| 1 | Advanced Powder Technologies | WMME024-05 |
Many (chemical) ingredients, and (intermediate) products are powders. This makes that particle technology includes a wide area of subjects varying from production of powders by crystallization or spray drying, formulation and shaping such powders into functional products such as granulates or tablets.
This course discusses the fundamentals of particle interactions, determination of basic properties of powders, handling and storage and the related processes leading to desired particulate products.
The student will become familiar with the characteristic mixing, transport and agglomeration properties of solid products. Analytical tools used to predict performance of particulate based products in processing operations will be discussed and the application of relationships between simple laboratory tests and large scale processing behavior will be trained. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. ir. K. van der Voort Maarschalk | | Docent(en) | prof. dr. ir. K. van der Voort Maarschalk | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC) | | Toetsvorm | Practisch werk (PR), Schriftelijk tentamen (WE) | | ECTS | 5 | | Opmerkingen | You will receive two grades: one for the report card during the practical and one for the written exam.
The final grade = (1 practical + 2 exam) / 3 |
|
| terug naar boven |
| |
| 2 | Advanced Process and Energy Technologies | WMCE012-05 |
|
|
| terug naar boven |
| |
| 3 | Analysis and control of smart systems | WMIE015-05 |
|
|
| terug naar boven |
| |
| 4 | CFD for Engineers | WMCE013-05 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. ir. P.D. Druetta | | Docent(en) | dr. ir. P.D. Druetta | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Practisch werk (PRC) | | Toetsvorm | Opdracht (AST), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 |
|
| terug naar boven |
| |
| 5 | Compressible flows | WMCE008-05 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. ir. P.D. Druetta | | Docent(en) | prof. dr. F. Picchioni | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Practisch werk (PRC) | | Toetsvorm | Opdracht (AST), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 |
|
| terug naar boven |
| |
| 6 | Computational Mechanics | WMME017-05 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. ir. F.W. Wubs | | Docent(en) | dr. ir. F.W. Wubs | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC), Werkcollege (T) | | Toetsvorm | Opdracht (AST), Schriftelijk tentamen (WE), Tussentoets (IT) | | ECTS | 5 |
|
| terug naar boven |
| |
| 7 | Experimental Design | WMME012-05 |
Engineering problems are often investigated by conducting an experiment. This course gives a conceptual and mathematical
background of testing engineering hypotheses by statistical modeling as well as the statistical analysis by the statistical
programming language R. During the course statistical principles will be elaborated and applied to solving engineering type inference
problems by the design of experiments, analysis of variance, factorial design and Taguchi design. Students will be challenged to
apply the approach to data from empirical research. This course builds on Statistics and Stochastics for IEM in the first year. |
|
| terug naar boven |
| |
| 8 | Finite Element Methods for Fluid Dynamics | WMMA016-05 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. C.A. Bertoglio | | Docent(en) | dr. C.A. Bertoglio | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC) | | Toetsvorm | Practisch werk (PR), Schriftelijk tentamen (WE) | | ECTS | 5 |
|
| terug naar boven |
| |
| 9 | Finite element modelling for advanced processing | WMME013-05 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | F. Maresca, PhD. | | Docent(en) | F. Maresca, PhD. | | Onderwijsvorm | Practisch werk (PRC), Hoorcollege (LC), Opdracht (ASM) | | Toetsvorm | Mondeling tentamen (OR), Opdracht (AST), Schriftelijk tentamen (WE), Tussentoets (IT) | | ECTS | 5 |
|
| terug naar boven |
| |
| 10 | Fuel cell systems | WMEE015-05 |
|
|
| terug naar boven |
| |
| 11 | Global Change | WMEE008-05 |
|
|
| terug naar boven |
| |
| 12 | High- and low-Temperature Fuel Cells | WMME026-05 |
|
|
| terug naar boven |
| |
| 13 | Hydrogen, Fuels and Electrolysers | WMME019-05 |
|
|
| terug naar boven |
| |
| 14 | Interfacial engineering | WMCE003-05 |
|
|
| terug naar boven |
| |
| 15 | Introduction to data science | WMME027-05 |
|
|
| terug naar boven |
| |
| 16 | Master Design Project | WMME901-20 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Docent(en) | Individual Supervisor | | Onderwijsvorm | Opdracht (ASM) | | Toetsvorm | Presentatie (P), Verslag (R), Opdracht (AST) | | ECTS | 20 |
|
| terug naar boven |
| |
| 17 | Master Research Project | WMME902-40 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. ir. B. Jayawardhana | | Docent(en) | | | Onderwijsvorm | Opdracht (ASM) | | Toetsvorm | Practisch werk (PR), Presentatie (P), Verslag (R) | | ECTS | 40 |
|
| terug naar boven |
| |
| 18 | MEMS, NEMS and Nanofabrication | WMIE010-05 |
| The course will introduce very large scale integration (VLSI) technology and the various MEMS unit processing steps (bulk and surface micromachining) involved in semiconductor and MEMS fabrication technologies. Various actuation and sensing techniques such as capacitive, thermal, electrostatic, magnetic, piezoresistive, piezoelectric and optical methods will be discussed. MEMS chip-scale packaging technologies such as flip-chip, ball grid array, multi-chip packaging to integrate the sensors into a system level will be discussed. Through case studies, the course will teach the students to design MEMS sensors and actuators that meet a set of specifications (sensitivity, frequency response, accuracy, linearity). The innovative use of soft polymers such as hydrogels, 2D materials, and rapid prototyping in the development of MEMS/NEMS devices for futuristic applications will be explored through student team projects. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. A.G.P. Kottapalli | | Docent(en) | dr. A.G.P. Kottapalli | | Onderwijsvorm | Opdracht (ASM), Bijeenkomst (S), Hoorcollege (LC) | | Toetsvorm | Opdracht (AST), Presentatie (P), Schriftelijk tentamen (WE), Tussentoets (IT), Verslag (R) | | ECTS | 5 |
|
| terug naar boven |
| |
| 19 | Microfluidics | WMME020-05 |
|
|
| terug naar boven |
| |
| 20 | Multibody and Non-Linear Dynamics | WMME009-05 |
The objective of this course is to provide the basic theoretical knowledge on the fundamentals of multibody dynamics and a broad
introduction to nonlinear dynamics with applications to machine and structural dynamics, robotics, physics and biological
mathematics. The course will cover topics on kinematics and dynamics of rigid multibody systems, introduction to flexible body
dynamics, Lagrangian and Hamiltonian mechanics, stability analysis of dynamic systems, and bifurcations. The application of
nonlinear dynamic analysis to mechanical, physical, biological, and chemical models will be considered. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. A.O. Krushynska | | Docent(en) | dr. A.O. Krushynska | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Werkcollege (T) | | Toetsvorm | Presentatie (P), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 | | Entreevoorwaarden | The course unit assumes prior basic knowledge of linear algebra, calculus, and introductory physics acquired from bachelor courses. | | Opmerkingen | The students will receive three grades: one for the report of the specific case, one for the written exam, and one for the
presentation.
The final grade = (1 report + 2 exam + 1 presentation)/4
Dit vak had vorig jaar vakcode WMME19013 |
|
| terug naar boven |
| |
| 21 | Processes Energy and Materials Modeling | WMEE016-05 |
|
|
| terug naar boven |
| |
| 22 | Product design by the Finite Element Method | WMIE003-05 |
|
|
| terug naar boven |
| |
| 23 | Scientific Integrity | WMME004-00 |
| The student will be exposed to various topics on the research misconduct in plagiarism, proper way of allocating credit, whistleblowing. The course will also include case studies for typical examples of research misconduct. The case study will be also extended to two famous real cases in research history. |
|
| terug naar boven |
| |
| 24 | Smart Materials for Engineering | WMME021-05 |
|
|
| terug naar boven |
| |
| 25 | Surface Engineering and Coating Technology | WMIE013-05 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. Y. Pei | | Docent(en) | prof. dr. Y. Pei | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Werkcollege (T) | | Toetsvorm | Opdracht (AST), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 |
|
| terug naar boven |
| |
| 26 | Sustainability for Engineers | WMIE020-05 |
|
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. ir. G.H. Jonker | | Docent(en) | dr. ir. G.H. Jonker | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Werkcollege (T) | | Toetsvorm | Opdracht (AST) | | ECTS | 5 |
|
| terug naar boven |
| |
| 27 | Technology Based Entrepreneurship | WMIE006-05 |
|
|
| terug naar boven |
| |
| 28 | Thermodynamics of Energy Conversion | WMME018-05 |
|
|
| terug naar boven |
| |
Login
English
Nederlands