Projects / Programmes source: ARIS

Modeliranje transporta sedimentov in polutantov (Slovene)

Research activity

Code Science Field Subfield
2.20.00  Engineering sciences and technologies  Hydrology   

Code Science Field
T220  Technological sciences  Civil engineering, hydraulic engineering, offshore technology, soil mechanics 
T270  Technological sciences  Environmental technology, pollution control 
Mathematical modelling, transport of sediments, transport of pollutants, thermal pollution, computer code PCFLOW3D
Evaluation (rules)
source: COBISS
Researchers (10)
no. Code Name and surname Research area Role Period No. of publicationsNo. of publications
1.  15622  PhD Primož Banovec  Hydrology  Researcher  1999 - 2001  514 
2.  08247  PhD Matjaž Četina  Hydrology  Head  1999 - 2001  590 
3.  18432  Jože Jeraj    Researcher  1999 - 2001 
4.  14111  PhD Mario Krzyk  Hydrology  Researcher  1999 - 2001  425 
5.  08245  PhD Matjaž Mikoš  Hydrology  Researcher  1999 - 2001  1,554 
6.  09399  PhD Jože Panjan  Civil engineering  Researcher  1999 - 2001  1,133 
7.  00112  PhD Rudolf Rajar  Civil engineering  Researcher  1999 - 2001  366 
8.  11277  PhD Andrej Širca  Civil engineering  Researcher  1999 - 2001  276 
9.  09272  Majda Zakrajšek  Hydrology  Researcher  1999 - 2001  79 
10.  12068  PhD Dušan Žagar  Mechanics  Researcher  1999 - 2001  770 
Organisations (1)
no. Code Research organisation City Registration number No. of publicationsNo. of publications
1.  0792  University of Ljubljana, Faculty of Civil and Geodetic Engineering  Ljubljana  1626981  25,723 
The development of mathematical models describing the transport of pollutants in surface waters will be continued. Due to the fact that pollutants are mostly connected with suspended particles, a 2D module for suspended sediment transport will be improved while 1D and 3D modules will be newly developed and implemented into general existing models. The 3D code PCFLOW3D will be improved with more accurate numerical scheme which will provide long term simulations of different pollutants, e.g. phosphorus, oxygen, mercury etc. The 3D thermal pollution module for heat transfer computations in rivers, reservoirs and lakes will be completed with different boundary conditions. Several practical applications will be simulated to verify the models additionally and to prove their practical value.
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