PhD and MSc Theses
PhD and MSc Theses, since 1988
Student’s Name |
Graduation Year |
Degree |
Abstracts |
Research Name |
Amouyal Solal |
2020 |
PhD |
Abstracts |
High-Fidelity Low-Mach Number Simulations of Reacting Flows using Accelerated Chemistry |
Singh Vikram |
2019 |
PhD |
Abstracts |
Stabilization of High-Order Flux-Reconstruction Scheme for Wall-Modeled Implicit Large Eddy Simulation |
Haimovitz Ory |
2018 |
PhD |
Abstracts |
High-Order Numerical Simulations of Compressible Multicomponent and Multiphase Flow Using a Targeted ENO (TENO) Finite-Volume Method |
Stanly Ronith |
2021 |
MSc |
Abstracts |
Large Eddy Simulation of Rotors: Filtered Actuator Line Modelling of Wind Turbines and Aeroacoustics of Propeller |
Argov Omri |
2022 |
MSc |
Abstracts |
Numerical Modeling of Atomization in High-Speed Multi-Phase Flows |
Meirom Dekel |
2024 |
MSc |
Abstracts |
Improving Performance of Variational Quantum Algorithms: Novel Pulse-based Ansatz and Exploring the Energy Landscape using Quantum Exhaustive Search |
Regev Tom |
2023 |
MSc |
Abstracts |
GPU-Accelerated High-Fidelity Implicit Large Eddy Simulations of Coanda Cylinder Flow Instablities |
Laufer Michael |
2022 |
MSc |
Abstracts |
GPU-Accelerated Implicit Large Eddy Simulation of a NACA 0018 Airfoil with Active Flow Control |
Shkatrut Max |
2021 |
MSc |
Abstracts |
Flux-Reconstruction and Meshless Methods for Solving the Compressible Navier-Stokes Equations: Machine Learning for Active Flow Control and GPUs for Accelerated |
Dvorsky Anatoly |
2020 |
MSc |
Abstracts |
Applied Computational Fluid Dynamics for Design Optimisation of Rotary Blood Pumps for Cardiovascular Disease |
Tsarfis Igal |
2020 |
MSc |
Abstracts |
Assessment of Immersed Boundary Methods for Large Eddy Simulations of Thermal-Hydraulic Turbulant Flows |
Faingold Galia |
2018 |
MSc |
Abstracts |
CFD Modeling of a Direct Injection H2/DME Fueled Internal Combustion Engine |
Hantsis Zvi |
2017 |
MSc |
Abstracts |
Hybrid methods in computational fluid mechanics: Application of hybrid RANS/LES model to internal incompressible flow |