M. Cabanes-Sempere, C. Cozzo, J. Catalá-Civera, F. Peñaranda-Foix, K. Ishizaki, S. Vaucher, M. Pouchon
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Characterization of free falling drops inside a microwave cavity
Microwave Internal Gelation (MIG) is a chemical process proposed for the production of nuclear particle fuel. The reaction is triggered by a temperature increase by the means of microwave heating. Due to the short residence time of a solution droplet in the cavity a detailed knowledge of the interaction between microwaves and chemical solution (shaped in small drops) is required. This paper describes a new procedure that enables the measurement of dielectric properties of aqueous droplets that freely fall through a microwave cavity. These measurements provide the information to determine the optimal values of the parameters (such as frequency and power) that dictate the heating of a material under microwaves.
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