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2014 (published: 24.02.2014)
Number 1(19)
Home > Issue > Physical model of a flow-on of the device to the surface heat transfer, methodology and processing of results of researches on studying the processes of energy consumed on the mixing of the product
Nikolaev B.L., Кузнецов А.В., Krupoderov А.U., Nikolaev L.K.
The article describes the experimental installation for research of the energy consumed in the production apparatus with a cleared surface. The authors present the methodology of research and views of mathematical dependencies to obtain calculation formulae in criteria-based form. During the development of the experimental setup were taken into account peculiarities of the energy consumed during processing of non-Newtonian fluids with pseudoplastic properties. The presence in the drive electric motor of a direct current, relevant instruments and devices allows you to change in a wide range of rotation frequency of the working body.
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Keywords: temperature, velocity gradient, rheology, and viscosity, he energy expended
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License
UDC 621.57
Physical model of a flow-on of the device to the surface heat transfer, methodology and processing of results of researches on studying the processes of energy consumed on the mixing of the product
The article describes the experimental installation for research of the energy consumed in the production apparatus with a cleared surface. The authors present the methodology of research and views of mathematical dependencies to obtain calculation formulae in criteria-based form. During the development of the experimental setup were taken into account peculiarities of the energy consumed during processing of non-Newtonian fluids with pseudoplastic properties. The presence in the drive electric motor of a direct current, relevant instruments and devices allows you to change in a wide range of rotation frequency of the working body.
Read the full article
Keywords: temperature, velocity gradient, rheology, and viscosity, he energy expended
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License