Research Center for Engineering of
                Systems with Complex Fluids

Academic research:

- courses and applications for final year students, writing the diploma project.

- courses in numerical methods and numerical simulation techniques in the master programs.

- training and development of the PHD students  in numerical simulation of fluid flow and related applications.

- development of educational software for technical applications to fluid mechanics and hydraulic turbomachines.

 In Numerical Simulation and Parallel Computing Laboratory are held master courses:


Course Type

Course Title

Course Teacher

Year of Study

1  Licence Course  Turbine Hidraulice si Turbotransmisii  Prof.dr.eng. Alexandru BAYA IV
 2  Licence Course  Tehnologia Fabricatiei si Montajului Masinilor Hidraulice Prof.dr.eng. Ilare BORDEASU IV
 3   Licence Course Centrale Hidroelectrice  Prof.dr.eng. Alexandru BAYA  IV
 4  Licence Course  Statii de Pompare  Lec.Dr.eng. Teodor MILOS  IV
5  Licence Course  Simulari Numerice în Masini si Echipamente Hidraulice As.dr.eng. Adrian STUPARU  IV
6 Master Course Hidrodinamica Prof.dr.eng. Liviu Eugen ANTON 1
7 Master Course Metode Numerice în Analiza Câmpurilor Termice si a Curgerii Fluidelor  Prof.dr. eng. Romeo SUSAN-RESIGA  1
 8  Master Course Proiectarea si Constructia Turbinelor Hidraulice Prof.dr.eng. Alexandru BAYA  1
9 Master Course  Metode Numerice pentru Masinile Hidraulice   Prof.dr. eng. Romeo SUSAN-RESIGA  2

 The PhD students from our laboratory are:


PhD Advisor

PhD Student

Title of the PhD thesis

1 Prof. dr. eng. Romeo SUSAN-RESIGA Eng. Alin TOTOREAN    
2 Prof. dr. eng. Romeo SUSAN-RESIGA Eng. Tiberiu CIOCAN  Numerical analysis and redesigning Francis turbine runners  
3  Prof. dr. eng. Liviu ANTON Eng. Ionel DRAGHICI Cavitational and energetic study in centrifugal pumps   
4  Prof. dr. eng. Romeo SUSAN-RESIGA Eng. Cosmin IGHISAN   Experimental analisys of swirling flow in turbomachinery  



Scientific research:

- develop and use of numerical simulation techniques for analysis and optimization of three-dimensional complex flows in hydraulic machinery and equipments.

- using numerical experiments to analyze and characterize the structure and physical properties of complex fluids (eg magnetized fluids, polyphasic fluids, complex fluids with rheological behavior).

- development of parallel algorithms and computer programs for scientific and engineering applications that require significant resources for the memory and computing.

- use numerical simulation techniques to solve complex flow problems in biomedical applications (stenoses, aneurysms, etc.).