Maria A. Bosse scite author profile

The problem of the effect of Joule heating generation on the hydrodynamic profile and the solute transport found in electrophoretic devices is addressed in this article. The research is focused on the following two problems: The first one is centered around the effect of Joule heating on the hydrodynamic velocity profile and it is referred to as "the carrier fluid problem." The other one is related to the effect of Joule heating on the solute transport inside electrophoretic cells and it is referred to as "the solute problem". The hydrodynamic aspects were studied first to yield the velocity profiles required for analysis of the solute transport problem. The velocity profile obtained in this study is analytical and the results are valid for non-Newtonian fluids carriers. To this end, the power-law model was used to study the effect of the rheology of the material in conjunction with the effect of Joule heating generation inside batch electrophoretic devices. This aspect of the research was then effectively used to study the effect of Joule heating generation on the motion of solutes (such as macromolecules) under the influence of non-Newtonian carriers. This aspect of the study was performed using an area-averaging approach that yielded analytical results for the effective diffusivity of the device

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Batch electrophoretic cells with Eyring fluids: Analysis of the hydrodynamics

Bosse

Araya

Troncoso

et al. 2002

Electrophoresis

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Mixing and dispersion phenomena caused by the carrier fluid in an electrophoretic cell is the main subject of this study. In particular, the effects of Joule heating on temperature and velocity profiles for Eyring-model fluids (EMF) are studied. The heat transfer is sequentially coupled with momentum transfer to derive an analytical expression for both the temperature and the velocity profiles. These results are then used to show the hydrodynamic behavior of the fluid in a batch electrophoretic cell. Furthermore, the results obtained are useful to compare with the fluid behavior of other carriers of different rheology, such as Newtonian fluids, power-law fluids, and viscoelastic fluids that obey the CEF model. The results show that EMF are potentially good carriers for relatively high Joule heat generation and therefore good candidates to control mixing inside the electrophoretic cell.

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CORRELATION FOR THE THIRD VIRIAL COEFFICIENT USING T_c, P_C , DIPOLAR POLARIZABILITY AND MEAN RADIUS OF GYRATION AS PARAMETERS

Bosse

Reich

1988

Chemical Engineering Communications

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Maria A. Bosse

Role of Joule heating in dispersive mixing effects in electrophoretic cells: Convective-diffusive transport aspects

The role of Joule heating in dispersive mixing effects in electrophoretic cells: Hydrodynamic considerations

The role of the rheological properties of non-newtonian fluids in controlling dispersive mixing in a batch electrophoretic cell with Joule heating

Batch electrophoretic cells with Eyring fluids: Analysis of the hydrodynamics

CORRELATION FOR THE THIRD VIRIAL COEFFICIENT USING T_c, P_C , DIPOLAR POLARIZABILITY AND MEAN RADIUS OF GYRATION AS PARAMETERS

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Maria A. Bosse

Role of Joule heating in dispersive mixing effects in electrophoretic cells: Convective-diffusive transport aspects

The role of Joule heating in dispersive mixing effects in electrophoretic cells: Hydrodynamic considerations

The role of the rheological properties of non-newtonian fluids in controlling dispersive mixing in a batch electrophoretic cell with Joule heating

Batch electrophoretic cells with Eyring fluids: Analysis of the hydrodynamics

CORRELATION FOR THE THIRD VIRIAL COEFFICIENT USING Tc, PC , DIPOLAR POLARIZABILITY AND MEAN RADIUS OF GYRATION AS PARAMETERS

Contact Info

Product

Resources

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CORRELATION FOR THE THIRD VIRIAL COEFFICIENT USING T_c, P_C , DIPOLAR POLARIZABILITY AND MEAN RADIUS OF GYRATION AS PARAMETERS