Aleksandar Ćoćić scite author profile

Aleksandar Ćoćić

5Publications

29Citation Statements Received

26Citation Statements Given

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Affiliations

University of Belgrade

Publications

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Numerical research of the compressible flow in a vortex tube using OpenFOAM software

Burazer¹,

Ćoćić²,

Lečić³

2017

THERM SCI

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The work presented in this paper is dealing with numerical simulation of energy separation mechanism and flow phenomena within a Ranque-Hilsch vortex tube. Simulation of turbulent, compressible, highly swirling flow inside vortex tube is performed using RANS approach, with Favre averaged conservation equations. For turbulence closure, k-? and k-? shear-stress transport models are used. It is assumed that the mean flow is axisymmetric, so the 2-D computational domain is used. Computations were performed using open-source CFD software Open- FOAM. All compressible solvers available within OpenFOAM were tested, and it was found that most of the solvers cannot predict energy separation. Code of two chosen solvers, which proved as the most robust, is modified in terms of mean energy equation implementation. Newly created solvers predict physically accepted behavior in vortex tube, with good agreement with experimental results. Comparison between performances of solvers is also presented. [Project of the Serbian Ministry of Education, Science and Technological Development, Grant no. TR 35046]

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Piezoresistant Velocity Probe

Lečić

Čantrak

Ćoćić

et al. 2009

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One-dimensional analysis of compressible flow in solar chimney power plants

Ćoćić

Djordjević

2016

Solar Energy

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Original Measuring and Calibration Equipment for Investigation of Turbulent Swirling Flow in Circular Pipe

Lečić

Ćoćić

Čantrak

2012

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Modeling of turbulent swirling ﬂow is a contemporary problem in ﬂuid mechanics. In order to make an appropriate modeling it is necessary to have reliable experimental data on instantaneous velocity ﬁeld. This article presents original equipment for experimental investigation of swirling ﬂow in straight circular pipe. A major role in that equipment plays originally developed and unique hot‐wire probe. This probe has high‐spatial and temporal resolution, and it can also be used for measuring in a viscous sublayer. Together with detailed description of the probe, the original wind tunnel for hot‐wire probes calibration is also presented in this article. The wind tunnel produces the jet with uniform velocity distribution and a very low level of turbulence.

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Positioning Devices For Measuring Spatial Velocity Correlations in Turbulent Swirl Flow in the Pipe by Hot-Wire Probes

2016

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