Expertise
Physics
- Simulation
- Model
- Galerkin Method
- Eddy
Engineering
- Models
- Discontinuous Galerkin
- Prediction
Earth and Planetary Sciences
- Ice Crystal
Organisations
Publications
2024
Non-Reflecting Boundary Conditions in the context of the Discontinuous Galerkin Finite Element Method. University of Twente. Shehadi, E.https://doi.org/10.3990/1.9789036560931Scientific computing with open-source software: This is the textbook of a graduate course given in 2024 at the University of Twente on "Scientific computing with open-source software".. Weinhart, T., Thornton, A. R., Ostanin, I., Zwieten, G. v., Uekermann, B., Weide, E. v. d. & Hazel, A.
2023
Snow Effects on the NGCTR Nacelle for Relevant Certification Conditions. Kool, N., van der Weide, E., Spek, F., van der Ven, H. & van 't Hoff, S.https://doi.org/10.4271/2023-01-1373
2022
Laminar wing design: A framework for transition delay using linear stability theory and adjoint optimization. University of Twente. Fischer, J.-S.https://doi.org/10.3990/1.9789036553957Effect of leading edge erosion on wind turbine aerodynamicsIn AIAA SciTech Forum 2022, Article AIAA 2022-0276. American Institute of Aeronautics and Astronautics. Ravishankara, A. K., Özdemir, H. & van der Weide, E.https://doi.org/10.2514/6.2022-0276
2021
Development of a pressure based incompressible flow solver for wind turbine applications. University of Twente. Koodly Ravishankara, A.https://doi.org/10.3990/1.9789036552554Automatic Transition Prediction in a Structured Navier-Stokes Solver Using Linear Stability Theory, 2409-2426. Fischer, J.-S., Soemarwoto, B. I. & van der Weide, E. T. A.https://doi.org/10.2514/1.J059910Analysis of leading edge erosion effects on turbulent flow over airfoils, 765-779. Koodly Ravishankara, A., Özdemir, H. & van der Weide, E.https://doi.org/10.1016/j.renene.2021.03.021Ongoing development of non-reflective boundary conditions for euler and navier-stokes equations via the discontinuous galerkin frameworkIn AIAA Scitech 2021 Forum (pp. 1-19). American Institute of Aeronautics and Astronautics. Shehadi, E. & van der Weide, E.https://doi.org/10.2514/6.2021-1660
2020
Implementation of a pressure based incompressible flow solver in su2 for wind turbine applicationsIn AIAA Scitech 2020 Forum. American Institute of Aeronautics and Astronautics. Ravishanara, A. K., Özdemir, H. & van der Weide, E.https://doi.org/10.2514/6.2020-0992
Research profiles
Courses academic year 2023/2024
Courses in the current academic year are added at the moment they are finalised in the Osiris system. Therefore it is possible that the list is not yet complete for the whole academic year.
- 191154731 - Computational Fluid Dynamics
- 191154750 - Engineering Fluid Dynamics - C.S.
- 191199152 - Internship
- 191199154 - Internship
- 195799152 - Internship
- 201400300 - Multiphase Flows
- 201600354 - Computational Fluid Dynamics for EngD
- 201700027 - Master Graduation Assignment
- 201900074 - Fundamentals of Numerical Methods (FNM)
- 202000158 - Minor Aircraft Engineering
- 202000246 - Frontiers in Aeronautics
- 202000250 - Internship
- 202300353 - Internship (CSE/SET)
Courses academic year 2022/2023
- 191154731 - Computational Fluid Dynamics
- 191154750 - Engineering Fluid Dynamics - C.S.
- 191199152 - Internship
- 191199154 - Internship
- 195799152 - Internship
- 201400300 - Multiphase Flows
- 201500560 - Aircraft Structures
- 201600354 - Computational Fluid Dynamics for EngD
- 201700027 - Master Graduation Assignment
- 201900074 - Fundamentals of Numerical Methods (FNM)
- 202000158 - Minor Aircraft Engineering
- 202000246 - Frontiers in Aeronautics
- 202000250 - Internship
Address
![](https://1348661504.rsc.cdn77.org/.uc/i19b61b80010305e9110093d0f403c25140695f6d845d0801e3bc0268018041/horsttoren.png)
University of Twente
Horst Complex (building no. 20), room N225
De Horst 2
7522 LW Enschede
Netherlands
University of Twente
Horst Complex N225
P.O. Box 217
7500 AE Enschede
Netherlands