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Projects / Programmes source: ARIS

Highly efficient aproximative methods for solving of fluid dynamics problems

Research activity

Code Science Field Subfield
2.13.02  Engineering sciences and technologies  Process engineering  Transmissibility in solids and fluids 

Code Science Field
T200  Technological sciences  Thermal engineering, applied thermodynamics 
Keywords
computational fluid dynamics, numerical modeling, transport phenomena, iterative methods, laminar and turbulent fluid flow, boundary-domain integral method
Evaluation (rules)
source: COBISS
Researchers (6)
no. Code Name and surname Research area Role Period No. of publicationsNo. of publications
1.  12204  PhD Marjan Delić  Process engineering  Researcher  1997 - 1999  88 
2.  08584  PhD Jure Marn  Process engineering  Researcher  1997 - 1999  467 
3.  13470  PhD Niko Samec  Process engineering  Researcher  1997 - 1999  644 
4.  06428  PhD Leopold Škerget  Process engineering  Head  1998 - 1999  1,007 
5.  12653  PhD Zoran Žunič  Process engineering  Researcher  1997 - 1999  112 
6.  11630  Janez Župec  Process engineering  Researcher  1999  12 
Organisations (1)
no. Code Research organisation City Registration number No. of publicationsNo. of publications
1.  0795  University ob Maribor, Faculty of mechanical engineering  Maribor  5089638010  24,091 
Abstract
Further development and some new application of computational fluid dynamics based on Boundary Domain Integral Method (BDIM) are discussed during the work on the project. The main goal is to simulate viscous laminar and turbulent Newtonian and Non-Newtonian fluid flows using the up-to-date parallel iterative solvers on the network of powerfull HP workstation. Some different test cases have been modelled, e.g. combustion processes, fluid flows in process equipment and turbine machinery.
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