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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Gas Discharge
and Electric Field Strength in Microwave Freeze-Drying [PDF] |
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AUTHORS |
J.W. Gould and E.M.
Kenyon 1971 6 2 151-168 |
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Abstract The authors briefly review the theory of microwave
gas breakdown and compare theoretical and literature breakdown curves for air
and noble gases to show the effects of pressure, temperature, frequency, gas
composition, size and shape of cavity, and electric field strength. The
authors then derive an equation which shows the effect of a dielectric load
in a cavity on gas breakdown, and shows how this relates to heating of the
dielectric load and to electric field strength. Experimental breakdown curves
for air, water and carbon dioxide are given and related to theory at 2450
MHz, the most commonly used frequency for food materials. Pressures studied
were in the range torr to 20 torr.
Temperatures were essentially ambient (24°)C.
Electric field strengths were varied from 150 to 600 volts/cm. The agreement
between theory and experiment is good, both for air breakdown and the effect
of a dielectric load. The results obtained show a given microwave
freeze-dryer with an arbitrary operating pressure and food load, just how
much power can be applied and absorbed by the food without gas breakdown. |
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