Projects per year
Personal profile
Research profile
Toos van Gool is a Doctoral Candidate at the Power and Flow group in the Department of Mechanical Engineering under supervision of full professor Philip de Goey and assistant professor Jeroen van Oijen. She researches numerical techniques for the simulation of 1D metal particles combustion as part of the metal fuel cycle. Metal powders are very promising high-energy-density fuels that are carbon free and recyclable.
Academic background
Toos van Gool obtained her BSc degree in Mechanical Engineering at Eindhoven University of Technology (TU/e) in 2017, with cum laude. She obtained her MSc dueble degree in Mechanical Engineering (Power and Flow) and Systems & Control (Control Systems) in 2020. As part of the master program, she did her internship at UC Berkeley, where she worked on the numerical modeling of a 1D polymeric membrane. The topic of her graduation project was 'Active control of thermo-acoustic instabilities with ozone.'. She worked on this topic under the supervision of Jeroen van Oijen, Leyla Ozkan, Carlos Mendez Blanco and Thijs Hazenberg. After graduation, Toos joined the Power and Flow group as Doctoral Candidate. In this position, she is working on model development for metal flame oxidation.
Projects
- 1 Active
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Towards a full multi-scale understanding of zero-carbon metal fuel combustion
de Goey, L. P. H., Thijs, L. C., van Gool, C. E. A. G., Ramaekers, W. J. S., Prime, H., Abdallah, M. & Hameete, J.
1/10/20 → 30/09/25
Project: Research direct
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Particle Equilibrium Composition model for iron dust combustion
van Gool, C. E. A. G., Thijs, L. C., Ramaekers, W. J. S., van Oijen, J. A. & de Goey, P., Mar 2023, In: Applications in Energy and Combustion Science. 13, 10 p., 100115.Research output: Contribution to journal › Article › Academic › peer-review
Open AccessFile1 Downloads (Pure) -
Improvement of heat- and mass transfer modeling for single iron particles combustion using resolved simulations
Thijs, L. C., van Gool, C. E. A. G., Ramaekers, W. J. S., Kuerten, J. G. M., van Oijen, J. A. & de Goey, P., 20 Jun 2022, (E-pub ahead of print) In: Combustion Science and Technology. XX, XResearch output: Contribution to journal › Article › Academic › peer-review
Open Access1 Citation (Scopus) -
Resolved simulations of single iron particle combustion and the release of nano-particles
Thijs, L. C., van Gool, C. E. A. G., Ramaekers, W. J. S., van Oijen, J. A. & de Goey, P., 2022, (E-pub ahead of print) In: Proceedings of the Combustion Institute.Research output: Contribution to journal › Article › Academic › peer-review
Open Access2 Citations (Scopus) -
Towards full understanding of single iron particle combustion
Thijs, L. C., van Gool, C. E. A. G., Ramaekers, W. J. S., van Oijen, J. A. & de Goey, P., 5 Apr 2022.Research output: Contribution to conference › Abstract › Academic
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A novel particle combustion model for iron dust flames
van Gool, C. E. A. G., Thijs, L. C., Ramaekers, W. J. S., van Oijen, J. A. & de Goey, P., 11 Nov 2021.Research output: Contribution to conference › Abstract › Academic
Thesis
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Active control of thermo-acoustic instabilities with ozone
Author: van Gool, C. E. A. G., 17 Jul 2020Supervisor: Hazenberg, T. (Supervisor 2), Özkan, L. (Supervisor 1) & van Oijen, J. A. (Supervisor 1)
Student thesis: Master
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