Nancy CHALHOUB

Nancy CHALHOUB

Associate Professor

School of Engineering of Beirut – Coordinateur classes concours

+961 (1) 421 000 ext 3320 nancy.chalhoub@usj.edu.lb

Nancy Chalhoub received her Bachelor and master's degree in Mathematics from the Faculty of Sciences at Saint-Joseph university in 2006 and 2008 respectively. She earned her PhD degree of Mathematics in 2012 from Ecole des ponts at the Paris-Est University in France. She joined the Faculty of Engineering and Architecture in 2014 where she is currently an associate professor.


Education

Degree University Country Year
Doctorat en Mathématiques Université Paris-Est France 2012
Master de Recherche en Mathématiques Saint Joseph University of Beyrouth Lebanon 2008
License en Maths Saint Joseph University of Beyrouth Lebanon 2006

Teaching at USJ


Areas of expertise

Engineering and Technology, Sciences

Research themes

Applied math

Publications and communications

Chalhoub, N., Omnes, P., Sayah, T., & ElZahlaniyeh, R. (2020). “Full discretization of time dependent convection–diffusion–reactionequation coupled with the Darcy system”. Calcolo, 57, 1-28.

 

Chalhoub, N., Omnes, P., Sayah, T., &Zahlaniyeh, R. (2022). “A posteriori error estimates for the time-dependentconvection-diffusion-reaction equation coupled with the Darcy system”. Numerical Algorithms, 1-40.

 

Aldbaissy, R., Chalhoub, N., Djoko, J. K &Sayah, T. (2023). “Full discretization of the time dependent Navier-Stokes equationswith anisotropic slip boundary condition”. International JournalOf Numerical Analysis And Modeling; Volume 20, Number 4, 497-517.

 

Aldbaissy, R.,Chalhoub, N., Djoko, J., & Sayah, T. (2024). “Full discretization of thetime dependent Navier–Stokes equations with anisotropic slip boundary conditioncoupled with the convection–diffusion–reaction equation”. International Journal of Numerical Analysis & Modeling, 20(4).

 

Chalhoub, N., Omnes,P., Sayah, T., & Zahlaniyeh, R. E. (2024). A posteriori error estimate forthe non-stationary concentration equation coupled with the Darcy systemdiscretized by the Raviart–Thomas finite element. Computational and AppliedMathematics, 43(4), 170.