Investigation of the ionized gas flow adjacent to porous wall in the case when electroconductivity is a function of the longitudinal velocity gradient

Savić Slobodan R.; Obrović Branko R.; Gordić Dušan R.; Jovanović Saša B.

Članak

pošalji članak e-poštom

dodaj u Moj izbor (0)

pun tekst

povezani članci (12)

kako citirati ovaj članak

Direktan link

članak: 1 od 1

Thermal Science

2010, vol. 14, br. 1, str. 89-102

jezik rada: engleski
izvorni naučni članak
doi:10.2298/TSCI1001089S

Investigation of the ionized gas flow adjacent to porous wall in the case when electroconductivity is a function of the longitudinal velocity gradient

(naslov ne postoji na srpskom)

Savić Slobodan R., Obrović Branko R., Gordić Dušan R., Jovanović Saša B.

Univerzitet u Kragujevcu, Mašinski fakultet

e-adresa: ssavic@kg.ac.rs

Projekat Ministarstva nauke Republike Srbije, br. ON144022

Sažetak

(ne postoji na srpskom)

This paper studies the laminar boundary layer on a body of an arbitrary shape when the ionized gas flow is planar and steady and the wall of the body within the fluid porous. The outer magnetic field is perpendicular to the fluid flow. The inner magnetic and outer electric fields are neglected. The ionized gas electroconductivity is assumed to be a function of the longitudinal velocity gradient. Using transformations, the governing boundary layer equations are brought to a general mathematical model. Based on the obtained numerical solutions in the tabular forms, the behavior of important non-dimensional quantities and characteristics of the boundary layer is graphically presented. General conclusions about the influence of certain parameters on distribution of the physical quantities in the boundary layer are drawn.

Ključne reči

boundary layer; ionized gas electroconductivity; porous wall; porosity parameter

	Reference
1	Boričić, Z., Nikodijević, D., Obrović, B. (1993) Unsteady liquid flow whose electroconductivity is a function of the longitudinal velocity gradient in MHD boundary layer on a body. u: Yugoslav Congress of Theoretic and Applied Mechanics, Kragujevac, str. 136-139 (in Serbian)
7	Boričić, Z., Nikodijević, D., Milenković, D. (1995) Unsteady MHD boundary layer on a porous surface. Facta universitatis - series: Mechanics, Automatic Control and Robotics, vol. 1, br. 5, str. 631-643
6	Dorrance, W.H. (1966) Viscous hypersonic flow: Theory of reacting and hypersonic boundary layers. Moscow: Mir, in Russian
1	Ivanović, D.J. (2002) Nestacionarni nestišljivi MHD granični sloj na poroznom aeroprofilu u visoko ubrzavanom strujnom toku. Theoretical and Applied Mechanics, br. 27, str. 87-102
3	Krivtsova, N.V. (1966) Laminar boundary layer with the equilibrium dissociated gas. Gidrogazodinamika, Trudi LPI, No. 265, 35-45, in Russian
6	Krivtsova, N.V. (1966) Parameter method of solving of the laminar boundary layer equations with axial pressure gradient in the conditions of balance dissociation of the gas. Engineering-Physical Journal, Moscow, X (2), str. 143-153, in Russian
5	Loitsianskii, L.G. (1962) Laminar boundary layer. Moscow: FML, in Russian
6	Loitsianskii, L.G. (1978) Liquid and gas mechanics. Moscow: Nauka, in Russian
	Obrović, B.R., Savić, S.R. (2007) Granični sloj jonizovanog gasa na poroznom zidu tela čija je elektroprovodnost funkcija odnosa brzina. Facta universitatis - series: Mechanics, Automatic Control and Robotics, vol. 6, br. 1, str. 145-160
3	Obrović, B.R., Savić, S.R. (2002) About porosity parameters with the application of general similarity method to the case of a dissociated gas flow in the boundary layer. Kragujevac Journal of Mathematics, br. 24, str. 207-214
6	Obrović, B.R. (1994) Boundary layer of dissociated gas. Kragujevac: Faculty of Mechanical Engineering
1	Obrović, B.R., Boričić, Z., Savić, S. (1999) Boundary layer of ionized gas in the case of changeable electroconductivity. Facta universitatis - series: Mechanics, Automatic Control and Robotics, vol. 2, br. 9, 953-963
3	Obrović, B.R., Savić, S.R. (2004) Granični sloj jonizovanog gasa na poroznom zidu opstrujavanog tela unutar elektroprovodnog fluida. Theoretical and Applied Mechanics, vol. 31, br. 1, str. 47-71
	Saljnikov, V., Dallmann, U. (1989) Generalized similarity solutions for three dimensional, laminar, steady compressible boundary layer flows on swept, profiled cylinders (in German). Göttingen: Institute for Theoretical Fluid Mechanics, DLR-FB, 89-34
	Saljnikov, V., Boričić, Z., Nikodijević, D. (1997) Parametric method in unsteady MHD boundary layer theory of fluid with variable electroconductivity. Facta universitatis - series: Mechanics, Automatic Control and Robotics, 2, 7/2, pp. 331-340
	Saljnikov, V.N., Obrović, B., Savić, S. (2001) Strujanje jonizovanog gasa u graničnom sloju za različite oblike zakona promene elektroprovodnosti. Theoretical and Applied Mechanics, br. 26, str. 15-31
	Savić, S., Obrović, B. (2006) Uticaj variranja elektroprovodnosti na strujanje jonizovanog gasa u graničnom sloju duž poroznog zida. Theoretical and Applied Mechanics, vol. 33, br. 2, str. 149-179
1	Savić, S.R. (2006) Solution of the problem of the ionized gas flow in the boundary layer in case of a nonporous and a porous contour of the body within the fluid. Kragujevac: Faculty of Mechanical Engineering, PhD thesis, in Serbian

Članak

Sažetak

Ključne reči

Reference