Profil

Vigny Ulysse

Université de Mons - UMONS > Faculté Polytechnique > Service des Fluides-Machines

ORCID
0000-0001-7828-0039

Main Research Fields
Energy
Mechanical engineering
Physics
Main Keywords
large eddy simulation; yales2; Actuator Line Method; Adaptive mesh refinement; convective boundary layer;
Main Co-authors
Zeoli, Stéphanie 
Benard, Pierre
BRICTEUX, Laurent 
Tene Hedje, Patrick 
Houtin-Mongrolle, F.

Publications (total 9)

The most downloaded
1 downloads
Vigny, U.* , Tene Hedje, P., Houtin-Mongrolle, F., Bricteux, L., Zeoli, S., & Benard, P. (02 June 2022). A new wake detection methodology to capture wind turbine wakes using adaptive mesh refinement and Large Eddy Simulation. Journal of Physics. Conference Series, 2265 (2), 022005. doi:10.1088/1742-6596/2265/2/022005 https://hdl.handle.net/20.500.12907/44387

Vigny, U.* , Voivenel, L., Zeoli, S., & Benard, P. (November 2022). Convective atmospheric boundary layer using Large Eddy Simulation. Paper presented at 18th eawe PhD Seminar, Bruges, Belgium.

Vigny, U.* , Voivenel, L., Zeoli, S., & Benard, P. (November 2022). convective atmospheric boundary layer using LES. Paper presented at 18th EAWE PhD Seminar, Bruges, Belgium.
Editorial reviewed

Vigny, U.* , Voivenel, L., Zeoli, S., & Benard, P. (2022). convective atmospheric boundary layer using LES. In 18th EAWE PhD Seminar. Bruges, Belgium: eawe.
Editorial reviewed

Tene Hedje, P.* , Zeoli, S., Vigny, U., Houtin-Mongrolle, F., Benard, P., & Bricteux, L.*. (02 June 2022). Large Eddy Simulation of HAWT and VAWT performances in the vicinity of a building. Journal of Physics. Conference Series, 2265 (4), 042078. doi:10.1088/1742-6596/2265/4/042078
Peer reviewed

Tene Hedje, P.* , Zeoli, S., Vigny, U., Houtin-Mongrolle, F., Benard, P., & Bricteux, L.*. (02 June 2022). Large Eddy Simulation of HAWT and VAWT performances in the vicinity of a building. Poster session presented at TORQUE 2022, Delft, Netherlands.

Vigny, U.* , Tene Hedje, P., Houtin-Mongrolle, F., Bricteux, L., Zeoli, S., & Benard, P. (02 June 2022). A new wake detection methodology to capture wind turbine wakes using adaptive mesh refinement and Large Eddy Simulation. Journal of Physics. Conference Series, 2265 (2), 022005. doi:10.1088/1742-6596/2265/2/022005
Peer reviewed

Vigny, U.* , Zeoli, S., & Benard, P. (June 2022). A new wake detection methodology to capture wind turbine wakes using adaptive mesh refinement and large eddy simulation. Poster session presented at TORQUE 2022, Delft, Netherlands.

Vigny, U.* , Benard, P., Tene Hedje, P., Houtin Mongrolle, F., Bricteux, L., & Zeoli, S. (June 2022). A new wake detection methodology to capture wind turbine wakes using adaptive mesh refinement and large eddy simulation. Poster session presented at TORQUE 2022, Delft, Netherlands.

Vigny, U., Zeoli, S., Houtin-Mongrolle, F., Bricteux, L., & Bénard, P. (28 May 2021). Dynamic mesh adaptation to capture wind turbine wake during LES simulations. Paper presented at Wind Energy Science Conference, Online, Germany.

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