Corporate Brochure TU Delft by TU Delft

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Foreword Programmes Extension School Nuna7 Faculties Partner Universities Facts and figures Education Research Institutes Research facilities Entrepreneurship Campus Contact

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The engineer in a crucial role In 2050, nine billion world citizens will want to live long and healthily in a clean world that has all the necessary conveniences. As a result of this, the demand for energy will increase, even though we know that fossil fuels will probably not be able to meet those demands. Intensive use of oil, gas and coal could have far-reaching consequences for our climate and environment. The sea level is rising. How can we ensure the safety of densely populated river deltas? Advances in science and technology ensure that we are living ever longer. That is good news, but how can we maintain the high quality of life for as long as possible? In 2050, those nine billion people will want to move around and send products and goods all over the globe. And yet in various places, the infrastructure already appears to be buckling under the increasing mobility.

In short, the 21st century will place significant demands on our flexibility and, in particular, our technological ingenuity. And therefore on universities of technology like Delft University of Technology. Unfortunately, there are no simple solutions. Creativity is necessary and this is where engineers can play a crucial role. It is up to engineers to come up with solutions and to inspire others to apply these solutions in practice. Scientists from the Delft University of Technology work on solutions for the major social issues. They do so together with specialists from all over the world. The university also challenges its students to think creatively, and in doing so to deviate from the beaten path. I cannot actually think of a greater compliment. The Delft University of Technology engineer is a creative doer who can think out of the box, a passionate seeker of tangible solutions that matter, with entrepreneurial spirit. The Delft University of Technology engineer is only satisfied with the best and thinks beyond frontiers, both literally and figuratively. Every day, I encounter unexpected new examples of this in my work and every day they continue to inspire me.

Karel Luyben, Dirk Jan van den Berg, Anka Mulder â&#x20AC;&#x201C; Executive Board Delft University of Technology

Dirk Jan van den Berg â&#x20AC;&#x201C; President of the Executive Board Delft University of Technology

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Studying is not just a question of acquiring knowledge. Delft University of Technology (TU Delft) challenges its students to think critically, to be creative and to translate their fascination for technology into fresh, innovative ideas.

In addition to studying, TU Delft students excel in projects and products that demonstrate what they can achieve with their knowledge and creativity. They thus become what are known as ‘typical Delft engineers’.

Studying at Delft University of Technology BSc and MSc programmes Our 16 BSc and 30-odd MSc programmes cover almost the entire range of engineering disciplines. Our BSc programmes are broad in their scope, because a 21st-century engineer needs knowledge that straddles a range of scientific and technical disci-plines. In addition to gaining a thorough theoretical grounding, our students become acquainted with professional and research practice. They are also provided with an orientation regarding issues that affect society, and can broaden their minds by choosing from an extensive range of minors. Most Dutch BSc students continue their studies by embarking on a twoyear MSc programme, in either the same or a different field. Our MSc programmes also attract international students from all over the world.

Excellence programmes Excellence among students should be promoted and rewarded. We offer outstanding students additional challenges. They can follow a second study programme, leading to a double degree. On the extracurricular front, they can take part in special activities and projects or stand for executive positions with student clubs and societies. Bachelor’s and Master’s students looking for a challenge over and above what their curriculum offers, can also apply to take part in the Honours Programme Delft. Honours students take on additional subjects and carry out independent research. As they design a large part of the programme themselves, they can also opt to write a business plan, carry out a project for a company or give an academic lecture to their fellow students.

Graduate School Research is the foundation on which we build all the other initiatives of our university. This makes Doctoral Education (the education of our PhD candidates) one of our highest priorities. Our Graduate School oversees the entire Doctoral Education process and serves as a training centre for new generations of researchers. Our PhD candidates have the opportunity to immerse themselves in highimpact research projects across a variety of disci-plines and to benefit from close interaction with world-class researchers and educators. The Graduate School offers them a broad training in generic and transferable skills, so that after graduation they can hold a variety of advanced professional positions even in non-scientific fields.

Student at work in the model hall at the Faculty of Architecture and the Built Environment

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Extension School Delft University of Technology is dedicated to delivering a world-class education to people all over the world. We can meet the rapidly increasing worldwide demand for education through open and online education. Online resources are also a valuable addition to our on-campus programmes. In 2014, we founded the Delft Extension School, which incorporates our entire online education programme.

Pioneering online education At Delft, we have a history of online education. Over the years, more than 120 courses and over 10,000 web lectures have been made publicly available through OpenCourseWare. Since 2010, these materials have also been accessible through iTunes U. All these courses attract students from across the globe. We take great pride in enhancing human learning worldwide. We are a member of the Open Education Consortium (OEC) and wholeheartedly embrace its mission to ensure that everyone, everywhere has access to the education they need to build their futures. Anka Mulder – our vice president for Education and Operations – received the consortium’s 2014 Leadership Award for championing the cause of open education.

MOOCs In 2013, Delft University of Technology started offering massive open online courses (MOOCs) on edX, the open source education platform founded by MIT and Harvard. Our first MOOCs – ‘Solar Energy’ and ‘Introduction to Water Treatment’ – drew the attention of over 80,000 online students in over 100 countries. Several thousand participants went on to complete the course, including all assignments, and received a certificate. Both MOOCs won an Open MOOC Award 2014 from the Open Education Consortium. We have since expanded our range of MOOCs to include subjects ranging from aeronautical engineering to technology for biobased products. MOOCs enable us to share our expert knowledge on these subjects with a worldwide audience. They also give us the opportunity to interact with thousands of interested and interesting students, making MOOCS a valuable two-way learning experience.

Online Distance Education For those who wish to obtain accredited certificates and diplomas, TU Delft offers complete and partial online education up to Master’s level. These programmes are aimed not only at students, but also at professionals who are pursuing continuing education. The Extension School therefore offers flexible and modular programmes that are suited to working professionals. Participants can choose between various forms of delivery, such as online only or blended programmes, leading to non-degree professional certificates. Additional on-campus (summer) courses can be taken by those who wish to pursue a full Bachelor’s or Master’s degree. Innovating education Our campus students can benefit from blended learning – a mix of face-to-face teaching and online learning. This allows them to become better prepared for classes and be more engaged during lectures. Thus, online resources also improve the learning experience of our campus students. In term time, our campus hosts some 19,000 Dutch and international students, while our online students can visit the campus between terms for the necessary lab work and exams. An interesting side-effect of online education, especially in the case of MOOCs, is the amount of data we can accumulate on study behaviour. This enables us to continually improve both our online and our on-campus education.

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Online Distance Education (ODE)

OpenCourseWare (OCW)

Campus Education

Massive Open Online Courses (MOOCs)

Campus Education 20,000 on-campus students Bachelor – Master – PhD degrees Online Distance Education (ODE) Full Master Degree / Accredited Course Certificate Massive Open Online Courses (MOOCs) Online interaction Certificate of completion OpenCourseWare (OCW) Over 120 courses Over 10,000 web lectures

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NUNA7 23.09.2013 - 12:21 between Alice Springs and Kulgera – Solar Challenge 2013 Accross Australia

NUNA7

DARWIN

Nuna – the famous solar powered racing car – won five of the last seven editions of the World Solar Challenge in Australia. Delft students are using their inspirational Nuna to push back the frontiers of what is possible with solar energy.

ADELAIDE

TU Delft has always been an institute where research and teaching go hand in hand. It is a place to study, but we also expect more of our students. Even during their studies, we want them to use their inventiveness to put technology into practice. This approach can produce wonderful results, such as the Nuna solar car, the Prêtà-Loger house or the Senz umbrella. TU Delft offers its students a tough and demanding degree programme. But we cannot settle for less, as our graduates have an immense responsibility to shoulder: they are entrusted with finding solutions to the problems that future generations will face.

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Faculties Aerospace Engineering (AE) Most staff and students at the AE Faculty share a passion for flying: be it planes, kites, satellites or micro air vehicles. With subjects ranging from astrodynamics to novel aerospace materials, research and education cover the entire spectrum of aerospace engineering, and also explore related fields such as wind energy or unmanned underwater vehicles. AE is the only aerospace engineering Faculty in the Benelux and one of the largest in the world, and has close ties with the aerospace and other industries. Its excellent facilities, including wind tunnels, cleanroom and a flight simulator, ensure that students are involved in practicals from their first year.

Civil Engineering and Geosciences (CEG) As a low-lying, densely populated delta country, the Netherlands is dependent on a network of civil engineering structures to remain habitable, hence water-related engineering is an important theme of research at the Faculty. The subsurface is another field of study, important not only for most building projects, but also for many sorts of resource extraction. Earth as a system is studied with the help of sophisticated remote sensing technology. All in all, students at CEG can choose from a host of specialisations, and once graduated they will find they are just as needed as back in 1842, when the need for civil engineers was at the heart of the foundation of TU Delft.

Applied Sciences (AS) Can quantum physics be used to deal with big data? Are we able to unravel our DNA’s mysteries? And how can engineers contribute to a sustainable society? The experts in physics, life sciences and chemical engineering at the Faculty of Applied Sciences believe that their work should contribute to change. Crossing borders of nations, disciplines and industry, the results from their ground-breaking research are transformed into technological applications with a focus on healthcare, renewable energy and sustainability in general. The lab is never far away for students either, as programmes at AS are immersed in research-oriented education.

Electrical Engineering, Mathematics and Computer Science (EEMCS) Electrical engineering, mathematics and computer science are everywhere. They are at the heart of systems we use on a daily basis, like the internet or car navigation, and in technologies that are being developed for our future, such as sustainable methods to generate, store and distribute electricity. With progressing globalisation – made possible by IT – our lives will become ever more networked. Expanding virtualisation will also lead to new paradigms. The Faculty of EEMCS is at the forefront of these developments, creating knowledge that will make vital contributions to global welfare, well-being, and security.

Architecture and the Built Environment (Arch) Established in 1904, the Faculty of Architecture and the Built Environment is one of the largest architecture faculties in Europe, and a leading design academy. Students at the faculty are educated to become the architectural engineers needed address the issues facing 21st century architecture, such as social change, sustainability and climate. Researchers and designers at Arch approach these issues with the help of a broad range of disciplines, including city planning, history, social sciences, real estate development, and geo-information science. They share their new insights with partners from governments, industry, designers, and the construction industry, but most of all with ever new generations of students.

Industrial Design Engineering (IDE) Designing for our future. That is the core business of students and researchers at the faculty of IDE. They design and improve products and services that deal with society’s major challenges. And they are the experts, as they have been doing it for more than 45 years. Over 5,000 Industrial Design Engineers have graduated from the faculty since it was founded in 1969. IDE is still among the largest university design programmes in the world. Nowadays, the emphasis is on the design of durable products and services, taking into account the interests of users, industry, society and the environment. Perhaps design can even be used to stimulate users to change their behaviour, thus helping to solve (future) problems ranging from obesity to material scarcity.

Mechanical, Maritime and Materials Engineering (3mE) What do minimally invasive surgery, off-shore dredging and automated driving have in common? They are all based in mechanical engineering. In fact, in today’s world nothing moves without it. At the Faculty of 3mE, mechanical engineering has joined forces with maritime and materials engineering. Jointly, experts in these three disciplines produce exciting research on a range of subjects, including energy, environment, food supplies, housing, water, transport, security and healthcare. The scope of the discipline is one of the attractions for its many students, who can also get hands-on experience in first-rate facilities including a robotics lab, a towing tank and a process technology lab. Technology, Policy and Management (TPM) Today’s world is facing grand challenges in the fields of energy, sustainability, mobility and security. Grand challenges need grand innovations. Yet breakthroughs do not appear out of thin air, as innovations are born in a web of technology, politics and values. Hence, solutions to the world’s biggest problems depend on moral choices, ethical values and the ability to resolve value conflicts as much as on the scope and quality of our scientific and engineering knowledge. To this end, researchers at the Faculty of TPM, integrate a substantial knowledge of natural science and engineering with insights from economics, the humanities, and the social and behavioural sciences.

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Erasmus Universiteit Rotterdam Universiteit Leiden Technische Universiteit Eindhoven Universiteit Twente Universiteit Gent Belgium Katholieke Universiteit Leuven Belgium Czech Technical University in Prague Czech republic Technical University of Denmark Denmark Aalto University Finland Paris Tech France INSa Lyon France RWTH Aachen Germany Technische Universität München Germany Budapest University of Technology and Economics Hungary Politecnico di Milano Italy NTNU Trondheim Norway Moscow Institute of Physics & Technology Russia Chalmers tekniska högskola Sweden Lunds universitet Sweden KTH Royal Institute of Technology Sweden ETH Zurich Switzerland EPF Lausanne Switzerland University of Oxford United Kingdom University of Cambridge United Kingdom University of Manchester United Kingdom Imperial College London United Kingdom University of Glasgow United Kingdom Tsinghua University China Beijing Institute of Technology China Fudan University China South China University of Technology China Shanghai Jiaotong University China Hohai University China Hongkong University of Science & Technology Hongkong Bandung Institute of Technology Indonesia IIT Delhi India IISc Bangalore India Tokyo University Japan Tokyo Institute of Technology Japan Osaka University of Technology Japan KEIO University Japan National University of Singapore Singapore Nanyang Technological University Singapore Korea Advanced Institute Science & Technology South Korea Water Resources University, Vietnam Hanoi University of Natural Resources and Environment Vietnam Massachusetts Institute of Technology USA California Institute of technology USA Georgia Institute of Technology USA University of Texas at Austin USA Melbourne University Australia University of Queensland Australia

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Partner Universities

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4,900 Full Professors

Total Students

Bachelor insert

Scientific staff

4,330

Auxiliary staff

Master insert 550

370

STUDENTS

STAFF

Total students

Scientific staff

20,000

1st year BSc

2,910

Full Professors

1st year MSc

1,180

Auxiliary staff

OUTPUT

2,660 450 1,890

Dissertatons

Scientific publications Professional publications BSc+MSc diplomas

370 4,900 550 4,330

16 RANKING World Top in Technology (QS)

SCIENCE PARK

Total Businesses TU Delft Spin-offs Employees

219 192 5,574

ALUMNI Total alumni

50,000+

Facts and figures (2014) 11

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Master

Master track or profile •

Bachelor

Faculty

Geomatics and the Built Environment Architecture • Urbanism • Real Estate & Housing • Building Technology • Landscape Architecture •

Architecture, Urbanism and Building Sciences

Architecture

Biocatalysis • Biochemical Engineering • Cell Factory •

Life Science & Technology

Life Science & Technology (with Leiden University)

Chemical Product Engineering • Nuclear Science and Engineering • Process Engineering •

Chemical Engineering

Molecular Science & Technology (with Leiden University)

Bionanoscience • Imaging Physics • Quantum Nanoscience • Radiation Science & technology • Transport Phenomena and Fluid Flow •

Arch

AS Applied Physics

Applied Physics

Nanobiology (with Erasmus University Rotterdam)

Double bachelor Applied Physics/Applied Mathematics

Industrial Ecology (with Leiden University)

Educ a

Science Education and Communication (3TU)

Sustainable Energy Technology (3TU) Aerodynamics and Wind Energy • Aerospace Structures and Materials • Control and Operations • Flight Performance and Propulsion • Space Flight • Wind Physics • Rotor Design • Electric Power Systems • Offshore Engineering • Electrical Sustainable Energy • Microelectronics • Signals and Systems • Telecomm. and Sensing Systems •

Data Science & Technology • Software Technology •

Aerospace Engineering

European Wind Energy Master

Electrical Engineering

Applied Mathematics

Computer Science

Computer Engineering Embedded Systems (3TU) EIT ICT Labs Master

Double bachelor Applied Physics/Applied Mathematics

EEMCS

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Design for Interaction

IDE

Industrial Design Engineering

Integrated Product Design

Strategic Product Design

Civil Engineering

Applied Earth Sciences

Coastal and Marine Engineering and Management

CEG

• Building Engineering • Geo-Engineering • Geoscience and Remote Sensing • Hydraulic Engineering • Structural Engineering • Transport and Planning • Water Management

Construction Management and Engineering (3TU)

Offshore Engineering (with 3mE and TPM)

Transport, Infrastructure & Logistics

c ation TPM

Systems Engineering, Policy Analysis & Management

Applied Earth Sciences

• Applied Geophysics • Geo-Engineering • Geoscience and Remote Sensing • Petroleum Engineering & Geosciences • Resource Engineering

Systems Engineering, Policy Analysis & Management

• Information Architecture

Management of Technology

Engineering and Policy Analysis

Mechanical Engineering

Marine Technology

Clinical Technology

Biomedical Engineering (with bridging programme)

3mE

• Transportation Engineering • Control Engineering • Sustainable Process and Energy Technologies • Precision and Microsystems Engineering • Biomechanical Design • Solid and Fluid Mechanics • Materials Engineering and Applications • Design, Production and Operation Science

Clinical Technology (under development)

Arch Architecture and the Built Environment AS Applied Sciences AE Aerospace Engineering EEMCS Electrical Engineering, Mathematics and Computer Science

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IDE Industrial Design Engineering CEG Civil Engineering and Geosciences TPM Technology, Policy and Management 3mE Mechanical, Maritime and Materials Engineering

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Research themes Energy Environment Infrastructure+Mobility Health Society is our continuous incentive to carry out ground-breaking research. How can we ensure that there is sufficient affordable and clean energy for all? Or that everyone has a clean and safe living environment? What kind of smart infrastructure do we need to develop in order to ensure that ever more densely populated cities remain attractive places in which to live and work? And how can we grow old in good health? These are some of today’s major social issues. In order to be able to answer these questions, TU Delft pays extra attention to research in four domains: Energy, Health, Infrastructure & Mobility and Environment. Fundamental research is part of this, because TU Delft aims to find solutions for tomorrow’s problems as well as today’s.

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Students at work in the cleanroom for satellite building at the Faculty of Aerospace Engineering

Interdisciplinary cooperation Scientific teaching and research have become interdisciplinary and international playing fields. Cooperation and collabo-ration, in every possible form, are in our DNA. We bring scientists and students from different disciplines together in our TU Delft research institutes, which focus on the societal themes of energy, health, the living environment, and infrastructure & mobility. We also have TU Delft institutes in the fields of climate, process technology, robotics, transport, and safety and security. These institutes also serve as a platform for interfaculty contacts, knowledge sharing and cooperation. At TU Delft, creativity and knowledge come together in many different settings.

National and international collaboration We are part of a regional partnership with Leiden University and Erasmus University Rotterdam, and together with our fellow technological universities in Twente and Eindhoven we form the 3TU alliance. On the international stage, we are part of the IDEA League, together with the technological universities of Paris, London, Aachen and Zurich. We have also opened joint research centres in Brazil, China and Vietnam, an important step towards becoming a global university where science really does know no boundaries. Cooperation is also central to successful innovation. To transform technological innovation into practical added-value applications for society, TU Delft cooperates with businesses, governments and civic organisations.

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Professor Leo Kouwenhoven with the test setup that was used to demonstrate the existence of the Majorana particle

QuTech Centre The new QuTech Centre forms the bridge between scientific research on the quantum computer and the Dutch high-tech industry. The centre is set to build one of the worldâ&#x20AC;&#x2122;s first working quantum computers. Scientific research on the quantum computer has really taken off in recent years. The Majorana particle, which was first detected in 2012 by researchers at Delft, can play an important role, as can quantum entanglement at a distance, which was also recently realised at Delft. With the help of quantum computers we can achieve things that are beyond the processing ability of conventional digital computers. For example, performing calculations on materials with extraordinary properties, or accurately determining the effects of medicines in a cell.

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TU Delft Institutes Solving today’s challenging problems requires innovation and collaboration. Our TU Delft Institutes bring together scientists from various disciplines to research a number of key areas in a comprehensive manner.

Robotics How can we get robots and humans to work together effectively? To solve that challenge, the TU Delft Robotics Institute combines disciplines such as mechatronics, embedded systems and control with human–machine interaction, ethics and design. The institutes focuses on three themes. The first – ‘swarm robots’ – concerns relatively simple robots that can jointly perform complex tasks, such as observation, measurement and data collection. The second theme is entitled ‘robots that work’: robots that can perform tasks for or together with humans in a human production environment. Finally, ‘interactive robots’ are robots that can work together and interact with humans at a physical or social/ cognitive level. Safety & Security Should we invest in new and better dikes, or in emergency units that can evacuate people after a dike has collapsed? In other words, how safe is safe enough? That is a vital research question in safety and security science. TU Delft is traditionally strong in modelling the probabilities and the consequences of undesired events. The TU Delft Safety and Security Institute applies this expertise to tackle challenges facing the world today. For example, if something were to happen to our increasingly interconnected infrastructures, the impact could be enormous. To avoid the risk of domino effects, such inter-dependencies should be monitored and controlled. Big data provides another challenge. The unprecedented amount of data gathered daily by electronic systems raises concerns about privacy and security.

Process Technology Our university has expertise on process technology at every scale, from nanotechnology to large-scale industrial processes. The TU Delft Process Technology Institute combines that knowledge to research three fields: process intensification, biochemical process technology, and process technology for advanced materials. Process intensification is all about production process efficiency: how can we produce using smaller amounts of raw materials and energy while also generating less waste? Biochemical process technology focuses on the production of biological raw materials, preferably from the biological waste products of food production. Process technology for advanced materials works on the development of new materials and the processes for producing and refining them. Climate The TU Delft Climate Institute brings together all research relating to data and climate. A number of themes are on the agenda, starting with ‘extreme weather and the city’. The challenge here is to obtain reliable data on rainfall, wind and temperature at a local level, which are not available at the moment. In climate models, clouds are the great unknown. Researchers at the institute are engaged in measuring, modelling and visualising clouds and their atmospheric radiation. Satellite observations are essential to the process of modelling, learning to understand and making predictions about, for example, rising sea levels. Then there is ‘climate information and policy’: how do you ensure that climate information is effectively taken on board in decision-making at all kinds of levels?

Transport We all use transport on a daily basis, to travel to and from work, to get our shopping in or to get a package delivered. The TU Delft Transport Institute aims to contribute solutions to transport problems and to develop new transport concepts that are fast, comfortable, safe and clean. To this end, the institute brings together researchers working on such subjects as passenger and freight transport, traffic systems, transport modes, vehicles and transport-related spatial planning. In transport, too, the collection of data on, for example, travel behaviour plays an increasingly large role. The multidisciplinary research also looks at behavioural sciences, for instance to explain driving behaviour. Sports Engineering Sports and sciences make a good team. Aerodynamics, hydrodynamics, biomechanics and materials sciences can all contribute to the development of the best sporting techniques, materials and equipment. Modern sensing technology can help improve sporting performance. Sports engineering problems can range from predicting and improving the bouncing behaviour of a ball to the real-time measuring of forces generated during skating. The TU Delft Sports Engineering Institute aims to assist athletes in pushing back the limits of their ability with the help of innovation. Just as importantly, the institute wants to stimulate greater sports participation (for example by designing an environment that encourages exercise) in order to create a healthier society.

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Research facilities TU Delft has extensive on-campus research facilities, ranging from wind tunnels, chip facilities and a high-voltage lab, to serious gaming and product evaluation facilities. These facilities are also available for corporate research.

3mE

Mechanical, Maritime and Materials Engineering • Driving and racing simulator labs • Fluid mechanics lab • Mechatronics lab • Perfect reactors lab • Process technology lab • Robotics lab • Thermo lab • Water tank and towing tank

Aerospace Engineering • Aeroplane hangar • Cessna Citation II jet aircraft • Clean room for satellite building • Flight simulator Simona • Kite laboratory • Laboratory for Earth Oriented Space research (LEOS) • Materials lab • Wind tunnels (low and high speed tunnels)

Arch

Architecture and the Built Environment • Architectural model hall • CAM Lab – CNC milling machine – 3d Printers with various techniques – Laser cutters – Machine workshop • Library

Applied Sciences • Chemical labs • Fermentation labs • Microbiology labs • Molecular biology labs • Nuclear research reactor • Optical labs • Vibration free labs

CEG

EEMCS

Electrical Engineering, Mathematics and Computer Science • uFabrication Center for IC/MEMS R&D • High-voltage engineering laboratory • INSYGHTLab for Intelligent Systems • Photovoltaics Laboratory • Radar test facilities

IDE

Industrial Design Engineering • Applied labs • Consumer Research Product Evaluation Lab • Foundational Labs • ID-StudioLab • ‘Made Of..’ Materials Library • Model making and Machine Lab • Perceptual Intelligence Lab • Physical and Ergonomics Lab

Civil Engineering and Geosciences • Construction Laboratory • Fluid Mechanics Laboratory • Geoscience & Engineering Laboratory •

Geoscience & Remote Sensing Laboratory

•

Microlab Recycling Laboratory Road and Railway Laboratory

• •

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The Reactor Institute Delft

The Reactor Institute Delft (RID) is part of the Applied Sciences faculty. The RID’s 2 MW pool-type research reactor is the only nuclear reactor in the Netherlands used in an academic setting. The reactor was not built to produce electrical power, but as a source of neutrons and positrons for research purposes. The knowledge and expertise of RID play an important role in fundamental and applied scientific research in various fields – for example, health and sustainable energy – both nationally and internationally.

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Entrepreneurship The research we conduct at Delft, in fields ranging from wastewater purification to care robots, can help to create a safe, clean and sustainable world. Moreover, our research leads not only to new knowledge, but also to practical applications and new enterprise. Thus, innovation is an important driver for the economy.

Ampelmann Transporting people to and from drilling rigs and wind turbines at sea can be expensive and dangerous. The Ampelmann – a transfer platform on six hydraulic legs, much like the undercarriage of a flight simulator – was designed to change that. Its precision motion sensors and intelligent control make it possible to measure and compensate for even the slightest movements of the ship. Consequently, the upper deck of the Ampelmann remains stable, and a telescopic gangplank provides a comfortable crossing. The concept was developed in 2002 under the guidance of researcher Jan van der Tempel, who now manages the successful company. Holland Container Innovations Empty sea containers take up just as much space as full ones, but why should you pay to transport and store air? TU Delft high-tech start-up Holland Container Innovations (HCI) has the answer. The company has launched the 4FOLD ISO certified foldable container. When folded, it occupies only 25% of the space taken up by a conventional container, representing enormous cost savings for shipping companies. It is also good for the environment: reduced CO2 emissions, and less congestion on the roads. This success did not go unnoticed. HCI has won several awards, most recently the German Promising Innovation in Transport Award 2014. SideWings and EcoTail Hjalmar and Gandert Van Raemdonck discovered a gap in the market. Trucks use a great deal of fuel unnecessarily because of the aerodynamic properties of their boxy trailers. To counter this, the brothers developed special side skirts and tail pieces to streamline truck trailers.

Their relatively simple SideWings solution can save as much as 5%. This translates into 1.5 litres of fuel per 100 kilometres, in addition to lower CO2 emissions. Combined, the SideWings and EcoTail can yield fuel savings of 10%. In 2012, their start-up company was acquired by global technology company WABCO, and their invention can now conquer roads all over the world. BabyBloom The BabyBloom – a revolutionary incubator – went into production in early 2011. The BabyBloom protects premature babies against light and noise, which can be harmful to brain development. Its ergonomic design lets medical staff work in a comfortable position. The incubator can also be slid under the bed so mother and child can see, touch and even smell each other. Such intimate contact is important to the wellbeing of both mother and child. Heleen Willemsen graduated cum laude at TU Delft on this design back in 2005. She is a good example of the perseverance required to launch a new product on the market. Senz stormproof umbrella Umbrellas have been around for centuries but until recently their design had hardly changed at all. The old-fashioned umbrella suffers from a number of design flaws – most annoyingly turning itself inside-out in strong winds and breaking easily. Frustrated by broken umbrellas, three TU Delft students – Gerwin Hoogendoorn, Philip Hess and Gerard Kool Wind – came up with the idea for windproof umbrella Senz. The Senz umbrella can withstand winds of up to force ten, and its unique asymmetrical design means it always finds the best position in the wind. Since it came to market in 2007, the Senz umbrella has gone from strength to strength.

I-optics Some 10 years ago, Michiel Mensink noticed that large medtech companies were slow to innovate. He saw things differently and developed the i-Optics Easy Scan, which uses subtle laser technology to make retinal images of unprecedented sharpness. Moreover, the elegant design of the scanner makes it seem less forbidding to patients and there is no need to use eye drops. The Easy Scan can perform a retinal examination for the early detection of diabetic retinopathy, age-related macular degeneration and glaucoma all within 3 minutes. Since making the first prototype at TU Delft in 2007, i-Optics has developed a range of pioneering diagnostics solutions. YES!Delft Business incubator YES!Delft helps students and staff at TU Delft to bring their knowledge to the market. And it does so successfully: the vast majority of the 100 companies that it has accommodated since its establishment in 2005 are still active today. Some of the start-ups have grown into companies with dozens of employees and turnovers in the millions. This is good news for the businesses themselves, for the regional economy and for society as a whole. YES!Delft enables inventions to reach the market that may otherwise have gathered dust in the university’s archives. YES!Delft provides accommodation, coaching, facilities and an extensive network of entrepreneurs.

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The Senz umbrella can withstand winds of up to force ten

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Campus

Our 162 acre campus houses all our academic, research and social accommodation

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Delft Historic Center

Campus Campus Map Map Campusplattegrond Campusplattegrond Campus Map Campusplattegrond Juli a

na l a

Buildings Buildings M ic

Nr Name Nr Name

l hie Ru

yte

Kluyverweg 2 Mekelweg 5 Julianalaan 134 Julianalaan 67

Mekelweg 10 Stieltjesweg 2 Mekelweg 4

Mekelweg 4

Rotterdamseweg 141 Landbergstraat 15

Mekelweg 2

Lorentzweg

Services

Leeghwaterstraat 42 Anthony Fokkerweg 5 Kluyverweg 1 Prometheusplein 1 Leeghwaterstraat 39 Jaffalaan 9a Cornelis Drebbelweg 5 Jaffalaan 9 Leeghwaterstraat 44

Landbergstraat 15

Rotter damseweg

Mĳnbouwstraat 120

Anthony Fokkerweg 1 Mekelweg 8

)

Jaffalaan 5 Lorentzweg 1 Kluyverweg 5

Schoemakerstraat

Van Mourik Broekmanweg 6 Stieltjesweg 1

chnologie

Leeghwaterstraat 46 Prometheusplein 1

& Control, dersteuning

Stevinweg 1

Van der Waalsweg 16 Rotterdamseweg 145

Mekelweg

Rotterdamseweg 380 Kluyverweg 3 Leeghwaterstraat 36

ek, mE)

Leeghwaterstraat

2,4 km

Mekelweg 15

van Mourik Broekmanweg

Rotterdamseweg 137

Van der Waalsweg

Leeghwaterstraat

rwĳsruimten, Kluyverweg 4+6

N.C. kistweg

twikkeling

a at

Landbergstraat 19

r s tr

Cornelis Drebbelweg 9

a ke

Stevinweg 1

oem

Julianalaan 136

S ch

Poortlandplein 6

(CiTG)

Mijnbouwstraat

64 64 62 62 22 22 8 8 20 20 5 5 6 6 12 12 23 23 43 43

Address Address

Feldmannweg

13 A

Aerodynamics Laboratory, Windtunnels Aerodynamics Laboratory, Windtunnels Aerospace Engineering Aerospace Engineering an la na Applied Physics li a Ju Applied Physics Architecture and the Built Environment Architecture and the 8 Built Environment Aula Conference Centre Aula Conference Centre en t so Biotechnology lan dp Biotechnology ui an Z la na Botanical Garden li a Ju Botanical Garden 12 Chemical Engineering Chemical Engineering Civil Engineering and Geosciences (CEG) Civil Engineering and Geosciences (CEG) Combined Heat and Power Plant Combined Heat and Power Plant 32a Composites laboratory / INHOLLAND 32a Composites laboratory / INHOLLAND Prins Bernhardlaan 38 Culture Division 38 Culture Division Jaffalaan 61 Delft Aerospace Structures & Materials Laboratory 61 Delft Aerospace Structures & Materials Laboratory 31 16 Deltares 1630Deltares 30a Landbergstraat 30a Education & Student Affairs 40 30a Education & Student Affairs 35 Education Building 35 Huygensweg 35 Education BuildingChristiaan 35 32 36 Electrical Engineering, Mathematics and Mathematics and 36 Electrical ComputerEngineering, Sciences (EEMCS) Computer Sciences (EEMCS) 32a 20 21(DEMO) 36 Electronic and Mechanical Support Division 36 Electronic and Mechanical Support Division (DEMO) 34 a Executive Board / Supervisory Board 34 a Executive Board / Supervisory Board 32 42 65 Facility Management & Real Estate, Classrooms, 34 Facility Management & Real Estate, Classrooms, 65 34 Aula Multi-tenant building Multi-tenant building 43 32 Industrial Design Engineering (IDE) 32 Industrial Design Engineering (IDE) 22 42 INHOLLAND University 18a 42 INHOLLAND University 3mE 44 34 Knowledge Valorisation centre / MultiMedia Services Knowledge Valorisation centre / MultiMedia Services 34a 34 (MMS) 34b / Corporate Policy Affairs (MMS) / Corporate Policy Affairs 18 60 Logistics and Environment Stieltjesweg 60 Logistics and Environment 35 45 45 Low Speed Windtunnel Laboratory Cornelis Drebbelweg 45 Low Speed Windtunnel Laboratory 16 21 Marketing and Communication 21 Marketing and Communication Keverling Buismanweg EWI 46 3436Mechanical, Maritime and Mechanical, Maritime and 34 Materials Engineering (3mE) Materials Engineering (3mE) Stevinweg 23 34b Multi-scale Physics 49 34b Multi-scale Physics 44 Multi-tenant building 44 Multi-tenant building 69 Multi-tenant building / Classrooms 28 69 Multi-tenant building / Classrooms Pieter Calandweg 46 Process and Energy Laboratory 46 Process and Energy Laboratory 50 Reactor Institute Delft 50 Reactor Institute Delft 3 Science Centre Delft 3 Science Centre Delft 32 Shared Service Centre ICT 32 Shared Service Centre ICT Balthasar van der Polweg 63 SIMONA Research Flight Simulator van den Burghweg 63 SIMONA Research Flight Simulator 37 Sports Division 37 Sports Division 31 Technology, Policy and Management 31 Technology, Policy and Management 66 The Fellowship 66 The Fellowship 37 Hague University of Applied Sciences 40 The 40 The Hague University of Applied Sciences Sports 28 TNO Built Environment & Geosciences van den Broekweg 28 TNO Built Environment & Geosciences 18 TNO Science and Industry 38 and Industry 18 TNO Science 49 TNO Science and Industry, Separation Technology 49 TNO Science and Industry, Separation Technology 21 TU Delft Library 21 TU Delft Library 23 University Corporate Office, departments: 23 University Corporate Office, departments: Finance & Control, Human Recources and Finance & Control, Human Recources and Administrative Support Department Administrative Support Department 18a Van Leeuwenhoek Laboratory 18a Van Leeuwenhoek Laboratory de

Adres

Gebouwen Gebouwen

Mekelweg 2

Kruithuisweg

Nr Naam Nr Naam

Adres Adres

Buildings 64 Aerodynamica Laboratorium, Windtunnels

Kluyverweg 2 Kluyverweg 2 Kluyverweg 1 Kluyverweg 1 Lorentzweg 1 Lorentzweg 1

Nr 64

Julianalaan 134 Julianalaan 134

Mekelweg 5 Mekelweg 5

64 Aerodynamica Laboratorium, Windtunnels 20 Aula Conferentie Centrum Name 20 Aula Conferentie Centrum 8 Bouwkunde (BK) Aerodynamics Laboratory, 8 Bouwkunde (BK) Windtunnels 5 Biotechnologie Aerospace Engineering 5 Biotechnologie 6 Botanische tuin Applied 6 Physics Botanische tuin

Gebouwen

Kluyverweg 2 Kluyverweg 2 5 AddressMekelweg Mekelweg 5

Nr Naam

Julianalaan 134 KluyverwegJulianalaan 2 134

Aerodynamica Lab

Julianalaan 67 KluyverwegJulianalaan 1 67

Aula Conferentie C

Poortlandplein 6 LorentzwegPoortlandplein 1 6

Bouwkunde (BK)

Stevinweg 1 Stevinweg 1 Leeghwaterstraat 36 Leeghwaterstraat 36

Julianalaan 136 12 Chemische Technologie JulianalaanJulianalaan 134 5 Architecture and the Built Environment 136 12 Chemische Technologie Stevinweg 1 23 Civiele Techniek en Geowetenschappen (CiTG) 6 5 Aula 23 Conference Centre en Geowetenschappen (CiTG) Mekelweg Stevinweg 1 Civiele Techniek 34 a College van Bestuur / Raad van Toezicht Cornelis Drebbelweg 9 JulianalaanCornelis 67 Biotechnology 34 a College van Bestuur / Raad van Toezicht Drebbelweg 9 12 32a Composietenlab./ INHOLLAND Landbergstraat 19 Poortlandplein 6 Botanical Garden 23 32a Composietenlab./ Landbergstraat 19 INHOLLAND Mekelweg 10 38 Cultuurcentrum 34 a JulianalaanMekelweg 136 Chemical Engineering 10 38 Cultuurcentrum

Landbergstraat 19 Landbergstraat 19

16 Deltares Civil 16 Engineering Deltaresand Geosciences (CEG)

Julianalaan 67 Julianalaan 67

Poortlandplein 6 Poortlandplein 6

Julianalaan 136 Julianalaan 136

5 6

Stieltjesweg 2 Stevinweg Stieltjesweg 1 2

32a

Prometheusplein 1 21 TU Delft Library Jaffalaan 5Prometheusplein 1 Technology, and Management 21 TU Policy Delft Library Stevinweg 1 Van Mourik Broekmanweg 6 23 Universiteitsdienst, directies: Financiën & Control, Kluyverwe Stevinweg 1 66 6 The Fellowship Van Mourik Broekmanweg 23 Universiteitsdienst, directies: Financiën & Control, Stieltjesweg 1 Stieltjesweg 1

Leeghwaterstraat 46 Leeghwaterstraat 46

Prometheusplein 1 Prometheusplein 1

Stevinweg 1 Stevinweg 1

49 21

Van der Waalsweg 16 Van der Waalsweg 16 23

L&R

Pedestrian area

Voetgangersgebied Busstop

Mekelweg

Fietspad

Kluyverweg

Bushalte

3 minuten/minutes 350 minuten/minutes

Parking Parkeerplaats Park / sports ﬁeld

Park / sportsveld

Centraal informatiepunt TU Delft

44 44 Verzamelgebouw TNO Science and Industry 69 Verzamelgebouw / onderwĳsruimten 69 Verzamelgebouw / onderwĳsruimten TNO Science and Industry, Separation Technology 61 Vliegtuighal 61 Vliegtuighal TU Delft Library 43 Warmte Krachtcentrale 43 Warmte Krachtcentrale University Corporate Office, departments: 34 Werktuigbouwkunde, Maritieme Techniek, Finance Control, Human Recources and Maritieme Techniek, 34 & Werktuigbouwkunde, Technische Materiaalwetenschappen (3mE)

18a Van Leeuwenhoek Laboratory

Composietenlab./ I

TNO Industrie en T

Rotterdamseweg 145 Rotterdamseweg 145 Stieltjesweg 1 Rotterdamseweg 380 Rotterdamseweg 380 18a Leeghwaterstraat 46 Kluyverweg 3 44 Kluyverweg 3 Prometheusplein 1 Leeghwaterstraat 36 Leeghwaterstraat 36 69 Stevinweg 1 Mekelweg 2 Mekelweg 2 61

Van der Waalsweg 16

TU Delft Library

Universiteitsdienst Personeel en Orga

Van Leeuwenhoek Verzamelgebouw

Verzamelgebouw / Vliegtuighal

Warmte Krachtcen

Werktuigbouwkun Technische Materi

Technopolis

69 69

TU buildings TU buildings TU gebouwen TU gebouwen

Cycle path Cycle path Fietspad Fietspad

Other buildings / prospective buildings Other buildings / prospective buildings Overige gebouwen / gebouwen in aanbouw Overige gebouwen / gebouwen in aanbouw

Pedestrian area Pedestrian area Voetgangersgebied Voetgangersgebied

Building number Building number Gebouwnummer Gebouwnummer

Busstop Busstop Bushalte Bushalte

TU gebouwen

(Main) entrance building (Main) entrance building (Hoofd)ingang gebouw (Hoofd)ingang gebouw

Parking Parking Parkeerplaats Parkeerplaats

Overige gebouwen / gebouwen in

Park / sports ﬁeld Park / sports ﬁeld Park / sportsveld Park / sportsveld

Gebouwnummer

Delivery entrance Delivery entrance Goedereningang Goedereningang roundway roundway ring ring

Road Road Autoweg Autoweg

Tel: 015-2781010

College van Bestuu

Personeel en Organisatie en Bestuursondersteuning Personeel en Organisatie en Bestuursondersteuning The Hague University of Applied Sciences Rotterdamseweg 137 g5 21 Van der Waalsweg 16 18a Van Leeuwenhoek Laboratorium Van der Waalsweg 16 18a Van Leeuwenhoek Laboratorium Van Mourik Broekmanweg 6 23 TNO Built Environment & Geosciences Verzamelgebouw

TU TU TU TU

Water

Civiele Techniek en

Legend(a) Legend(a)

Watermanweg

Anthony Fokkerweg

Chemische Techno

Rotterdamseweg 137 g5 Rotterdamseweg 137 31 g5

A13

Cycle path

Botanische tuin

Mekelweg 4 36 Dienst Elektronische en Mechanische Ontwikkeling Leeghwaterstraat 36 4 38 Cultuurcentrum Combined Heat and Power Plant Mekelweg 36 Dienst Elektronische en Mechanische Ontwikkeling (DEMO) Kluyverweg 3 (DEMO) 32a Landbergstraat 19 16 Deltares Composites laboratory / INHOLLAND Kluyverweg 3 36 Elektrotechniek, Wiskunde en Mekelweg 4 Stieltjesweg 2 Elektrotechniek, Wiskunde en 36 Division Mekelweg Mekelweg 10 38 Culture 36 Dienst Elektronisch Informatica (EWI) 4 Stieltjesweg 2 Informatica (EWI) (DEMO) Jaffalaan 9a 61 Delft 65 KluyverwegKluyverweg 3 4+6 Aerospace Structures & Materials Laboratory Facilitair Management & Vastgoed, onderwĳsruimten, Jaffalaan 9a 65 Facilitair Management & Vastgoed, onderwĳsruimten, Kluyverweg 4+6 verzamelgebouw Cornelis Drebbelweg 5 36 Elektrotechniek, W Stieltjesweg 2 Cornelis Drebbelweg 5 16 Deltares verzamelgebouw Informatica (EWI) Mekelweg 4 40 Haagse Hogeschool Rotterdamseweg 137 30a Education Jaffalaan 9a Mekelweg 4 & Student Affairs 40 Haagse Rotterdamseweg 137 Hogeschool 65 Facilitair Managem Rotterdamseweg 141 42 Hogeschool INHOLLAND verzamelgebouw 35 Education Cornelis Drebbelweg 5 Building 35 INHOLLAND Rotterdamseweg 141 42 Hogeschool Mekelweg 4 Landbergstraat 15 32 Industrieel Ontwerpen (IO) Mekelweg 4 Mekelweg Landbergstraat 4 40 Haagse Hogeschoo Engineering, Mathematics 36 Electrical 15 32 Industrieel Ontwerpen (IO) and Cornelis Drebbelweg 9 Computer Sciences (EEMCS) Mekelweg 2 34 Kennis Valorisatiecentrum / MultiMedia Services Cornelis Drebbelweg 9 42 Hogeschool INHOL Mekelweg 2 34 Kennis Valorisatiecentrum / MultiMedia Services (MMS) / directie instellingsbeleid Kluyverweg 4+6 36 Electronic(MMS) Mekelweg 4 and Mechanical Support Division (DEMO) / directie instellingsbeleid Kluyverweg 4+6 32 Industrieel Ontwer Leeghwaterstraat 42 45 Lage snelheids Windtunnel Laboratorium 34 a Executive Cornelis Drebbelweg 9 Board / Supervisory Board Laboratorium Leeghwaterstraat 42 45 Lage snelheids Windtunnel 34 Kennis Valorisatiec Landbergstraat 15 Anthony Fokkerweg 5 60 Logistiek en Milieu Landbergstraat 15 (MMS) / directie in 65 Facility KluyverwegAnthony 4+6 Real Estate, Classrooms, Fokkerweg 5 60 Management Logistiek en&Milieu Rotterdamseweg 14 Multi-tenant building Kluyverweg 1 62 Luchten Ruimtevaarttechniek (LR) Rotterdamseweg 14 45 Lage snelheids Wi Kluyverweg 1 62 Lucht- en Ruimtevaarttechniek (LR) Mekelweg 2 Prometheusplein 1 21 Marketing Design Engineering (IDE) & Communicatie 32 Industrial Landbergstraat 15 Mekelweg 2 60 Logistiek en Milieu Prometheusplein 1 21 Marketing & Communicatie Leeghwaterstraat 39 34b Multi-scale Physics Rotterdamseweg 14 42 INHOLLAND University Anthony Fokkerweg 5 Leeghwaterstraat 39 62 Lucht- en Ruimtev 34b Multi-scale Physics Anthony Fokkerweg 5 9a 30a Onderwĳs & Studentzaken 2 34 Knowledge Valorisation centre / MultiMedia Services Mekelweg Jaffalaan Leeghwaterstraat 42 21 Marketing & Comm Jaffalaan 9a 30a Onderwĳs & Studentzaken (MMS) / Corporate Policy Affairs Leeghwaterstraat 42 Cornelis Drebbelweg 5 35 Onderwĳsgebouw 35 Prometheusplein 1 Cornelis Drebbelweg 5 34b Multi-scale Physics 35 Onderwĳsgebouw 35 60 Anthony Fokkerweg 5 Logistics and Environment Prometheusplein 1 Jaffalaan 9 30 Onderzoeksinstituut OTB Mekelweg 2 30a Onderwĳs & Stude Jaffalaan 9 30 Onderzoeksinstituut OTB 45 Low Speed Windtunnel Laboratory Mekelweg 2 Leeghwaterstraat 42 Leeghwaterstraat 44 46 Process and Energy Laboratory Leeghwaterstraat 44 35 Onderwĳsgebouw 46 Process and Energy Laboratory 21 Marketing and Communication Prometheusplein 1 Leeghwaterstraat 39 Mekelweg 15 50 Reactor Instituut Delft Leeghwaterstraat 39 30 Onderzoeksinstituu Mekelweg 15 50 Reactor Instituut Delft Mekelweg 2 34 Mechanical, Maritime and Rotterdamseweg 145 Mĳnbouwstraat 120 3 Science Centre Delft Materials Engineering (3mE) Rotterdamseweg 145 46 Process and Energ Mĳnbouwstraat 120 3 Science Centre Delft Rotterdamseweg 380 Landbergstraat 15 32 Shared Service Centre ICT Leeghwaterstraat 39 Physics Rotterdamseweg 380 34b Multi-scale 50 Reactor Instituut D Landbergstraat 15 32 Shared Service Centre ICT Leeghwaterstraat 44 Anthony Fokkerweg 1 63 SIMONA Research Simulator Rotterdamseweg 145 Fokkerweg 1 3 building Leeghwaterstraat 44 44 Multi-tenant Science Centre De Anthony 63 SIMONA Research Simulator Mekelweg 15 Mekelweg 8 37 Sportcentrum Rotterdamseweg 380 8 69 Multi-tenant building / Classrooms 32 Shared Service Ce Mekelweg 15 Mekelweg 37 Sportcentrum Mĳnbouwstraat 120 Jaffalaan 5 31 Techniek, Bestuur en Management (TBM) Leeghwaterstraat 445 Energy Bestuur Laboratory Mĳnbouwstraat 120 46 Process 63 SIMONA Research Jaffalaan 31 and Techniek, en Management (TBM) Landbergstraat 15 Lorentzweg 1 22 Technische Natuurkunde 50 Reactor Mekelweg Lorentzwe 15 DelftNatuurkunde Landbergstraat 15 37 Sportcentrum g1 Technische 22 Institute Anthony Kluyverweg 5 66 The Fellowship Mĳnbouwstraat 120 5 3 Science Delft Anthony 31 Techniek, Bestuur Kluyverweg 66 Centre The Fellowship Mekelweg 8 Van Mourik Broekmanweg 6 Fokkerweg 1 28 TNO Bouw en Ondergrond Landbergstraat 15 Centre Mekelweg 8 22 6 Technische Natuur Van Mourik Broekmanweg Fokkerweg 1 32 Shared 28 Service TNO Bouw enICT Ondergrond Jaffalaan 5 Stieltjesweg 1 18 TNO Industrie en Techniek 63 SIMONA Anthony Stieltjesweg 1 Flighten Simulator Jaffalaan 5 66 The Fellowship 18 Research TNO Industrie Techniek Kluyverwe Leeghwaterstraat 46 49 TNO Industrie en Techniek, Scheidingstechnologie 37 Sports Mekelweg 8 Kluyverwe Fokkerweg 1 Leeghwaterstraat 46 28 TNO Bouw en Ond 49Division TNO Industrie en Techniek, Scheidingstechnologie Mekelweg 10 Mekelweg 10

Administrative SupportMateriaalwetenschappen Department Technische (3mE)

Biotechnologie

Bus track Bus track Busbaan Busbaan

3 minuten/minutes

Water Water

Legend(a) TU buildings

Other buildings / prospective build

Building number

(Main) entrance building (Hoofd)ingang gebouw

Delivery entrance Centraal informatiepunt TU Delft Goedereningang Centraal informatiepunt TU Delft Tel: 015-2781010 Tel: 015-2781010 TU roundway TU ring Road Autoweg Bus track Busbaan

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E: info@tudelft.nl www.tudelft.nl Postal addres: P.O. Box 5 2600 AA Delft The Netherlands facebook.com/tudelft twitter.com/tudelft youtube.com/user/tudelft

Graphic Design: Paul Ouwerkerk/Graphic Language

T: +31 (0)15 27 89111

Photography: (p3) Marcel Krijger, (p4) Julia Gunther, (p7) Guus Schoonewille, (p8) Hans-Peter van Veldhoven, (p10/11) Christian Richters, (p15) Jacqueline de Haas, (p16) Sam Rentmeester, (p19/22) Danielle Brinkhuis

Contact Delft University of Technology

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