Διδακτορικές διατριβές
- Panagiotis Govatsos, Development of a numerical methodology for the computation of steady flow in hydraulic turbomachines, 1997
- Michael Panagiotopoulos, Design and experimental investigation of small hydroturbines of simple construction, NTUA, 1990.
- Alexandros Panagiotopoulos, Numerical simulation of the flow and interchange of energy, on impulse water turbines, along with further experimental examination and confirmation, NTUA, 2016.
- Vasilios Grapsas, Optimum design of impellers of hydraulic turbomachines, NTUA, 2015.
- Fivos Koukouvinis, Development of a meshfree particle method for the simulation of steady and unsteady free surface flows: Application and validation of the method on impulse hydraulic turbines, NTUA, 2012.
- Marios Chrisovergis, Numerical analysis of the flow in a reversible hydraulic machine and investigation of possible design and efficiency improvements, NTUA, 2017.
- Marina Kapsali, Contribution to high RES integration in island networks to be interconnected, NTUA, 2017.
- Ioannis Kassanos, Development and application of integrated hydro-turbine reaction design methodology with high efficiency over a wide range of operating conditions, NTUA, 2017. (completed – examination stage).
- Erika Davou, Numerical simulation and laboratory testing of a desalination energy hybrid system. Dimentioning and investigation of optimal operation, NTUA, 2018
- Georgios Mousmoulis, Development of a methodology for diagnosis of cavitation in hydraulic turbomachines with experimental and numerical tools, NTUA, (started October 2014).
- Dimitrios Nakos, Numerical and experimental analysis of the flow and the design of low head hydraulic turbines, NTUA, (Started October 2015).
- Vasilios Sanoudso-Dramaliotis, Numerical and experimental investigation of a novel diesign runner with adaptive shape blades for reaction hydroturbines, NTUA, (Started February 2016).
- Charalambos Kottas Choulakis, Design of reversible pump turbines with high efficiency and fish friendly performance, NTUA (Started 2019).