Back
  1. Home
  2. Profile of Thierry Magin (ULiège)
Profil

Magin Thierry

Département d'aérospatiale et mécanique

See author's contact details
ORCID
0000-0002-4376-1518
Main Referenced Co-authors
Hillewaert, Koen  (13)
Gangemi, Giuseppe Matteo  (8)
Alejandro Alvarez Laguna (4)
Chatelain, Philippe (3)
Coheur, Joffrey  (3)
Main Referenced Keywords
ablative material (2); computational fluid dynamics (2); High-order methods (2); Inductively coupled plasma (2); multicomponent (2);
Main Referenced Unit & Research Centers
NASA (1)
von Karman Institute for Fluid Dynamics (1)
Main Referenced Disciplines
Aerospace & aeronautics engineering (16)
Mechanical engineering (1)

Publications (total 16)

The most downloaded
289 downloads
Torres-Herrador, F.* , Coheur, J.* , Panerai, F., Magin, T., Arnst, M., Mansour, N., & Blondeau, J. (2020). Competitive kinetic model for the pyrolysis of the Phenolic Impregnated Carbon Ablator. Aerospace Science and Technology. doi:10.1016/j.ast.2020.105784 https://hdl.handle.net/2268/245442

The most cited

43 citations (Scopus®)

Schrooyen, P., Hillewaert, K., Magin, T., & Chatelain, P. (2016). Fully implicit Discontinuous Galerkin solver to study surface and volume ablation competition in atmospheric entry flows. International Journal of Heat and Mass Transfer, 103, 108-124. doi:10.1016/j.ijheatmasstransfer.2016.07.022 https://hdl.handle.net/2268/262507

Corthouts, N., Hillewaert, K., May, G., & Magin, T. (2024). VKI PhD Symposium 2024: Development of a high-order solver for inductively coupled plasma [Paper presentation]. VKI PhD Symposium 2024.

Corthouts, N., Hillewaert, K., Magin, T., & May, G. (2024). Development of a multi-domain hybridized discontinuous Galerkin solver for inductively coupled plasma [Paper presentation]. AIAA Sci-Tech Forum and Exposition, Orlando, United States - Florida.

Corthouts, N., Hillewaert, K., Magin, T., & May, G. (04 January 2024). A Hybridized Discontinuous Galerkin Finite Element Method for Multi-Physics Problems [Paper presentation]. AIAA Sci-Tech Forum and Exposition, Orlando, United States - Florida. doi:10.2514/6.2024-1819

Gangemi, G. M., Hillewaert, K., Magin, T., & Alejandro Alvarez Laguna. (2024). High order simulation of plasma sheath formation in presence of Electron Transpiration Cooling materia [Paper presentation]. 15th VKI PhD Symposium.

Gangemi, G. M., Hillewaert, K., Magin, T., & Alejandro Alvarez Laguna. (2023). A multicomponent approach for plasma-sheath physics: potentialities and limits [Paper presentation]. 14th VKI PhD Symposium.

Gangemi, G. M., Bilocq, A., Levaux, N., Hillewaert, K., Magin, T., & Alvarez Laguna Alejandro. (October 2022). Development of a Discontinuous Galerkin fluid solver for argon plasma sheath [Paper presentation]. Gaseous Electronics Conference 2022, Sendai, Japan.

Gangemi, G. M., Bilocq, A., Levaux, N., Hillewaert, K., & Magin, T. (02 September 2022). Development of high order Discontinuous Galerkin fluid solver for argon plasma flows [Paper presentation]. Advanced COmputational Methods in ENgineering 2022, Liege, Belgium.

Gangemi, G. M., Alejandro Alvarez Laguna, Hillewaert, K., & Magin, T. (2022). Development of a multi-component diffusion fluid solver for a two-temperature argon plasma. In EUCASS-3AF 2022 Proceedings. EUCASS. doi:10.13009/EUCASS2022-6157

Gangemi, G. M., Hillewaert, K., Magin, T., & Alejandro Alvarez Laguna. (2022). Towards a high-order fluid simulation of Argon plasma sheath [Paper presentation]. 13th VKI PhD Symposium.

Gangemi, G. M., Alvarez Laguna, A., Magin, T., & Hillewaert, K. (October 2021). Development of a multi-component diffusion fluid solver for two-temperature plasma sheath [Paper presentation]. 74th Annual Gaseous Electronics Conference.

Gangemi, G. M., Alvarez Laguna, A., Boccelli, S., Magin, T., & Hillewaert, K. (April 2021). Development of a multi-component diffusion fluid solver for two-temperature binary plasma sheath [Paper presentation]. 47th IOP Plasma Physics Conference.

Torres-Herrador, F.* , Coheur, J.* , Panerai, F., Magin, T., Arnst, M., Mansour, N., & Blondeau, J. (2020). Competitive kinetic model for the pyrolysis of the Phenolic Impregnated Carbon Ablator. Aerospace Science and Technology. doi:10.1016/j.ast.2020.105784
Peer Reviewed verified by ORBi
* These authors have contributed equally to this work.

Schrooyen, P., Turchi, A., Hillewaert, K., Chatelain, P., & Magin, T. (2018). Two-way coupled simulations of stagnation-point ablation with transient material response. International Journal of Thermal Sciences, 134, 639-652. doi:10.1016/j.ijthermalsci.2018.08.014
Peer Reviewed verified by ORBi

Schrooyen, P., Coheur, J., Turchi, A., & Magin, T. (2017). Numerical simulations of a non-charring ablator in high enthalpy flows by means of a unified flow-material solver. In 47th AIAA Thermophysics Conference : AIAA Aviation Forum, 5-9 June, Denver, CO.

Coheur, J., Arnst, M., Chatelain, P., & Magin, T. (01 March 2017). Uncertainty Quantification of Aerothermal Flow Simulation Through Low-Density Ablative Thermal Protection Materials [Poster presentation]. 8th VKI PhD Symposium, Rhode-Saint-Genèse, Belgium.

Schrooyen, P., Hillewaert, K., Magin, T., & Chatelain, P. (2016). Fully implicit Discontinuous Galerkin solver to study surface and volume ablation competition in atmospheric entry flows. International Journal of Heat and Mass Transfer, 103, 108-124. doi:10.1016/j.ijheatmasstransfer.2016.07.022
Peer Reviewed verified by ORBi

Contact ORBi