Projects / Programmes
Večfazni sistemi: fazni pojavi na stiku - I (Slovene)
Code |
Science |
Field |
Subfield |
2.13.00 |
Engineering sciences and technologies |
Process engineering |
|
Code |
Science |
Field |
T000 |
Technological sciences |
|
bubbly flow, forces, transient regimes, modeling phase interfacial structures, complex process systems thermal layer destratification, equiaxed solidification, BEM
Researchers (12)
no. |
Code |
Name and surname |
Research area |
Role |
Period |
No. of publicationsNo. of publications |
1. |
05912 |
PhD Andrej Bombač |
Process engineering |
Researcher |
1996 - 2001 |
222 |
2. |
05026 |
PhD Bogdan Filipič |
Computer science and informatics |
Researcher |
1996 - 2001 |
482 |
3. |
15420 |
Mojca Mijovič |
Computer science and informatics |
Researcher |
1998 - 2001 |
27 |
4. |
16218 |
Marko Pečar |
Process engineering |
Researcher |
1999 - 2001 |
7 |
5. |
04471 |
PhD Matjaž Perpar |
Process engineering |
Researcher |
1996 - 2001 |
128 |
6. |
18571 |
Dušan Petrič |
|
Researcher |
1999 - 2001 |
1 |
7. |
16219 |
MSc Erazem Polutnik |
Process engineering |
Researcher |
1996 - 2001 |
19 |
8. |
06415 |
PhD Alojz Poredoš |
Process engineering |
Researcher |
1996 - 2001 |
651 |
9. |
01371 |
PhD Zlatko Rek |
Process engineering |
Researcher |
2000 - 2001 |
218 |
10. |
20661 |
Borut Stražišar |
Manufacturing technologies and systems |
Researcher |
1996 - 2001 |
24 |
11. |
04101 |
PhD Božidar Šarler |
Process engineering |
Researcher |
1996 - 2001 |
1,103 |
12. |
03544 |
PhD Iztok Žun |
Process engineering |
Head |
1996 - 2001 |
540 |
Organisations (1)
Abstract
Multiphase flow systems are prevalent in a wide range of power, process and environmental engineering. The design of the components of a system in this ambient is still based to a great extent on empirical correlations. One of the main barriers to a better understanding of the thermo- and fluid dynamic conditions in multiphase flows is the lack of knowledge and information on physical interactions between the phases at their interface. The research has the purpose of microscopical search towards better understanding of chosen phenomena in order to improve macroscopical modeling predispositions. The phenomena are chosen based on the priority of technology policy in Slovenia, the global state of the art in two-phase systems, and the capabilities of the proposed project team. The following problems are treated within the project: (a) bubbly flows, (b) phase interfacial structures in complex process systems, (c) pool boiling, and (d) equiaxed solidification. Although the models may reasonably be capable of predicting flows in simple geometries, it is generally recognized that they do not predict many of the important (if not crucial) effects that occur in practical situations. The perspectives in predicting and control of these processes are dependent on the following complexity attributes: (1) significant interaction, (2) high number of parts, or degrees of freedom, (3) nonlinearity, (4) broken symmetry, and (5) nonholonomic constraints. Both, experimental and theoretical studies are considered.