Delft University of Technology
Delft University of Technology is the largest and oldest Dutch public technical university, located in Delft, Netherlands. With eight faculties and numerous research institutes it hosts over 16,000 students (undergraduate and postgraduate), more than 2,600 scientists (including more than 200 professors), over 2,000 doctoral students, and more than 2,000 people in the support and management staff.
The university was established on January 8, 1842 by King William II of the Netherlands as a Royal Academy, with the main purpose of training civil servants for the Dutch East Indies. The school rapidly expanded its research and education curriculum, becoming first a Polytechnic School in 1864, Institute of Technology in 1905, and finally gaining full university rights in 1986.
Nobel laureates Jacobus van 't Hoff, Heike Kamerlingh Onnes, and Simon van der Meer have been associated with TU Delft. TU Delft is a member of several university federations including the IDEA League, CESAER, UNITECH, and 3TU.
Vision
TU Delft cooperates with many other educational and research institutions, both in the Netherlands and abroad. The high quality of our research and teaching is renowned. TU Delft has numerous contacts with governments, trade associations, consultancies, industry and small and medium-sized companies.
Strategic Plan
TU Delft has made a number of fundamental decisions concerning education, research, knowledge valorisation and organisation. In the years to come, these directional decisions will be further developed in order to strengthen TU Delft’s position as a leading university of technology.
History
Royal Academy (1842–1864)
Delft University of Technology was founded on January 8, 1842 by King William II of the Netherlands as Royal Academy for the education of civilian engineers, for serving both nation and industry, and of apprentices for trade. One of the purposes of the academy was to educate civil servants for the colonies of the Dutch East India Company. The first director of the academy was Antoine Lipkens, constructor of the first Dutch optical telegraph, called simply as Lipkens. Royal Academy had its first building located at Oude Delft 95 Street in Delft. On May 23, 1863 an Act was passed imposing regulations on technical education in the Netherlands, bringing it under the rules of secondary education.
Polytechnic School (1864–1905)
On June 20, 1864, Royal Academy in Delft was disbanded by a Royal Decree, giving a way to a Polytechnic School of Delft (Politechnische School van Delft). The newly formed school educated engineers of various fields and architects, so much needed during the rapid industrialization period in the 19th century.
Institute of Technology (1905–1986)
Yet another Act, passed on May 22, 1905, changed the name of the school to Technische College (Institute) of Delft (Technische Hogeschool Delft), emphasizing the academic quality of the education. Polytechnic was granted university rights and was allowed to award academic degrees. The number of students reached 450 around that time. The official opening of the new school was attended by Queen Wilhelmina of the Netherlands on July 10, 1905. First dean of the newly established College was ir. J. Kraus, hydraulic engineer. Corporate rights were granted to the College on June 7, 1956. Most of the university buildings during that time were located within Delft city center, with some of the buildings set on the side of the river Schie, in the Wippolder district.
Student organizations grew together with the university. The first to be established on March 22, 1848 is the Delftsch Studenten Corps housed in the distinctive Sociƫteit Phoenix on the Phoenixstraat. This was followed by the de Delftsche Studenten Bond (est. October 30, 1897) and the KSV Sanctus Virgilius (est. March 2, 1898). In 1917 Proof Garden for Technical Plantation (Dutch: Cultuurtuin voor Technische Gewassen) was established by Gerrit van Iterson, which today is known as Botanical Garden of TU Delft. In that period a first female professor, Toos Korvezee, was appointed.
Delft University of Technology (1986–present)
After the end of the Second World War, TU Delft increased its rapid academic expansion. Studium Generale was established at all universities in the Netherlands, including TU Delft, to promote a free and accessible knowledge related to culture, technology, society and science. Because of the increasing number of students, in 1974 the first Reception Week for First Year Students (Ontvangst Week voor Eerstejaar Studenten, OWEE) was established, which became a TU Delft tradition since then.
On September 1, 1986, the Delft Institute of Technology officially changed its name to Delft University of Technology, underlining the quality of the education and research provided by the institution. In the course of further expansion, in 1987 Delft Top Tech institute was established, which provided a professional master education in management for people working in the technology-related companies. On September 1, 1997, the 13 faculties of the TU Delft were merged into 9, to improve the management efficiency of the growing university. In the early 1990s, because the vast majority of the students of the university were male, an initiative to increase the number female students resulted in founding a separate emancipation commission. As a result Girls Study Technology (Meiden studeren techniek) days were established. In later years the responsibilities of the commission were distributed over multiple institutes.
Since 2006 all buildings of the university are placed outside of the historical city center of Delft. Relatively new building of Material Sciences department was sold, later demolished in 2007 to give place for a newly built building of the Haagse Hogeschool. Closer cooperation between TU Delft and Dutch universities of applied sciences resulted in physical transition of some of the institutes from outside to Delft. In September 2009 many institutes of applied sciences from the Hague region as well as Institute of Applied Sciences in Rijswijk, transferred to Delft, close to the location of the university, at the square between Rotterdamseweg street and Leeghwaterstraat street.
On May 13, 2008, the building of the Faculty of Architecture was destroyed by fire, presumably caused by a short circuit in a coffee machine due to a ruptured water pipe. Luckily, the architecture library, containing several thousands of books and maps, as well as many architecture models, including chairs by Gerrit Rietveld and Le Corbusier, were saved. The Faculty of Architecture is currently housed in the university's former main building.
In 2007 the three Dutch technical universities, TU Delft, TU Eindhoven and University of Twente, established a federation, called 3TU.
TU Delft logo
Through the course of the years the logo of the TU Delft changed a number of times, along with its official name. The current logo is based on the three university colors cyan, black and white. The letter "T" bears a stylized flame on top, referring to the flame that Prometheus brought from Mount Olympus to the people, against the will of Zeus. Because of this, Prometheus is sometimes considered as the first engineer, and is an important symbol for the university. His statue stands in the center of the newly renovated TU Delft campus, Mekelpark.
Campus
Initially, all of the university buildings were located in the historic city centre of Delft. This changed in the second half of the 20th century with relocations to a separate university neighborhood. The last university building in the historic centre of Delft was the university library, which was relocated to a new building in 1997. On the September 12, 2006 the design of the new university neighborhood, Mekelpark, was officially approved, giving a green light to the transformation of the area around the Mekelweg street (the main road on the university terrain) into a new campus heart. The new park replaced the main access road and redirect car traffic around the campus, making the newly created park a safer place for bicycles and pedestrians.
Mekelpark
New university neighborhood called Mekelpark (its name commemorating TH Delft professor and WW II resistance fighter, Jan Mekel, who was executed by the Nazis on May 2, 1942 in Sachsenhausen) was opened on July 5, 2009. Mekelpark replaced old parking structures, bike lanes and gas station, constructed between faculty buildings of the university in the late 1950s. Its 832-meter-long promenade eased the commute between faculty buildings. Both sides of the promenade are covered by stone benches, 1547 meters long in total. Some of the university buildings around the Mekelpark deserve certain attention.
Aula
TU Delft Aula was designed by Van den Broek en Bakema architecture bureau founded by two TU Delft alumni Jo van den Broek and Jaap Bakema. It was officially opened on 6 January 1966 by Dutch Prime Minister Jo Cals. It is a classical example of a structure built in Brutalist style. TU Delft Aula, which symbolically opens the Mekelpark, houses main university restaurant and store, as well as lecture halls, auditoria, congress center, and administrative offices of the university. All doctoral promotion, honoris causa ceremonies, as well as academic senate meetings take place in the Aula.
Library
The TU Delft Library, constructed in 1997, was designed by Delft-based Mecanoo architecture bureau. It is located behind university aula. The roof of the library is covered with grass, which serves as a natural insulation. The structure lifts from the ground on one side allowing to walk to the top of the building. The library is topped by the steel cone, giving its unique shape. The wall, opposite to the Aula is completely filled with glass. The library won the Dutch National Steel Prize in 1998 in the buildings of steel and hybrid constructions category .
Cultural and Sports Center
TU Delft Cultural Center (Cultureel Centrum) is located at Mekelweg 10 street, at the edge of the Mekelpark, opposite of the Aula. It was designed by architect Vera Yanovshtchinsky and opened to TU Delft student's and staff in 1995.
TU Delft Musea
Three musea are associated with the university: Science Centre Delft, Mineralogy-geology museum and Beijerinck en Kluyver archive.Science Centre Delft was opened in September 2010 and is located at Mijnbouwstraat 120 in Delft. Science Center Delft is a successor of Technical Exhibition Center. Technical Exhibition Center was established by a group of TU Delft professors with the aim of presenting the recent advances in technology to a wider audience. Parts of the collection were shown outside of Delft: in the Netherlands and abroad, including Israel and Czech Republic. The collection was permanently hosted in the building of former department of geodesy. The historical collections of Technical Exhibition Center were moved Delft Museum of Technology, located at Ezelsveldlaan street, in the buildings of the former department of naval architecture (Werktuig- en Scheepsbouwkunde), next to the city center of Delft. As Delft city council together with TU Delft decided to move the collection close to the university campus (currently the building of the former museum are transformed into lofts), Science Centre Delft shows visitors current TU Delft research projects are available, including Eco Runner and Nuna.Beijerinck en Kluyver archive hosts a collection of documents, exhibits and memorabilia of two scientists historically connected with the university.Mineralogy-geology museum is a part of Civil Engineering and Geosciences and contains around 200,000 geological, mineralogical and crystallographical items divided into numerous sub-collections. The oldest items date back to 1842 when the TU Delft (then Delft Royal Academy) was established.
Botanical Garden
TU Delft botanical garden dates back to 1917, where Proof Garden for Technical Plantation was established by Gerrit van Iterson Jr., TU Delft graduate and assistant to Martinus Beijerinck. Iterson Jr. was the first director of the garden until 1948. Creation of botanical gardens at TU Delft was partially a result of the increasing needs of systematized development of tropical agriculture in then Dutch colony of Dutch East Indies. Currently, the garden is located behind historical buildings of the university, at Julianalaan street in Delft, right next to old microbiology laboratory of Beijerinck. Over 7000 different species of plants, including tropical and subtropical plants, herbs, and ornamental plants cover the area of almost 2.5 ha. Furthermore, more than 2000 unique species are preserved in university's greenhouses. All facilities of TU Delft botanical garden are open to the public.
Faculties
TU Delft comprises eight faculties. These are (official Dutch name and faculty abbreviation are given in brackets): Mechanical, Maritime and Materials Engineering (3mE) (Werktuigbouwkunde, Maritieme Techniek & Technische Materiaalwetenschappen (3mE)), Architecture (A) (Bouwkunde (BK)), Civil Engineering and Geosciences (CEG) (Civiele Techniek en Geowetenschappen (CiTG)), Electrical Engineering, Mathematics and Computer Science (EEMCS) (Elektrotechniek, Wiskunde en Informatica (EWI)), Industrial Design Engineering (IDE) (Industrieel Ontwerpen (IO)), Aerospace Engineering (AE) (Luchtvaart- en Ruimtevaarttechniek (LR)), Technology, Policy and Management (Techniek, Bestuur en Management (TBM)), and Applied Sciences (AS) (Technische Natuurwetenschappen (TNW)).
Aerospace Engineering (AE)
Applied Sciences (AS)
Architecture (Arch)
Civil Engineering and Geosciences (CEG)
Electrical Engineering, Mathematics and Computer Sciences (EEMCS)
Industrial Design Engineering (IDE)
Mechanical, Maritime and Materials Engineering (3mE)
Technology, Policy and Management (TPM)
Education
Since 2004 TU Delft education system is divided into three tiers: bachelor, master and doctorate. Academic year is divided into two semesters: first semester from September until January and second semester from the end of January until July. Most of the lectures are available through OpenCourseWare on http://ocw.tudelft.nl.
Bachelor-level Studies
List of the Bachelor and Master programmes at Delft University of Technology
As of 2010 TU Delft offers 14 BSc programmes. TU Delft students obtain their degree after a three-year study. The test project finalizes the BSc studies. All BSc programmes are taught in Dutch, except for Aerospace Engineering programme, which is taught in Dutch and English.
Master-level Studies
List of the Bachelor and Master programmes at Delft University of Technology
As of 2010 TU Delft offers around 40 MSc programmes. The MSc studies take two years to complete. First year is devoted to theoretical studies, assignments and laboratory work. Second year is dedicated to research work, internships and thesis preparation.
TU Delft adopted European Credit Transfer System, where each year MSc student are required to obtain 60 ECTS points. Study progress of each TU Delft MSc student is monitored through faculty counsellor. An honors track exists for motivated MSc students, who obtained a mark of 7.5 or higher (in Dutch grading scale) and did not fail any courses. This track, associated with 30 ECTS points, is taken alongside regular MSc programme and must be related to student's regular degree courses or the role of technology in society. The honors track must be completed within the allowed time for MSc programme.
MSc programmes are also offered through 3TU federation, Erasmus Mundus programmes, and through IDEA League joint MSc programmes.
Doctoral-level Studies
Doctoral studies at TU Delft are divided in two phases. First phase, one-year long, serves as a test during which doctoral candidate must prove that he is capable performing research on a doctoral level. If the candidate passed the evaluation performed by his/her promotor, then during the next three years candidate performs research which must be finalized by submitting a doctoral dissertation. Doctoral thesis is evaluated by doctoral committee composed of TU Delft professors and academics outside of the university (within and outside of the Netherlands). Once the thesis is revised and comments of the committee members are applied, the candidate can approach the formal doctoral defense. In contrast to USA doctoral-level studies, doctoral candidate does not follow any lectures nor pass additional exams, instead he/she focuses solely on research.
Doctoral Defense
Doctoral defense is of ceremonial nature. It lasts exactly for an hour, during which doctoral candidate must answer all questions from every committee member. Sometimes doctoral candidate is accompanied by one or two Paranymphs, who theoretically might help defend a question asked by a committee member. The defense is ended by Bedel, who enters a senate room, holding a university staff and says in Latin It's time (Latin: Hora Est). After that committee moves to a separate room to decide whether to grant a doctorate or not. After that committee moves back to a room where a defense is held, introduced by a Bedel, and if the doctorate is granted promotor presents laudation praising a new doctor. All ceremony is chaired by a rector or its representative. Doctoral defense at TU Delft is public.
Undergraduates (Bachelors)
Programme structure
TU Delft offers three-year Bachelor of Science (BSc) programmes, focussing on mathematics, mechanics and physics. You will attend lectures and apply what you learn in projects. Right from the start you will be working in a team on assignments under the supervision of lecturers. A test or project concludes the Bachelor programme. Please check the academic calendar for the programme structure.
Credit point system
TU Delft uses the European Credit Transfer System (ECTS) employed by all universities in the European Union. One year consists of 60 ECTS credits, the total Bachelor programme consists of 180 ECTS.Delft University of Technology knows a Binding recommendation on continuation of studies (BSA). This means that you will have to gain a minimum of 45 ECTS credits during your first year of studies (from 2012-2013 onwards) in order to be allowed to proceed to the second year.
Language of instruction
The Bachelor programmes are taught in Dutch, except for Aerospace Engineering which is taught in both Dutch and English. The Institute of Technology & Communication provides Dutch language courses for foreigners.
Bachelor programmes
Aerospace Engineering | Applied Earth Sciences | Applied Mathematics |
Go to bachelor programme Aerospace Engineering | Go to bachelor programme Applied Earth Sciences | Go to bachelor programme Applied Mathematics |
Applied Sciences | Architecture | Civil Engineering |
Go to bachelor programme Applied Sciences | Go to bachelor programme Architecture | Go to bachelor programme Civil Engineering |
Computer Science | Electrical Engineering | Industrial Design Engineering |
Go to bachelor programme Computer Science | Go to bachelor programme Electrical Engineering | Go to bachelor programme Industrial Design Engineering |
Life Science & Technology | Marine Technology | Mechanical Engineering |
Go to bachelor programme Life Science & Technology | Go to bachelor programme Marine Technology | Go to bachelor programme Mechanical Engineering |
Molecular Science & Technology | Nanobiology | Systems Engineering, Policy Analysis & Management |
Go to bachelor programme Molecular Science & Technolgy | Go to bachelor programme Nanobiology | Go to bachelor programme Systems Engineering, Policy Analysis & Management |
Undergraduate programmes at TU Delft
TU Delft offers the following Bachelor programmes:
- Aerospace Engineering
- Applied Earth Sciences
- Applied Mathematics
- Applied Physics
- Architecture
- Civil Engineering
- Computer Science
- Electrical Engineering
- Industrial Design Engineering
- Life Science & Technology
- Marine Technology
- Mechanical Engineering
- Molecular Science & Technology
- Nanobiology
- Systems Engineering, Policy Analysis & Management
Master of Science
Master programmes
TU Delft offers some 40 English-language MSc programmes. The programme duration is two years. The first year comprises theoretical study, assignments and laboratory work. The second year is largely devoted to thesis work, which involves participating in one of the university's advanced research or design projects or taking an internship or research assignment within a company.
Problem-oriented, creative, innovative, learning by doing. Our objective is to produce graduates who are critical independent thinkers so they later become engineers capable of independently solving problems. The curriculum focuses to a great extent on analysis and problem-solving in groups, and the writing of papers. During your study, guidance and assistance will be available at all times.
Read more about:
- electives and minors
- academic calendar
- credits and assessment
Studying at TU Delft
This website not only offers information about our Master’s degree programmes but you can also find out more about Studying at TU Delft. It covers subjects such as study facilities, information activities, admission and application, finances, student life, finding accommodation, and information for international students, for example.
Master Programmes
Master Programmes
- Aerospace Engineering
- Applied Earth Sciences
- Applied Mathematics
- Applied Physics
- Architecture, Urbanism and Building Sciences
- Biochemical Engineering
- BioMedical Engineering
- Chemical Engineering
- Civil Engineering
- Coastal and Marine Engineering and Management
- Computer Engineering
- Computer Science
- Construction Management and Engineering
- Design for Interaction
- Electrical Engineering
- Embedded Systems
- Engineering and Policy Analysis
- European Wind Energy Master
- Geographical Information Management and Applications
- Geomatics
- Industrial Ecology
- Integrated Product Design
- Life Science & Technology
- Management of Technology
- Marine Technology
- Materials Science & Engineering
- Mechanical Engineering
- NanoScience
- Offshore Engineering
- Science Education and Communication
- Strategic Product Design
- Sustainable Energy Technology
- Systems & Control
- Systems Engineering, Policy Analysis and Management
- Transport, Infrastructure & Logistics
Organization
Research Institutes
TU Delft has three officially recognized research institutes: Research Institute for Housing, Urban and Mobility Studies, International Research Centre for Telecommunications-transmission and Radar and Reactor Institute Delft. Apart of those three institutes TU Delft hosts numerous smaller research institutes, including Delft Institute of Microelectronics and Submicron Technology, Kavli Institute of Nanoscience, Netherlands Institute of Metals Research (now part of Materials innovation institute), Delft Centre for Aviation, Delft Centre for Engineering Design, Delft Institute of Earth Observation and Space Systems, Delft University Wind Energy Research Institute, International Research Institute for Simulation, Motion and Navigation Technologies. Full list of research schools is available on TU Delft website.
Research Schools
Vital part of Dutch university system are research schools. They combine cutting-edge education, training and research for PhD candidates and postdoctoral researchers in a given field. The main goal of the research schools is to coordinate nationwide research programs in a given area. Research schools of TU Delft cooperate with other universities in the Netherlands. Research schools are required to have an accreditation of Royal Netherlands Academy of Arts and Sciences. TU Delft is taking the lead in ten research schools, and participates in nine. The full list of research schools affiliated with TU Delft is available on TU Delft website, see for example TRAIL Research School.
Media
During an academic year TU Delft publishes a weekly magazine TU Delta, which aims at student and employee community of the university. The newspaper is predominantly in Dutch, with last few pages published in English. TU Delta is distributed freely in paper form over the campus and is also available for free on the Internet. Articles focus mainly on current university affairs and student life. Weekly agenda including PhD promotions, inaugural lectures, etc. is also published therein.
Also, approximately four times a year TU Delft publishes a magazine devoted only to research conducted by the university, called Delft Outlook. Delft Outlook is published in English, while the same content is published in Dutch in Delft Integraal magazine. Both magazines present interviews with TU Delft researchers, university officials. Columns of some university professors are published therein, as well as alumni letters and excerpts from recently published PhD theses.
Management
TU Delft is governed by the executive board (College van Bestuur), controlled and advised by student council, workers council, board of professors, board of doctorates, assistant staff office, committee for the application of the allocation model, operational committee, advisory council for quality and accreditation, deans of each TU Delft faculty, and directors of TU Delft research centers, research schools and research institutes.Executive board is chaired academically by the Rector Magnificus. The currently appointed Rector Magnificus, Prof. Dr. Karel Ch.A.M. Luyben holds his position since 2010. Previous Rectors of TU Delft include Prof. K.F. Wakker (1993–1997 and 1998–2002), Prof. J. Blauwendraad (1997–1998) and Prof. J.T. Fokkema (2002–2010). Executive board is accountable to the Supervisory Board, appointed by the Minister of Education, Culture and Science. One of the many tasks of executive board is the approval of management regulations.Board of professors advises in the matter of academic quality, deciding on the selection of guest lecturers, research fellows as well as revising proposals submitted for royal honors for professors. Board of doctorates appoints supervisors for PhD students, forms promotion committees, determines promotional code, and confers PhD and doctorate Honoris Causa degrees. Committee for the application of the allocation model reports to the executive board regarding allocation model. Further, it controls output data supplied to the executive board. Operational committee is composed of members of the executive board and the s. The committee collaborates on the issues of general importance, related in part to the specific interests of the faculties, and strengthens the unity of the university overall.
Student life
Student life at TU Delft is organized around numerous student societies and corporations. They can be generally categorized into professional societies, social societies and sport societies. More than half of TU Delft students belong to a officially recognized society.
There are two student parties at TU Delft: ORAS (Organisatie Rationele Studenten) and AAG (Afdelings Actie Groepen). AAG started as an action group of students in the 1960s, willing to have more impact on the quality of education at then Polytechnic Institute Delft. ORAS became active in the early 1970s as a counterbalance to AAG. Currently those two parties are competing each year for seats in TU Delft's Students Council (Studenten Raad). Further, all student organizations of TU Delft are associated with The Council of Student Societies Delft VeRa (De VerenigingsRaad) and The Society for Study and Student Matters Delft VSSD (Vereniging voor Studie- en Studentenbelangen Delft)Apart from bachelor and master student organizations, PhD students of TU Delft have their own organization called Promood (PhD Students Discussion Group Delft) (Promovendi Overleg Delft), which represents TU Delft PhD students at then university. It is also a member of Dutch PhD Students Network (Promovendi Netwerk Nederland).
Main article: List of the Professional Student Societies at Delft University of Technology. Each faculty of TU Delft has its own set of professional student organizations. Numerous societies are present at the university, many of them with rich traditions, customs and history. For example aerospace engineering department hosts Foundation for Students in Airplane Development, Manufacturing and Management (Stichting Studenten Vliegtuigontwikkeling, -bouw en -beheer), while civil engineering department Society for Practical Studies. International professional student organizations are also present at TU Delft, including European Association of Aerospace Students.
Main article: List of the Social Student Societies at Delft University of Technology. Apart from professional student societies, students organize themselves only for the purpose of enriching their social life. Many of the societies have sectarian roots, like a catholic Wolbodo Student Society, Katholieke Studentenvereniging Sanctus Virgilius Delft, that during the course of the years lost the religious affiliations and accepts students from any denomination. Besides societies which have their roots in religion, there are also general (with no religious bonds) societies. One of these is Sint Jansbrug. These societies accept anyone who studies at the TU Delft or any other higher education facility in the Delft area. Also organization that has its roots in Rover Scout movement Delftsche Zwervers (at the same time the oldest scouting group in the world) is present or local branch of the European AEGEE.
Main article: List of the Professional Student Societies at Delft University of Technology. Each faculty of TU Delft has its own set of professional student organizations. Numerous societies are present at the university, many of them with rich traditions, customs and history. For example aerospace engineering department hosts Foundation for Students in Airplane Development, Manufacturing and Management (Stichting Studenten Vliegtuigontwikkeling, -bouw en -beheer), while civil engineering department Society for Practical Studies. International professional student organizations are also present at TU Delft, including European Association of Aerospace Students.
Main article: List of the Social Student Societies at Delft University of Technology. Apart from professional student societies, students organize themselves only for the purpose of enriching their social life. Many of the societies have sectarian roots, like a catholic Wolbodo Student Society, Katholieke Studentenvereniging Sanctus Virgilius Delft, that during the course of the years lost the religious affiliations and accepts students from any denomination. Besides societies which have their roots in religion, there are also general (with no religious bonds) societies. One of these is Sint Jansbrug. These societies accept anyone who studies at the TU Delft or any other higher education facility in the Delft area. Also organization that has its roots in Rover Scout movement Delftsche Zwervers (at the same time the oldest scouting group in the world) is present or local branch of the European AEGEE.
List of the Sport Student Societies at Delft University of Technology
Student sports are organized around clubs, that focus mostly on single discipline. Those include rowing club Proteus-Eretes (with many Olympic medals won by the members of the club) or American football club Delft Dragons.
Research
TU Delft researchers developed many new technologies used today, including Glare, a Fibre Metal Laminate used in Airbus A380 skin and Vision in Product Design design method. Cees Dekker's lab at TU Delft demonstrated in 1998 the first transistor made out of single nanotube molecule. Delta Works plan was, in part, a child of TU Delft graduates, including Johan Ringers and Victor de Blocq van Kuffeler. TU Delft was a precursor of Open design concept.In architecture, TU Delft is famous for Traditionalist School in Dutch architecture. TU Delft was a home to many prominent microbiologists including Martinus Beijerinck, who in 1898 discovered viruses while working at TU Delft, and Albert Jan Kluyver, father of comparative microbiology, which resulted in the creation of so-called Delft School of Microbiology.Some recent projects being developed at the university include Flame, first humanoid robot possessing the ability to walk as humans, Superbus, project aiming to design a high speed busses reaching the speeds of 250 km/h, Nuna, solar-powered race car and four times winner of the World Solar Challenge, DUT Racing, electrical Formula Student project having won multiple competitions, Delfly, Micro air vehicle and the smallest ornithopter so far fitted with a camera, Fhybrid, world's first hydrogen-powered scooter, Tribler, an open source peer-to-peer client with online TV functionalities, Delfi-C3, CubeSat satellite constructed by TU Delft students, Greenchoice Forze, hydrogen fuel cell-powered racing car, as well as Eco-Runner vehicle participating in Eco-marathon.
Research
Society is our continuous incentive for research. We carry out research to find solutions for society’s present and future demands. Fundamental research is part of this, because we aim to find solutions for tomorrow’s problems.
Delft Research Initiatives
Health, energy, environment and infrastructures & mobility are today's major social issues. That's why TU Delft pays extra attention to developing solutions in these four domains.Energy | Environment | Health | Infrastructures |
Delft Research Initiative Energy | Delft Research Initiative Environment | Delft Research Initiative Health | Delft Research Initiative Infrastructures & Mobility |
Research institutes
Research institutes are research organisations that vary enormously in terms of accreditation, size and the participation of disciplines. TU Delft has three officially recognised research institutes: the Reactor Institute Delft (RID), the Research Institute for Housing, Urban and Mobility Studies OTB and the International Research Centre for Telecommunications-transmission and Radar IRCTR. The latter comes under the Electrical Engineering, Mathematics and Computer Science faculty EWI. TU Delft also takes part in three of the four top institutes recognised by the Minister: Nutrition, Metals, Telematics and Polymers. Scientific management of the top institute, Metals (NIMR), takes place in Delft. There are numerous smaller research institutes, which have no official accreditation.
- BKC - BatchKennisCentrum
- CCD - CIM Centrum Delft
- DCA - Delft Centre for Aviation
- DCED (Delft Centre for Engineering Design
- DEOS - Delft Institute of Earth Observation and Space Systems
- DIDE - Delft Instituut voor Duurzame Energie
- DIMES - Delfts Instituut voor Micro-Elektronica en Submicrontechnologie
- DISens - Delft University Research
- DITSE - Delft Institute for Information Technology in Service Engineering
- Delft Cluster
- DUWIND - Delft University Wind Energy Research Institute
- Hechtingsinstituut TU Delft
- ICTO Programma TU Delft
- IRCTR - International Research Centre for Telecommunications-transmission and Radar
- Interduct
- Kavli Institute of Nanoscience
- KID - Koiter Institute Delft
- NIMR - Netherlands Institute for Metals Research
- Onderzoeksinstituut OTB
- RID - Reactor Institute Delft
- SIMONA - International Research Institute for Simulation, Motion and Navigation Technologies
- VEMC - Vermogenselektronica en Elektromagnetisch Conversie Centrum
- intelligent Systems consortium (iSc)
Research schools
Research schools combine cutting-edge research with education and training for PhD candidates
and post-doctoral researchers in a given field. They are a driving force behind efforts to
coordinate nationwide research programmes within specific disciplines. TU Delft’s research schools cooperate in key research areas with other faculties and universities, thereby strengthening the position of the university. Accreditation by the Research School Accreditation Committee (ECOS) of the Royal Netherlands Academy of Arts and Sciences (KNAW) is seen as an important mark of quality.
and post-doctoral researchers in a given field. They are a driving force behind efforts to
coordinate nationwide research programmes within specific disciplines. TU Delft’s research schools cooperate in key research areas with other faculties and universities, thereby strengthening the position of the university. Accreditation by the Research School Accreditation Committee (ECOS) of the Royal Netherlands Academy of Arts and Sciences (KNAW) is seen as an important mark of quality.
TU Delft taking the lead
TU Delft is the lead institution of the following KNAW-accredited research schools:
- Advanced School for Computing & Imaging (ASCI)
- Graduate Research School Biotechnological Sciences Delft Leiden (BSDL)
- Research School Integral Design of Structures
- Casimir Onderzoekschool (Casimir, natuurkunde)
- Centrum voor Technische Geowetenschappen (CTG)
- Delft Institute for Microsystems and Nanoelectronics (DIMES)
- Dutch Institute of Systems and Control (DISC)
- J.M. Burgerscentrum – Onderzoekschool voor Stromingsleer (JMBC)
- Transport Infrastructure and Logistics (TRAIL)
With the exception of CTG and DIMES, the above are all interuniversity research schools.
TU Delft as an active participant
TU Delft takes an active role in the following KNAW-accredited research schools:
- Onderzoekschool Engineering Mechanics (EM)
- Instituut voor Programmatuurkunde en Algoritmiek (IPA)
- Netherlands Graduate School of Urban and Regional Research (NETHUR)
- Nederlands Instituut voor Onderzoek in de Katalyse (NIOK)
- Nederlandse Onderzoekschool voor Bestuurskunde (NIG)
- Procestechnologie (OSPT)
- School voor Informatie- en Kennissystemen (SIKS)
- Thomas Stieltjes Institute for Mathematics (SIMATH)
- Interuniversitaire Onderzoekschool Wetenschap, Technologie en Moderne Cultuur (WTMC)
In addition, TU Delft has ties to networks that are known as research schools, but are not currently accredited by the KNAW. These networks have not submitted an application to the KNAW for renewed accreditation at this time:
- Integrated Biomedical Science and Engineering (IBME)
- Onderzoekschool voor Integrale Productvernieuwing (IPV)
- Polymeren (PTN)
- Vening Meinesz Research School of Geodynamics (VMSG)
By virtue of its role in the CTG and VMSG research schools, TU Delft also participates in the Netherlands Research Centre for Integrated Solid Earth Science (ISES), one of the country’s leading research schools.
(N.B. The experience and position of TU Delft’s research schools will certainly be taken into consideration in the current discussion of the university’s stance on the Graduate School as an organisational form for doctoral programmes.)
Research facilities
Unique facilities
TU Delft has extensive on-campus research facilities, ranging from wind tunnels, chip facilities, a high-voltage lab and a nuclear reactor to serious gaming and product evaluation. These facilities are unique in the Netherlands and are also available for corporate research.
- View unique facilities : http://tudelft.nl/en/cooperation/research-facilities/unique-facilities/
Instruments for measuring and testing
TU Delft has advanced instruments, test set-ups and software for measuring and testing. At the special website www.labs.tudelft.nl you can search by instrument, application and location. There you can check the specifications of each instrument and find out who to contact. The contact can assess with you whether the instrument is suitable for your purpose and how the envisaged research can be carried out.
- www.labs.tudelft.nl
Brainstorming and team support
In various stages of a research project it can be useful to hold group brainstorming sessions or employ other methods such as models and mind maps. TU Delft has a Group Decision Room and various Smart Boards to generate ideas or find research solutions in an inspiring and efficient group context.
- Group Decision Room : http://www.tbm.tudelft.nl/en/about-faculty/departments/multi-actor-systems/systems-engineering/research/projects/group-decision-room/
Literature surveys and patent research
A literature survey or patent research can help you with the first steps of your research or preparations for a patent application. TU Delft Library has several information specialists who can carry out a literature survey tailored to your needs. Contact Nicole Will for more information and assistance.
- N.U.Will@tudelft.nl
- Tel: +31 (0)15 27 84788
EMSD (Electronic and Mechanical Support Division)
The Electronic and Mechanical Support Division (Dienst Elektronische en Mechanische Ontwikkeling, DEMO) assists experimental technical and scientific education and research. We do this through the rapid development and manufacturing of unique experimental setups and prototypes. The DEMO organisation exists primarily to serve Delft University of Technology (TU Delft), but where possible we also offer our services to other educational and research institutions, to knowledge-intensive companies and to new technology businesses.
- EMSD
Research projects
TU Delft participates in the following research projects. The time of expiry for these research projects is 2012. An update of the research projects lists will take place every 6 months.
The research projects are listed on the concerning finance authority based on the European grading; in there you will find the concerning research projects.
- Public Private Research Projects
- NL Agency
- NWO
- EU Research & Innovation (FP7)
- Individual subsidy
- EU Education
People
Students
TU Delft student body demographics 2009 2008
PhD Students (total) 2,027 (increase) 1,839
PhD Students (men) 1,474 (increase) 1,356
PhD Students (women) 547 (increase) 482
MSc and BSc students (total) 16,427 (increase) 15,321
MSc and BSc students (foreign) 2,236 (increase) 2,110
MSc and BSc students (women) 3,351 (increase) 3079
BSc students (total) 10,857 (increase) 10,082
MSc students (total) 5,524 (increase) 5,151
Undivided students (total) 46 (decrease) 88
TU Delft is a male-dominated institution. In 2009 among all students of the university (MSc and BSc level) only 20% were women. The biggest imbalance between men and women is experienced by Mechanical engineering and Aerospace Engineering faculty, while the smallest is seen at Industrial Design and Architecture departments. Despite many efforts of the university to change that imbalance, the number of women studying at TU Delft stays relatively constant over the years.
Since 2002 the number of students admitted to TU Delft increases rapidly (from approximately 2,200 in 2002 to almost 3,700 in 2009). The same applies to the total student population (from approximately 13,250 in 2002 to almost 16,500 in 2009).
Number of international students also increases steadily. Approximately half of the international students are European, among them the biggest group comes from (in decreasing order, number of students admitted in 2009): Belgium (approximately 340 students), Germany (approximately 100 students), Greece (approximately 100 students), and Italy (approximately 100 students). Among non-Europeans, the biggest nationality group comes from China (approximately 340 students; the number of Chinese and Belgian newly admitted students is relatively equal since 2003), then Iran (approximately 150 students), India (approximately 140 students), Suriname (approximately 100 students), Indonesia (approximately 80 students) and Turkey (approximately 80 students),. Large number of students from Suriname and Indonesia can be admitted to historical ties between those two countries and the Netherlands, as both of them were the former Dutch colonies. Interestingly, due to TU Delft presence, the city of Delft has one of the biggest population of Iranians in the whole Netherlands. It resulted in one of the biggest Iranian opposition centers against Iranian government in Europe, with many protests organized at TU Delft campus by Iranian TU Delft students during 2009 Iranian Election Protests. The biggest number of international students studies at Aerospace Engineering and Electrical Engineering, Mathematics, and Computer Science departments.
Faculty
List of the Delft University of Technology Faculty
Currently TU Delft is a home to 227 faculty, with more than 2,500 academic staff. The responsibility of TU Delft professors is lecturing, guiding undergraduate and graduate students, as well as performing original research in their respective fields.Many notable people were TU Delft faculty. In science, Heike Kamerlingh Onnes, a 1913 Nobel Laureate in physics, a discoverer of superconductivity, was a former TU Delft faculty member, working as an assistant to Johannes Bosscha. Discoverer of the Prins reaction Hendrik Jacobus Prins, co-founders of National Research Institute for Mathematics and Computer Science Hendrik Anthony Kramers and David van Dantzig, developer of crystal bar process Jan Hendrik de Boer, discoverer of particle spin Ralph Kronig, discoverer of Einstein–de Haas effect Wander Johannes de Haas and discoverer of element Hafnium Dirk Coster, all were at some point the faculty members of the university. Faculty members of Delft School of Microbiology were the founder of modern microbiology Martinus Beijerinck and the father of comparative microbiology Albert Jan Kluyver.In engineering, the inventor of penthode and gyrator Bernard Tellegen and Balthasar van der Pol developer of Van der Pol oscillator, were TU Delft faculty. Currently Vic Hayes, and the father of Wi-Fi, is affiliated with the Faculty of Technology, Policy and Management. STS-61A of the Space Shuttle Challenger crew member Wubbo Ockels is currently a professor of Faculty of Aerospace Engineering, Delft University of Technology. TU Delft faculty geologist were Berend George Escher, Johannes Herman Frederik Umbgrove, discoverer of Bushveld complex Gustaaf Adolf Frederik Molengraaff and discoverer of gravity anomalies above the sea level Felix Andries Vening Meinesz.Since TU Delft is a home to a major architecture school in the Netherlands, many important architects were a faculty of the university, including Hein de Haan, founder of Traditionalist School in Architecture Marinus Jan GranprĆ© MoliĆØre, Bent Flyvbjerg, co-founder of Mecanoo architects bureau Francine Houben, co-founder of MVRDV architects bureau Winy Maas and Nathalie de Vries, co-founder of Team 10 Jacob B. Bakema and Aldo van Eyck, as well as Herman Hertzberger and Jo Coenen. Some notable designers were faculty of TU Delft, including Paul Mijksenaar, developer of visual information systems for JFK, LaGuardia and Schiphol airports.Political figures that were faculty of TU Delft include former mayor of Lisbon Carmona Rodrigues and the first Dutch prime minister of the Netherlands after the second world war Wim Schermerhorn.
Heike Kamerlingh Onnes,
discoverer of superconductivity, TU Delft faculty 1878-1882
discoverer of superconductivity, TU Delft faculty 1878-1882
Martinus Beijerinck,
father of virology, TU Delft faculty 1895-1921
father of virology, TU Delft faculty 1895-1921
Ralph Kronig,
discoverer of particle spin, TU Delft faculty 1939-1969
discoverer of particle spin, TU Delft faculty 1939-1969
Alumni
List of the Delft University of Technology Alumni
Two TU Delft alumni were awarded Nobel Prize: Jacobus van 't Hoff awarded first Nobel Prize in Chemistry in 1901 for his work with Solution and Simon van der Meer awarded Nobel Prize in physics in 1984 for his work on stochastic cooling.Some of the mathematicians include Jan Arnoldus Schouten, contributor to the tensor calculus. Chemists and TU Delft alumni include Willem Alberda van Ekenstein, Dutch chemist and discoverer of Lobry-de Bruyn-van Ekenstein transformation. TU Delft alumni and computer scientists include Adriaan van Wijngaarden, developer of Van Wijngaarden grammar and co-designer of ALGOL. Famous TU Delft alumni electrical engineers include Jaap Haartsen, developer of Bluetooth.Political figures that studied at TU Delft include Karien van Gennip, Dutch secretary of state for economic affairs, Anton Mussert, Dutch politician of the Second World War era and founder of National Socialist Movement in the Netherlands, Abdul Qadeer Khan, father of Pakistan nuclear program, and Dutch politician Wim Dik. Famous TU Delft alumni architects include Erick van Egeraat, Herman Hertzberger and Hein de Haan. Dutch designers that graduated at TU Delft include Alexandre Horowitz, designer of Philishave, and Adrian van Hooydonk, Dutch automobile designer and head of design at BMW.TU Delft alumni executives include Jeroen van der Veer, former CEO of Royal Dutch Shell, Frits Philips, fourth chairman of the board of directors of Philips and Gerard Philips, co-founder of Philips.Other interesting TU Delft alumni include Lodewijk van den Berg, Dutch-American payload specialist on STS-51B mission and Prince Friso of Orange-Nassau, member of the Dutch Royal Family. Other interesting figures that studied at TU Delft were mathematician Diederik Korteweg, responsible for Korteweg–de Vries equation, who studied at TU Delft before moving to University of Amsterdam and painter Maurits Cornelis Escher who studied at TU Delft for a year. Thomas Jan Stieltjes, co-developer of Riemann–Stieltjes integral studied at TU Delft but never passed his final exams.TU Delft alumni who are currently a faculty of other universities include Wilhelmus Luxemburg, Dutch mathematician and California Institute of Technology professor, as well as Walter Lewin, Dutch physicist, Alexander van Oudenaarden, Dutch biophysicist, who both are currently MIT professors.
Jacobus van 't Hoff,
Nobel Prize in chemistry, TU Delft student 1869-1871
Nobel Prize in chemistry, TU Delft student 1869-1871
Gerard Philips,
cofounder of Philips, TU Delft student 1876-1883
cofounder of Philips, TU Delft student 1876-1883
Cornelis Lely,
head designer of Afsluitdijk, TU Delft student 1871-1875
head designer of Afsluitdijk, TU Delft student 1871-1875
Honoris Causa Laureates
In 1906 TU Delft obtained the right to award PhD degrees. This also marked the date since when university was able to award honorary doctorates. Between 1906 and 2006 exactly 100 honoris causa degrees have been awarded. Honorary doctoral degrees are awarded to people that presented extraordinary contributions in their respective fields. Some of the most recognized recipients of TU Delft honorary doctorate include: Gerard Philips (1917), co-fonder of Philips corporation, Hendrik Antoon Lorentz (1918), winner of the Nobel Prize in Physics known for work on electromagnetic radiation, Prince Bernhard (1951), prince of the Netherlands, John Douglas Cockcroft (1959), winner of Nobel Prize in Physics for work on atom splitting, and Santiago Calatrava (1997) architect.
TU Delft in University Rankings
TU Delft has strong research profile with the main focus on engineering and applied sciences. Therefore university scores highly in any engineering school ranking. Below a table describing a position of TU Delft in various university rankings is presented. The list include THE-QS World University Rankings, QS World University Rankings, Times Higher Education World University Rankings, Academic Ranking of World Universities, Leiden Ranking and Ranking of Scientific Papers for World Universities and Research Performance Index. Markers indicating a raise or fall in the ranking are shown for ease of comparison. Empty spaces mean that no ranking was performed for a given year.
Note : that since 2010 THES-QS University Rankings no longer exists. Since then two separate rankings are produced: QS World University Rankings and Times Higher Education World University Rankings, with QS World University Rankings continuing using the same methodology as THES-QS University Rankings.
Medical Innovations
Medic stimulates innovations
Medic realizes technological innovations in medical sciences and health care by bringing smart ideas to the marketplace. These ideas may come from researchers, companies and health professionals. When they are passionately involved to realize their ideas, Medic will be able to support them.
Because every idea needs a specific stimulus, Medic can provide assistance at various stages of the innovation. For example to determine the feasibility of ideas, to build networks with promising partners and to find financial support. Medic is an initiative of Medical Delta and is supported by its knowledge institutes Erasmus Medical Centre, Leiden University Medical Centre and Delft University of Technology.
Digital Operating Room Assistant (DORA)
Researchers from Delft University of Technology came up with an idea after observing various surgical environments in hospitals. There they noticed a large number of sophisticated technical equipments as well as a high frequency of small incidents when using all these instruments. With each incident, valuable operating time was lost. One of the most common mistakes was to forget a surgical instrument. “It would be an huge improvement to automatically check whether a certain instrument is present”, says John van den Dobbelsteen, assistant professor at the department of BioMechanical Engineering. “Within planes you have a variety of sensors that measure the height for instance. These warn the pilot when he flies too low. We wanted to develop just such a digital operating room assistant that warns the doctor if something goes wrong. You simply cannot expect a doctor to monitor every instrument himself.”
Dobbelsteen came to Medic with this idea to prevent incidents by developing a monitoring system that automatically checks the presence, positioning and status of the equipment and informs the personnel within the operation room about irregularities. Medic developed a consortium with eight commercial companies, Delft University of Technology and Leiden University Medical Centre as academic partners. “Not all technology needs to be redesigned by us”, Dobbelsteen explains.
Medic also assisted in the application for subsidies at the province of South Holland. Which were granted. “I had never even heard of these subsidies”, says the scientist. “With help of this financial support we can now develop our monitoring system to make the process of operations more efficient and more reliable. First there was just a wild plan, but Medic has the knowledge how to transform ideas into finished products. They can also help you to realize your ambition”.
Sports Innovations
TU Delft sport summer
As a top athlete who is participating in the Olympics as the ultimate goal, preferably topped with a shiny (gold) paste, cannot completely focus on work or study. For a longer period of time life beyond the games is not much more than the endlessly repeated cycle of training, eating and resting. And travel, not to forget. Of course, TU Delft wants to support his ambitious young athletes, who are studying at TU Delft, in the achievement of excellent performance within and outside the university.
- Delft Outlook - All set for London
- Read more about the top-class sport policy at TU Delft
Partner in Sports Innovations
What do top-level sports and technology have to do with each other? Everything! Top-level sport is extremely demanding, and not just in physical terms. In order to keep on improving their performances, top-level athletes need to look beyond just their physical capacities; they need to think about clothing and equipment, materials and design. Can it be made faster, higher, with less drag? These are just the kind of questions TU Delft can provide answers to.
Giving people the materials to help them go faster, further or higher is basically a question of science, involving such fields as aerodynamics, hydrodynamics and biomechanics. These are research areas we know a great deal about here at TU Delft. They are in fact some of the areas we score best in. Combined with our expertise in the field of materials and product design, we want to apply the knowledge we have to researching and developing sports products. Products that help athletes in training to improve their performances, and products that reduce the chance of injuries, not just for top-level sports, but also regarding popular and recreational sports.
The close collaboration between the private sector, knowledge institutes and the sporting world contributes to successful results. TU Delft is right at the centre of this ‘golden triangle’. This means the future is looking bright for developments in the field of sports innovation.
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