Determination of the Thermo and Magneto Phoresis by the Dissipative Function
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Stéfan van Vaerenbergh
, Marcel Hennenberg und Boris Weyssow
Summary
Three different thermally induced phoresis of magnetic colloids are indentified using thermodynamics of irreversible processes. Has been used an exact and original implementation of the mechanical balance that conciliates it with the usual hydrodynamic description of phoresis used to quantify the transport coefficients. Here, only the “translational” approximation has been developed. Are so distinguished: thermomagneto chemophoresis, reversibly coupled to chemophoresis (diffusion), and irreversibly coupled to them, the thermophoresis and magnetophoresis that occurs because the system is a polarized one. The two latter are quantified respectively by the “heat of transport” and the here introduced “magnetisation of transport”. The effects are better compared to thermophoresis, that can be measured individually, and reference measurements of them are mandatory to understand the experimental results.
© by Oldenbourg Wissenschaftsverlag, München
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Artikel in diesem Heft
- Magnetic Nanoparticles for Biomedical Heating Applications
- Characterization of the Grain Size in Ferromagnetic Colloids: Comparing Torsional-Pendulum Measurements with Standard Complementary Methods
- Structural and Magnetic Properties of Ni/NiOxide- and Co/CoOxide Core/Shell Nanoparticles and their possible Use for Ferrofluids
- Nanoscaled Nickel-Zinc-Iron Oxides of Spinell Type as Soft Magnetic Colloids and their Ferromagnetic Resonance Spectrum
- Gravity Level Influence on a Laterally Heated Ferrofluid Submitted to an Oblique Strong Magnetic Field
- Determination of the Thermo and Magneto Phoresis by the Dissipative Function
- Magnetization of Rotating Ferrofluids: Predictions of Different Theoretical Models
- Thermal Ratchet Effect in a Rotating Ferrofluid
- Distribution of Mitoxantrone after Magnetic Drug Targeting: Fluorescence Microscopic Investigations on VX2 Squamous Cell Carcinoma Cells
- Some Immobilization Modes of Biologically Active Substances to Fine Magnetic Particles
- On Magnetic Field Control Experiments of Ferrofluid Convection Motion