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Journal of
Microwave Power and Electromagnetic Energy (JMPEE) |
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TITLE |
Selectivity of Dielectric Heating:
Temperature-Programmed Desorption (TPD) Experiments and Initiation of
Thermo-Chromatographic Pulses [PDF] |
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AUTHORS |
U. Roland, D. Buchenhorst, M. Kraus and F.-D. Kopinke 2008 42 3 9-16 |
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Abstract The occurrence and extent of selective dielectric
heating with microwaves (MW) and radio waves (RW) was studied with a variety
of model systems using temperature-programmed desorption (TPD). Over a wide
pressure and temperature range, selectivity effects were neither found for
polar adsorbates (compared to non-polar compounds) nor expressed by an
overheating of metal clusters supported on a nearly MW- and RW-transparent
support. In contrast, significant temperature gradients between particles
consisting of materials with various dielectric losses could be established
under certain conditions. The
utilization of adsorbates significantly modifying the dielectric properties
of a material was investigated as a further approach to initiate selective
dielectric heating. Applying water as a coupling medium, a combined heat and
mass transport, which we call a thermo-chromatographic pulse, can be created
in a packed-bed column consisting of various zeolites. In this case,
selective heating of bed zones by more than 100 K was observed. The
suitability of a material for the creation of thermo-chromatographic pulses
depends on its dielectric properties as well as on its sorption properties
with respect to water or other coupling media. The study provided further insight
into not only the potential but also the limitations of selective dielectric
heating of solid materials relevant to chemical engineering, environmental
technology and sorption processing. Keywords: Selective
heating, temperature-programmed desorption, polar sorbates, metal clusters,
thermo-chromatographic pulse |
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