C Hanzelmann scite author profile

Magnetic influence on ferronanofluid flow is gaining increasing interest from not only the scientific community but also industry. The aim of this study is the examination of the potentials of magnetic forces to control heat transfer. Experiments are conducted to investigate the interaction between four different configurations of permanent magnets and laminar pipe flow with mixed convection. For that purpose a pipe flow test rig is operated with a water-magnetite ferronanofluid. The Reynolds number is varied over one order of magnitude (120–1200). To characterise this suspension, density, solid content, viscosity, thermal conductivity, and specific heat capacity are measured. It is found that, depending on the positioning of the magnet(s) and the Reynolds number, heat transfer is either increased or decreased. The experiments indicate that this is a local effect. After relaxation lengths ranging between 2 and 3.5 lengths of a magnet, all changes disappeared. The conclusion from these findings is that magnetic forces are rather a tool to control heat transfer locally than to enhance the overall heat transfer of heat exchangers or the like. Magnetically caused disturbances decay due to viscous dissipation and the flow approaches the basic state again.

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PT and viscosity measurements of high-temperature ammonia heat pump lubricants

Feja

Hanzelmann

Zuber³

2018

International Journal of Refrigeration

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PVT-measurements for high-temp ammonia heat pump lubricants.

Feja¹,

Hanzelmann²,

Zuber³

2017

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C Hanzelmann

Experimental studies of thermodynamic properties of R744-oil-mixtures up to 140 °C and 150 bar

About the viscosity reduction of oils by diluted ammonia at high temperatures.

Laminar Pipe Flow with Mixed Convection under the Influence of Magnetic Field

PT and viscosity measurements of high-temperature ammonia heat pump lubricants

PVT-measurements for high-temp ammonia heat pump lubricants.

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