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2. Andrej Horvat Intelligent Fluid Solution Ltd. 127 Crookston Road, London, SE9 1YF, United Kingdom Tel./Fax: 44 (0)1235 819 729 Mobile: 44 (0)78 33 55 63 73 E-mail: andrej.horvat@intelligentfluidsolutions.co.uk Web: www.intelligentfluidsolutions.co.uk . Contact informat
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2. 2 Andrej Horvat
Intelligent Fluid Solution Ltd.
127 Crookston Road, London, SE9 1YF, United Kingdom
Tel./Fax: +44 (0)1235 819 729
Mobile: +44 (0)78 33 55 63 73
E-mail: andrej.horvat@intelligentfluidsolutions.co.uk
Web: www.intelligentfluidsolutions.co.uk
3. 3 1995, Dipl. -Ing. Mech. Eng. (Process Tech.)
University of Maribor
1998, M.Sc. Nuclear Eng.
University of Ljubljana
2001, Ph.D. Nuclear Eng.
University of Ljubljana
2002, M.Sc. Mech. Eng. (Fluid Mechanics & Heat Transfer)
University of California, Los Angeles
4. 4 More than 10 years of intensive CFD related experience:
R&D of numerical methods and their implementation
(convection schemes, LES methods, semi-analytical methods, Reynolds Stress models)
Design analysis
(large heat exchangers, small heat sinks, burners, drilling equip., flash furnaces, submersibles)
Fire prediction and suppression
(backdraft, flashover, marine environment, gas releases, determination of evacuation criteria)
Safety calculations for nuclear and oil industry
(water hammer, PSA methods, severe accidents scenarios, pollution dispersion)
5. 5 As well as CFD, experiences also in:
Experimental methods
QA procedures
Standardisation and technical regulations
Commercialisation of technical expertise and software products
6. 6 Overview of fluid dynamics transport equations
- transport of mass, momentum, energy and composition
- influence of convection, diffusion, volumetric (buoyancy) force
- transport equation for thermal radiation
Averaging and simplification of transport equations
- spatial averaging
- time averaging
- influence of averaging on zone and field models
Zone models
- basics of zone models (1 and 2 zone models)
- advantages and disadvantages
7. 7 Field models
- numerical mesh and discretisation of transport equations
- turbulence models (k-epsilon, k-omega, Reynolds stress, LES)
- combustion models (mixture fraction, eddy dissipation, flamelet)
- thermal radiation models (discrete transfer, Monte Carlo)
- examples of use
Conclusions
- software packages
Examples
- diffusion flame
- fire in an enclosure
- fire in a tunnel
8. 8 Today, CFD methods are well established tools that help in design, prototyping, testing and analysis
The motivation for development of modelling methods (not only CFD) is to reduce cost and time of product development, and to improve efficiency and safety of existing products and installations
Verification and validation of modelling approaches by comparing computed results with experimental data are necessary
Nevertheless, in some cases CFD is the only viable research and design tool (e.g. hypersonic flows in rarefied atmosphere)
9. 9
10. 10 Transport equations
11. 11 Transport equations
12. 12 Transport equations
13. 13 Transport equations
14. 14 Transport equations
15. 15 Transport equations
