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Computational Fluid Dynamics and Experimental Studies of a New Mixing Element in a Static Mixer as a Heat Exchanger

100%
Konopacki M., Kordas M., Fijałkowski K., Rakoczy R.
Chemical and Process Engineering
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2015
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vol. 36
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issue 1
59-72
EN
The main aim of this work is to study the thermal efficiency of a new type of a static mixer and to analyse the flow and temperature patterns and heat transfer efficiency. The measurements were carried out for the static mixer equipped with a new mixing insert. The heat transfer enhancement was determined by measuring the temperature profiles on each side of the heating pipe as well as the temperature field inside the static mixer. All experiments were carried out with varying operating parameters for four liquids: water, glycerol, transformer oil and an aqueous solution of molasses. Numerical CFD simulations were carried out using the two-equation turbulence k-ω model, provided by ANSYS Workbench 14.5 software. The proposed CFD model was validated by comparing the predicted numerical results against experimental thermal database obtained from the investigations. Local and global convective heat transfer coefficients and Nusselt numbers were detrmined. The relationship between heat transfer process and hydrodynamics in the static mixer was also presented. Moreover, a comparison of the thermal performance between the tested static mixer and a conventional empty tube was carried out. The relative enhancement of heat transfer was characterised by the rate of relative heat transfer intensification.
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Analysis of a mixing process induced by a rotating magnetic field by means of the dimensional analysis

100%
Story G., Kordas M., Rakoczy R.
Czasopismo Techniczne
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-
PL
The main objective of this work is to study the effect of rotating magnetic field (RMF) on the hydrodynamic conditions in the mixed liquid. The dimensional analysis of Navier-Stokes equations including the Lorenz force allows describing the analyzed process by using the relationships basing on the dimensionless numbers. The comparison between the obtained results and the experimental investigations is carried out. It was found a strong correlation between the velocity field and the magnetic induction or electrical conductivity of fluid.
3
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Experimental study and mathematical modeling of the residence time distribution in magnetic mixer

88%
Rakoczy R., Kordas M., Grądzik P., Konopacki M., Story G.
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vol. 15
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issue 2
53-60
EN
This study reports on research results in the field of a mixing process under the action of a transverse rotating magnetic field (TRMF). The main objective of this paper is to present the effect of this type of a magnetic field on residence time distribution (RTD) measurements. This paper evaluates the performance of a magnetic mixer by comparing the results of an experimental investigations in a pilot set-up and theoretical values obtained from mathematical model. This model consisting of the set of ideal continuous stirred tank reactors (CSTR) fitted well the experimental data.
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