Analiza strujanja fluida i formiranja vrtloga izmedju dve neravne ploče primenom numeričkih metoda
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May 4, 2017
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Apstrakt
U radu je simulirano strujanje fluida između dve neravne ploče. Cilj rada je bio da se uoči i analizira ponašanje toka fluida i formiranje vrtloga u kanalima gde dolazi do periodičnog smanjenja i povećanja poprečnog preseka. Dvodimenziona simulacija je urađena za dva modela sinusoidalnih ploča različitih faznih uglova. Rejnoldsov broj, kao funkcija srednjeg razmaka između ploča (Havg), variran je u laminarnom režimu, od 200 do 1000.
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Kako citirati
MARKOVIĆ, Jelena Ä. et al.
Analiza strujanja fluida i formiranja vrtloga izmedju dve neravne ploče primenom numeričkih metoda.
Zbornik Međunarodnog kongresa o procesnoj industriji – Procesing, [S.l.], v. 23, n. 1, may 2017.
Dostupno na: <https://izdanja.smeits.rs/index.php/ptk/article/view/2442>. Datum pristupa: 16 mar. 2026
Sekcija
Tehnička regulativa, standardizacija i sistem kvaliteta
Reference
1. Giron-Palomares, B., Hernandez-Guerrero, A., Romero-Mendez, R., Oviedo-Tolentino, F., An experimental analysis of the flow pattern in heat exchangers with an egg carton configuration (parallel, convergent and divergent cases, International Journal of Heat and Fluid Flow 30, (2009), pp.158
2. Gschwind, P., Reggele, A., Kottke, V., Sinusoidal wavy channels with Tazyor-Gertler vortices, Experimental Thermal and Fluid Science 11, (2002), pp. 270
3. Islamoglu, Y., Parmaksizoglu, C., Numerical investigation of convective heat transfer and pressure drop in a corrgated heat exchanger channel, Applied Theramal Engineering 24, (2004), pp. 141
4. Jang, J.Y. Chen, L.K., Numerical analysis of heat transfer and fluid flow ina three-dimensional wavy-Fin and tube heat exchanger, Interantional Journal of Heat and Mass Transfer 40, (1997), pp. 3981
5. Mahmud, S., Sadrul-Islam, A.K.M., Mamun, M.A.H.; Separation characterestics of fluidl flow inside two parallel plates with wavy surface, International Journal of Enbineering Science 40, (2002), pp. 1495
6. Rush, T.A., Newell, T.A., jacobi, A.M., An experimental study of flow and heat transfer in sinusoidal wavy passages, International Journal of Heat and Mass Transfer 41, (1999), pp. 1541
7. Sawyer, R., Sen, M., Hsueh-Chia, C., An experimental study of flow and heat transfer in sinuosidal wavy passages, International Journal of Heat and Mass Transfer 41, (1998), pp. 3559
8. Succi, S., The Lattice Boltzman Equation for Fluid Dynamics and Beyond, Oxford University Press, Oxford, 2001.
9. Sukop, M. C. and D. T. J. Thorne, Lattice Boltzmann Modeling: An Introduction for Geoscientists and Engineers, Springer, 2007
10. Wang, C.C., Chen, C.K., Forced convection in a wavay-walled channel, International Journal of Heat and Mass Transfer 45, (2002), pp. 2595
11. Zhang, J., Kundu, J., Manglik, R.M., Effect of fin waviness and spacing on the lateral vortex structure and laminar heat transfer in wavy-plate-fin cores, International Journal of Heat and Mass Transfer 47, (2002), pp. 2595
12. Mohamad, A. A., Applied Lattice Boltzmann Method for Transport Phenomena, Momentum, Heat and Mass Transfer, Sure Print, Dalbrent, Canada, 2007.
13. Chen, S., J. Țlke and M. Krafczyk, A new method for the numerical solution of vorticity Рstreamfunction formulations, Computer Methods in Applied Mechanics and Engineering, 198 (2008), pp. 367
2. Gschwind, P., Reggele, A., Kottke, V., Sinusoidal wavy channels with Tazyor-Gertler vortices, Experimental Thermal and Fluid Science 11, (2002), pp. 270
3. Islamoglu, Y., Parmaksizoglu, C., Numerical investigation of convective heat transfer and pressure drop in a corrgated heat exchanger channel, Applied Theramal Engineering 24, (2004), pp. 141
4. Jang, J.Y. Chen, L.K., Numerical analysis of heat transfer and fluid flow ina three-dimensional wavy-Fin and tube heat exchanger, Interantional Journal of Heat and Mass Transfer 40, (1997), pp. 3981
5. Mahmud, S., Sadrul-Islam, A.K.M., Mamun, M.A.H.; Separation characterestics of fluidl flow inside two parallel plates with wavy surface, International Journal of Enbineering Science 40, (2002), pp. 1495
6. Rush, T.A., Newell, T.A., jacobi, A.M., An experimental study of flow and heat transfer in sinusoidal wavy passages, International Journal of Heat and Mass Transfer 41, (1999), pp. 1541
7. Sawyer, R., Sen, M., Hsueh-Chia, C., An experimental study of flow and heat transfer in sinuosidal wavy passages, International Journal of Heat and Mass Transfer 41, (1998), pp. 3559
8. Succi, S., The Lattice Boltzman Equation for Fluid Dynamics and Beyond, Oxford University Press, Oxford, 2001.
9. Sukop, M. C. and D. T. J. Thorne, Lattice Boltzmann Modeling: An Introduction for Geoscientists and Engineers, Springer, 2007
10. Wang, C.C., Chen, C.K., Forced convection in a wavay-walled channel, International Journal of Heat and Mass Transfer 45, (2002), pp. 2595
11. Zhang, J., Kundu, J., Manglik, R.M., Effect of fin waviness and spacing on the lateral vortex structure and laminar heat transfer in wavy-plate-fin cores, International Journal of Heat and Mass Transfer 47, (2002), pp. 2595
12. Mohamad, A. A., Applied Lattice Boltzmann Method for Transport Phenomena, Momentum, Heat and Mass Transfer, Sure Print, Dalbrent, Canada, 2007.
13. Chen, S., J. Țlke and M. Krafczyk, A new method for the numerical solution of vorticity Рstreamfunction formulations, Computer Methods in Applied Mechanics and Engineering, 198 (2008), pp. 367