components to a tenth of a millimetre. In this way, we can check whether all the parts we have ordered satisfy our requirements and are positioned correctly”, explains Brown. Despite all this accuracy, building a test model is a nerve-racking business, right up to the last moment. “Real life is never the same as the calculations, so we won’t know whether the aircraft can really fly, or the flight characteristics, until the test flights. Wind tunnel tests, for example, have shown that the aircraft might be less stable at a certain high angle. This didn’t show up in the computer simulations”, he continues. “Scaling up wind tunnel measurements to life-size test models is always a huge challenge in aerospace engineering.” A doctoral candidate is currently looking into ways of improving the theory behind this scaling up process; the research will be of use to other projects too. Interior Professor of Environmental Ergonomics Peter Vink, who is working on the plane’s interior, isn’t troubled by the scaling-up problems. Part of the interior has been built to true size and is currently on display in the Faculty of Industrial Design Engineering. “We are using the project as an opportunity to improve comfort for passengers”, he says. Four winning ideas were chosen from a design competition for students. They related to beds, lounge seats, group seating and individual seats. The beds make it possible for economy-class passengers to sleep horizontally, according to Vink: “We place three beds one above another, whereby the middle bunk can be slid up allowing the bottom bunk to be used for seating during take-off and landing. This is necessary to provide fast escape routes in the event of evacuation. You don’t lose any seating, because three beds take up just as much space as three seats”, he explains. In the group seating, passengers sit opposite each other like they do on trains. “More than a quarter of all passengers fly in groups. Sitting opposite each other makes it easier to chat or play games with the children”, continues Vink. “The lounge seats allow you to sit in different positions, from chill to working with a laptop. It is important to change your position regularly, and with this seat, your position is determined by what you are doing.” The individual seats are not directly next to each other, but alternate and are mounted at an angle of 26 degrees to the aircraft’s flight direction. This is a safety regulation. “Sitting at too wide an angle to the plane’s flightpath is less safe if the plane crashes”, he explains. “But there’s another advantage to this arrangement: you have more leg and shoulder room.” Boarding and disembarking in these spots is also made easier because you can flip over the seat cushion. “You can also use the folded seat position if you want to sit a bit higher”, says Vink. Sustainability Sustainability was also taken into account in the interior design. “Interior constitutes weight, and the heavier the plane is, the more fuel you need. The seats we’ve designed are three to five kilos lighter than the current models. In the rest of the interior, we’ve tried to use as much openwork as possible, rather than solid structures, using generative design methods. This saves material and therefore weight.” Many of these ideas could be used in regular aircraft, but there are still some unanswered questions about the interior of the Flying-V. “For example, our plans don’t leave enough room for hand luggage”, says Vink. “Then again, we have until 2040 to think about it.” Still so much to do The media attention may have quietened down, but work behind the scenes is still in full swing. “This was an integrated project from the word go; all disciplines are involved. You don’t want to complete a fantastic aerodynamic design, only to discover that the finished product is far too heavy”, explains Vos. “So we recently met experts from across the sector to discuss the challenges they envisaged. We ended up with a list of almost 50 subjects that need further scrutiny.” They varied from highly practical to totally theoretical. “This new aircraft must be capable of landing and being serviced at existing airports. Imagine if you have to change an engine and they’re fitted on top of the wings. You can get to them using a crane at Schiphol, but what about at other airports in the world?” And there are more conceptual questions about the dynamic stability of the design. “You need to know precisely how the mass is distributed and how the aerodynamics change at different speeds”, says Vos. “We can measure some of this during the test flights, but a small test model doesn’t fly fast enough to be able to draw any definite conclusions. We can try to estimate it using existing methods, but these were designed for the existing models. So in order to do this, we need to come up with a clever way of combining the results of various tests and analyses.” Next phase All three of them agree about the need for a new configuration. “You can’t just carry on using the current solutions”, claims Vink. “Existing configurations only allow incremental, minor improvements”, adds Vos. “This may well be the first step in the next phase of aviation”, says Brown. “The sector knows that it needs to modernise. Not only for economic reasons because fuel is currently the biggest expense for aviation companies, but also because of the increasingly strict emissions policies.” So will we be flying in a Flying-V in 2040? “Airbus, Schiphol, KLM and other parties are already very enthusiastic. We’ll form a consortium next year, so that we can work more intensively on developing the design with all of these parties”, explains Vos. But the researcher is still erring on the side of caution. “There’s still so much that we don’t know about this aircraft; in another five years, we might even come to the conclusion that it’s not feasible after all.” Existing configurations only allow incremental, minor improvements Roelof Vos, Malcom Brown, Peter Vink This is a Portrait of Science from Aerospace Engineering Other Portraits of Science Design for a better world The future of architectural glass

Successful maiden flight for the TU Delft Flying-V

The first real test flight of the scaled flight model of the energy-efficient aircraft design called the Flying-V was a succes.

Marleen and Sjoerd graduated at the Flying-V: what was their contribution?

This summer, Aerospace Engineers Marleen Hillen and Sjoerd van Empelen both graduated on the Flying-V. Their graduation research contributes to the scientific research agenda Flying-V.

Webinar: The Real Performance of Energy Renovations in the Dutch Housing Sector

Webinar: The Real Performance of Energy Renovations in the Dutch Housing Sector 10 March 2021 16:00 till 17:00 - Location: Online - By: IEBB Theme 2 Consortium Presented by: Andrea Thaddeus, TU Delft This content is being blocked for you because it contains cookies. Would you like to view this content? By clicking here , you will automatically allow the use of cookies.

Bert van Wee is Professor of Excellence 2020

On Monday 31 August, Bert van Wee, Professor of Transport Policy at the Faculty of Technology, Policy and Management (TPM) is named Professor of Excellence 2020 by Delft University Fund. Van Wee receives this prestigious prize for the indelible mark he has left on the Delft, national and international transport communities. He displays a continuous drive to improve education, including his own. He is committed and critical, yet always positive and constructive in his supervision of graduate (198!) and PhD students (28). Professor van Wee has been nominated by prof. drs. Aukje Hassoldt, Dean of Faculty TPM, Study Association Curius, (current and former) PhD students and a large number of internal and external colleagues from the transport community, including organisations such as Oxford University, Ministry of Infrastructure and Water Management, Institute for Road Safety Research (SWOV) and TRAIL - Research School for Transport , Infrastructure and Logistics. Not only are his qualities as a researcher recognized, he is also highly praised for his positive attitude, unbridled enthusiasm, accessibility and unyielding dedication. Bert is one of the most cited TU Delft scientists in national and international media. Prof.dr.ir. Fred van Keulen, Chair selection committee Professor of Excellence “The selection committee was very impressed with the nomination. Bert van Wee has an extensive and comprehensive track record. Of special interest to the committee was how his role as coach and mentor has impacted so many others in the transport domain. The committee further recognized how Bert van Wee continues to have a positive impact on society at the national and international level.” Prof. drs. Aukje Hassoldt, Dean Faculty TPM “With a unique mix of research, educational and administrative qualities, Bert makes a unique scientific and social contribution to his field that is difficult to overestimate. With a broad palette of methodologies at his disposal, he has time and again developed new, integrated viewpoints that in turn inspire others. The faculty is privileged to have someone like Bert, with his high scientific caliber and engaging personality, as a key member of our community.” Thomas van Gerven, President Study Association Curius “Bert is a real educator. Within the transport domain of our faculty, he is truly a walking encyclopedia, constantly coming up with beautiful examples that appeal to the imagination. It is thanks to lecturers like Bert that more students are attracted to our faculty each year, allowing more students to experience the inspiring combination of technology and policy.” Best of TU Delft Delft University Fund has awarded the prestigious Professor of Excellence Award (in Dutch: Leermeesterprijs) since 1994. A Professor of Excellence is someone who excels in both research and education, and who knows how to inspire and motivate the next generation of Delft engineers. Recipients of the award are reckoned among the top of TU Delft. Professors of Excellence are not elected on the basis of yield figures or impact scores, nor are they selected top-down. You can only receive this honorary title on the recommendation of your colleagues and your students, who consider you to be their ‘Leermeester’. The prize The Professor of Excellence receives the silver Leermeester medal and a check for € 15,000. Also, KLM bestows two business class tickets for a destination of choice. The award ceremony Due to corona measures, the award ceremony will take place later. Bert van Wee Motorway speed limits of 100 km/h largely advantageous

TU Delft starts online platform with science stories

Delft researchers carry out their research in all kinds of interesting ways: they do experiments in labs, they build and test models and prototypes, and do field work all over the world. All of these scientists have their own tale to tell, and more and more of these so-called stories of science are being written down by our Delft faculties.

Themes

Research Themes Applications, algorithms and programming models Sebastian Feld Christos Strydis Quantum computer architectures Sebastian Feld Stephan Wong Hardware architectures for edge AI (Computation-in-memory/Neuromorphic computing) Said Hamdioui Rajiv Joshi Rajendra Bishnoi Stephan Wong Reconfigurable computing Stephan Wong Big-Data architectures Zaid Al-Ars Peter Hofstee Spin wave and carbon based computing Sorin Cotofana Said Hamdioui Low power design for disruptive computing Rajendra Bishnoi Rajiv Joshi Hardware security, test and reliability Motta Taouil Said Hamdioui Rajendra Bishnoi Quantum integrated circuits Fabio Sebastiano Masoud Babaie Quantum Integration technology Ryoichi Ishihara Robustness of complex networks Piet Van Mieghem Functional brain networks Piet Van Mieghem Planning and management of mobile networks Piet Van Mieghem Geometric representation of networks Piet Van Mieghem Epidemics on networks Piet Van Mieghem

All in the family

In this series, parents and grandparents discuss their student days with their children and grand-children.

Webinar: The Real Performance of Energy Renovations in the Dutch Housing Sector

Webinar: The Real Performance of Energy Renovations in the Dutch Housing Sector 10 March 2021 16:00 till 17:00 - Location: Online - By: IEBB Theme 2 Consortium Presented by: Wim Plokker, Vabi Download the presentation here . This content is being blocked for you because it contains cookies. Would you like to view this content? By clicking here , you will automatically allow the use of cookies.

Half Height Horizontal

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. The enrolment moment for the course depends on the day the course takes place. At 08:00 enrolments for Monday's courses open, at 10:00 for Tuesday's courses, at 12:00 for Wednesday's courses, at 14:00 for Thursday's courses and at 16:00 for courses on Friday, Saturday and Sunday. 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.

Contributions of SPTL at the CVS Congress (21-22 November, Utrecht)

On November 21 and 22, the 51st edition of the CVS congress is held in the Railway museum in Utrecht. Members of the Smart Public Transport Lab contribute to the following sessions: Knus in de bus op dinsdag; zijn alle werkdagen nog wel hetzelfde? Thursday, November 21, 16:00-17:30 Julia Bickel, Maxim Meijers and Niels van Oort [abstract] Stedelijkheidsgraden in transportmodellen: Een analyse over de impact van de ruimtelijke omgeving op reisgedrag Thursday, November 21, 16:00-17:30 Janine Grauss, Justin Hogenberg and Niels van Oort [abstract] Gamen maakt de toekomst – Serious gamen voor een optimale mobiliteitsmix Friday, November 22, 11:30-13:00 Nejc Geržinič, Mark van Hagen, Dorine Duives and Niels van Oort Gamen maakt de toekomst – Serious gamen voor een optimale mobiliteitsmix Friday, November 22, 11:30-13:00 Tessa Leferink, Niels van Oort and Sander Lenferink [abstract] De verkenning van de potentie van fietsparkeren bij het ov: een casus in Den Haag Madeline Lai, Dorine Duives, Stefan Talen, Nejc Geržinič and Niels van Oort Friday, November 22, 14:00-15:30 [abstract]

A key solution to grid congestion

On behalf of the TU Delft PowerWeb Institute, researchers Kenneth Brunninx and Simon Tindemans are handing over a Position Paper to the Dutch Parliament on 14 November 2024, with a possible solution to the major grid capacity problems that are increasingly cropping up in the Netherlands. The Netherlands is unlikely to meet the 2030 climate targets, and one of the reasons for this is that large industry cannot switch to electricity fast enough, partly because of increasingly frequent problems around grid capacity and grid congestion. In all likelihood, those problems will actually increase this decade before they can decrease, the researchers argue. The solution offered by the TU Delft PowerWeb Institute researchers is the ‘flexible backstop’. With a flexible backstop, the current capacity of the power grid can be used more efficiently without sacrificing safety or reliability. A flexible backstop is a safety mechanism that automatically and quickly reduces the amount of electricity that an electric unit can draw from the grid (an electric charging station or a heat pump) or deliver (a PV installation). It is a small device connected or built into an electrical unit, such as a charging station or heat pump, that ‘communicates’ with the distribution network operator. In case of extreme stress on the network, the network operator sends a signal to the device to limit the amount of power. Germany recently introduced a similar system with electric charging stations. The backstop would be activated only in periods of acute congestion problems and could help prevent the last resort measure, which is cutting off electricity to users. ‘Upgrading the electricity network remains essential, but in practice it will take years. So there is a need for short-term solutions that can be integrated into long-term planning. We, the members of the TU Delft PowerWeb Institute, call on the government, network operators and regulator to explore the flexible backstop as an additional grid security measure,’ they said. The entire Paper can be read here . Kenneth Brunninx Associate Professor at the Faculty of Engineering, Governance and Management, where he uses quantitative models to evaluate energy policy and market design with the aim of reducing CO2 emissions. Simon Tindemans is Associate Professor in the Intelligent Electrical Power Grids group at Faculty of Electrical Engineering, Mathematics and Computer Science. His research interests include uncertainty and risk management for power grids. TU Delft PowerWeb Institute is a community of researchers who are investigating how to make renewable energy systems reliable, future proof and accessible to everyone.

25 year celebration of formal collaboration between Delft University of Technology and the University of Campinas

On 25 October 2024 we celebrated 25 years of formal collaboration between Delft University of Technology and the University of Campinas. What began as a project to exchange some students in chemical engineering has now grown to a multifaceted and broad academic collaboration which accumulated into 24 joint research projects (>20 M Euro); 16 advanced courses and 15 Doctors with a Dual Degree PhD. Patricia Osseweijer, TU Delft Ambassador Brazil explained, “We are proud to show and reflect on this special day the added value we created resulting from our joint activities. The lessons we learned demonstrate that especially continuity of funds and availability for exchanges has contributed to joint motivation and building trust which created strong relations. This is the foundation for academic creativity and high-level achievements.” The program presented showcases of Dual Degree projects; research activities and education. It discussed the future objectives and new fields of attention and agree on the next steps to maintain and strengthen the foundation of strong relations. Telma Franco, Professor UNICAMP shared that “joint education and research has substantially benefitted the students, we see that back in the jobs they landed in,” while UNICAMP’s Professor Gustavo Paim Valenca confirmed that “we are keen to extend our collaboration to more engineering disciplines to contribute jointly to global challenges” Luuk van der Wielen highlighted that “UNICAMP and TU Delft provide valuable complementary expertise as well as infrastructures to accelerate research and innovation. Especially our joint efforts in public private partnerships brings great assets” To ensure our future activities both University Boards have launched a unique joint program for international academic leadership. This unique 7-month program will accommodate 12 young professors, 6 from each university. The programme began on 4 November 2024 in Delft, The Netherlands.

POW team wins TU Delft Education Team Award 2024

During the Teaching Academy's Education Day, the awards were presented for Educator of the Year and Education Team Award. The team that developed the Personal Development Weeks (Persoonlijke OntwikkelingsWeek or POW) of the Bachelor Renewal won the award for TU Delft Education Team of the Year.

Scholarships Abroad Week

Receive funding for your time abroad Are you going abroad for your study programme in Semester 2, 2024-2025? Or are you going abroad for a traineeship/thesis/project in 2024-2025? You can receive additional funding for your time abroad. Come join the scholarship abroad presentation sessions to find out more. Presentation for Exchange students 19 November 13:00 – 13:30 in Lecture Hall C – Daniel Bernoulli (ME, 34.A-0-620) 19 November 19:00-19:30 – online in Teams Presentation for Internship/thesis/project students 19 November 13:00 – 13:30 in Lecture Hall B – Isaac Newton (ME, 34.A-0-720) 19 November 19:00-19:30 – online in Teams For more information visit the Student Portal .

Christmas lunch

Take part in a festive lunch with MoTiv, TU Delft Studentenraad en TU Delft ESA This holiday season, MoTiv, TU Delft, and the local Delft churches are bringing together homes and students for a special, heartwarming experience, and we would love for you to be part of it! After three successful years, we’re excited to continue this festive tradition, bridging cultures and creating connections. Are you interested in joining a holiday lunch as a guest , along with other international students, in a welcoming Delft-area home? Or perhaps you’d like to open your home as a host , sharing a warm, cultural celebration with students from around the world? This special event will take place from December 23rd to December 31st, between 12:00 and 15:00 . For Guests : If you’d like to participate as a guest, we’ll match you with a local host eager to share their holiday traditions. You’ll enjoy delicious dishes, laughter, and meaningful conversations, creating memories that feel like home, even far from family. Once matched, we’ll connect you with your host so you can coordinate details and meal plans together. Sign up as a guest in this google forms.(https://forms.gle/yLAqE83DcqWGwcKB8) For Hosts : If you’re interested in hosting, this is a wonderful opportunity to welcome students into your home for a memorable meal. By sharing food, stories, and perhaps even a few games, you’ll help make the season brighter for students eager to experience Dutch hospitality and holiday traditions. Sign up as a host in this google forms.( https://forms.gle/bJB5svxJZ1iTSF1c6 ) For any questions, feel free to reach out to us at motiv.connects@gmail.com. For more information, please visit our website at www.motiv.tudelft.nl/christmas-lunch-delft/ . Thank you for making this holiday season unforgettable. We look forward to celebrating with you! Warm regards, MoTiv, TU Delft Student Council, TU Delft ESA - Student Community Team

TU Delft and India collaborate on self-supervised Learning for Plastic Hotspots Identification from Satellite Images

Plastic hotspots refer to regions where plastic waste accumulates, often in large quantities, due to factors such as water currents, tides, and human activities. These hotspots represent significant environmental concerns because they contribute to pollution in aquatic ecosystems, endanger aquatic life, and impact human health through contamination of the food chain.

Open Day of the Newly Upgraded INSYGHT Lab

The INSYGHT lab at the Intelligent Systems (INSY) department has undergone a remarkable transformation, now boasting cutting-edge technology that includes multi-camera capture systems, advanced robotics, a robotic arm, audio synthesis capabilities, a sound-attenuated booth, and extended reality (XR) equipment. This state-of-the-art facility not only enhances multi-modal perception and generation but also fosters collaboration with the Social XR lab at the Centrum Wiskunde & Informatica (CWI), enabling seamless remote interactions between scientists and students from both institutions. 

Advancing AI Integration in the European Energy Sector

As the digital age transforms the energy landscape, artificial intelligence (AI) offers more and more solutions for enhancing efficiency, resilience, and sustainability. In collaboration with EPRI Europe, TU Delft is spearheading the AI-EFFECT project, which focuses on accelerating the development, testing, and validation of AI applications in the energy sector.

Speech by Tim van der Hagen at World Future Forum

Chairman of the Executive Board and Rector Magnificus Tim van der Hagen delivered this message this week at the World Future Forum in Lisbon.

Looking for help? Ask a fellow student!

Connect! In September, TU Delft started the pilot project Connect: a place on campus where you can go with your questions to a fellow student, in the spirit of 'for and by students'. Not sure where to go with questions about your studies, personal development or wellbeing? Connect's student hosts are happy to help and think with you, whether your question is big or small. You are welcome to drop in between 12:00 and 14:00 Monday to Friday. In November you can find us Monday to Wednesday in Exhale and Thursday and Friday in the Aula, next to the TU Delft shop. In December we are in the Echo on Mondays and Tuesdays and in the Aula on Wednesdays to Fridays. See the current list of locations and opening hours here .

X is cleaning up!

Friday 15 November, between 10:30 and 11:30 am, X is hosting a giveaway event! We have some furniture and other items left that are still too good to throw away, so we'd like to make others happy with it. As a TU Delft student, you are welcome to come and see if there's anything you can use. All items are for free. How the giveaway works: First come, first served. You will be assisted in the order of arrival. Sign in at 10:30 a.m. in Freetown Foyer. A line will be created at the registration desk. Tickets will be handed out in the order of the line, granting access to the room with all available items. Each person may choose and take up to 2 items. You must take the items immediately. Items cannot be left at X. You are responsible for any required transportation and/or carts. You should also bring any necessary tools (for example, to disassemble a cabinet). Once they're gone, they're gone. The registration desk closes at 11:30 AM at the latest. Goods will not be taken back. The event is for students studying at TU Delft. Other groups are excluded from participation. Items cannot be viewed in advance. Some examples of items we will be giving away: compartment cabinets from IKEA, old theater spotlights, chairs, a laughing mirror, clocks, desk lamps, a table.

Workshop: Are we prepared for the challenge of critical materials?

On 31 October, policymakers, industry leaders and academic institutions gathered at TU Delft | Campus The Hague to jointly reflect on education & knowledge transfer on raw material shortages. The event focused on collaboratively exploring key questions: What are the knowledge needs? What knowledge resources are needed? How can we effectively organize cooperation and implementation?

Explainer: Ice Melt and Antarctica

It is most unlikely to happen, but if all the ice in Antarctica were to melt, the sea level would rise 57 metres. That would put the Netherlands almost completely under water. For a long time, scientists thought this was impossible: the South Pole is unassailable. It turns out otherwise. Our PhD candidate Sophie de Roda Husman investigates the real situation and explains that one fragmenting ice shelf triggers a series of events that accelerate the melting process in this movie from Universiteit van Nederland. For her doctorate Sophie created a historical record of Antarctic surface melt that is high-resolution in both space and time, by gathering a large amount of data with remote sensing techniques. Watch the movie (in Dutch):

Switch from Qualtrics to Microsoft Forms

A new platform for creating and managing surveys The current survey creation and management platform, Qualtrics, will soon be phased out. Microsoft Forms will be the new platform for collecting data through surveys for the time being. A tender for TU-wide survey software will be launched soon. Why this change? Qualtrics is being phased out due to the doubling of costs. As an alternative, Microsoft Forms survey software offers better integration with our existing systems, a higher level of security and greater ease of use. This will make it easier and more efficient for everyone to create and complete surveys. What does this mean for you? Qualtrics will only be supported for current surveys. In fact, once Qualtrics is discontinued, it will no longer be possible to retrieve or migrate data from this platform. It is therefore important to migrate any current or upcoming surveys to Microsoft Forms as soon as possible. All use of Qualtrics must be closed and archived by 1 July 2025. Tender A tender for TU-wide survey software will be launched soon. Do you have requirements you would like to share? Let us know at projectsurveytool-esa@tudelft.nl .

IDE celebrates the opening of the ‘Triangular – Cooking for what Matters’ exhibition

On 13 November, IDE will celebrate the opening of the ‘Triangular - Cooking for What Matters’ exhibition in the IDE Etalage. The grand reveal will take place at 13:30, directly after the open lecture by Markus Orthey, Braun Design Director. Created in collaboration with Braun, the exhibition features work by students from TU Delft’s Faculty of Industrial Design Engineering and Politecnico di Milano.

IDE in the media (Week 45 2024)

Curious about which of our researchers, educators, students, and alumni have been featured in the media recently? Then be sure to check out this week's "In the Media" article.

IDE Publication Highlights (Week 45 2024)

Click here to view recent publication highlights from our staff and students.

Designing for Human Autonomy in the age of autonomous technologies

The drive for autonomous technology spans from workplaces to personal lives, promising breakthroughs in safety, healthcare, and daily conveniences. But this raises a crucial question: What happens to human autonomy? And how to enhance it through design? Historically seen as a tool to enhance our freedom, today’s technology risks undermining human control and agency.