Affiliation:
1. University of Cagliari, Department of Mechanical, Chemical and Material Engineering, Cagliari, Italy
Abstract
Reaction processes often show to be improved by microwave application, but the enhancing effect is not always due solely to the temperature increasing in the medium, which is produced by the radiation exposure. Thus, to study the evolution of such kind of processes needs a strict control of the irradiation conditions and the use of a proper reaction apparatus in which the interaction between radiation and irradiated materials can be precisely defined. The present work is made necessary by the need of operating with controlled and reproducible experimental conditions, and the aim was to design a multi-tube reactor, to work in resonance conditions, inside which the tubes with the fluid to be processed are positioned. In fact, working in resonance conditions allows the irradiated fluid to be exposed to constant microwave power, and the field intensity and power absorption can be accurately calculated and mapped. The cavity was designed by the authors using a proper commercial software for 3-D electromagnetic simulation, then the reactor operation was tested by another commercial multiphysic simulation software. The results here presented show the proper geometrical characteristics of the cavity and of the internal tubes to work at 2.45 GHz of frequency while the irradiation power can be varied depending on the needs of the process. The reactor can work with different homogeneous systems, both chemical and biological (enzyme reactions). The future development will be the construction and the real operation of the designed apparatus in order to confirm the simulation results.
Publisher
National Library of Serbia
Subject
Renewable Energy, Sustainability and the Environment
Cited by
3 articles.
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