Although microwave enhanced chemistry has become an established research topic, the actual electromagnetic interactions have received little attention. Following a previous study on the spatial distribution of heat generation, this study addresses the high sensitivity of the overall heating rate to geometrical and medium parametric variations in a highly celebrated microwave heating device (CEM Discover), which serves as a representative example of resonant microwave systems. It is demonstrated, both by experiment and simulation, that this high sensitivity hampers the prediction of total heat generation. Consequently, in order to optimize process performance, precise information regarding all relevant geometrical and medium parameters of th...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
[EN] Microwave-assisted processes have recognized advantages over more conventional heating techniqu...
Microwave heating is caused by the ability of the materials to absorb microwave energy and convert i...
Ever since the first experiments nearly three decades ago, microwave enhanced chemistry has received...
Microwave-assisted heating technology has become a popular alternative to conventional heating techn...
Microwave heating is rapidly emerging as an effective and efficient tool in various technological an...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
Dielectric response and electromagnetic knowledge are essential for assessing microwave processing s...
This article describes the results of a modeling study performed to understand the microwave heating...
Selective heating of different phases of multiphase systems via microwaves can result in energy savi...
Microwave (MW) heating has been revolutionary in various applications, including chemical synthesis....
Aiming at improving the food quality during microwave process, this article mainly focused on the nu...
Microwaves are electromagnetic radiation with wavelength ranging from 1 mm to 1 m in free space with...
Microwave heating fundamentally differs from other heating techniques as the consequence of its uniq...
Selective heating of different phases of multiphase systems via microwaves can result in energy savi...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
[EN] Microwave-assisted processes have recognized advantages over more conventional heating techniqu...
Microwave heating is caused by the ability of the materials to absorb microwave energy and convert i...
Ever since the first experiments nearly three decades ago, microwave enhanced chemistry has received...
Microwave-assisted heating technology has become a popular alternative to conventional heating techn...
Microwave heating is rapidly emerging as an effective and efficient tool in various technological an...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
Dielectric response and electromagnetic knowledge are essential for assessing microwave processing s...
This article describes the results of a modeling study performed to understand the microwave heating...
Selective heating of different phases of multiphase systems via microwaves can result in energy savi...
Microwave (MW) heating has been revolutionary in various applications, including chemical synthesis....
Aiming at improving the food quality during microwave process, this article mainly focused on the nu...
Microwaves are electromagnetic radiation with wavelength ranging from 1 mm to 1 m in free space with...
Microwave heating fundamentally differs from other heating techniques as the consequence of its uniq...
Selective heating of different phases of multiphase systems via microwaves can result in energy savi...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
[EN] Microwave-assisted processes have recognized advantages over more conventional heating techniqu...
Microwave heating is caused by the ability of the materials to absorb microwave energy and convert i...