Nermina Mujaković scite author profile

Nermina Mujaković

5Publications

157Citation Statements Received

5Citation Statements Given

How they've been cited

178

154

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Affiliations

University of Rijeka

Publications

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3-D flow of a compressible viscous micropolar fluid with spherical symmetry: a global existence theorem

Črnjarić-Žic

Mujaković

2015

Bound Value Probl

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We consider the nonstationary 3-D flow of a compressible viscous heat-conducting micropolar fluid in the domain to be the subset of R 3 bounded with two concentric spheres that present the solid thermo-insulated walls. In the thermodynamical sense the fluid is perfect and polytropic. We assume that the initial density and temperature are bounded from below with a positive constant and that the initial data are sufficiently smooth spherically symmetric functions. The starting problem is transformed into the Lagrangian description on the spatial domain ]0, 1[. In this work we prove that our problem has a generalized solution for any time interval [0, T], T ∈ R + . The proof is based on the local existence theorem and the extension principle.

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Global in time estimates for one-dimensional compressible viscous micropolar fluid model

Mujaković¹

2005

Glas. Mat. Ser. III

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3-D flow of a compressible viscous micropolar fluid with spherical symmetry: a local existence theorem

Črnjarić-Žic

Mujaković

2012

Bound Value Probl

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We consider nonstationary 3-D flow of a compressible viscous heat-conducting micropolar fluid in the domain to be the subset of R 3 bounded with two concentric spheres that present solid thermoinsulated walls. In thermodynamical sense fluid is perfect and polytropic. Assuming that the initial density and temperature are strictly positive we will prove that for smooth enough spherically symmetric initial data there exists a spherically symmetric generalized solution locally in time.

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One-Dimensional Flow of a Compressible Viscous Micropolar Fluid: Stabilization of the Solution

Mujaković

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Non-homogeneous boundary value problem for one-dimensional compressible viscous micropolar fluid model: a global existence theorem

Mujaković¹

2009

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Abstract. An initial-boundary value problem for 1-D flow of a compressible viscous heat-conducting micropolar fluid is considered; the fluid is assumed thermodynamically perfect and polytropic. By transforming the original problem into homogeneous one we prove a global-in-time existence theorem. The proof is based on a local existence theorem, obtained in the previous research paper [5].Mathematics subject classification (2000): 35K55, 35Q40, 76N10, 46E35.

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