AbstractAlthough microwave radiation is best known for heating food in the kitchen, in recent years it has found new applications in many industrial processes, such as those involving melting, smelting, sintering, drying, and joining. Heating by microwave radiation constitutes a highly coupled nonlinear problem giving rise to new and unexpected physical behavior, the best known of which is the appearance of “hot spots.” That is, in many industrial applications of microwave heating it has been observed that heating does not take place uniformly but rather regions of very high temperature tend to form. In order to predict the occurrence of such phenomena it is necessary to develop simplified mathematical models from which insight might be gle...
Microwave (MW) ovens are used extensively for heating a variety of not-ready-to-eat food products. I...
Due to the complexity of interactions between microwaves and food products, a reliable and efficient...
M.Tech.Due to electric (E) and magnetic (H) fields that vary with space (r) and time (t) in the micr...
AbstractAlthough microwave radiation is best known for heating food in the kitchen, in recent years ...
The review is concerned with models that analyze transport:processes that occur during microwave hea...
The formation and propagation of hotspots in a cylindrical medium that is undergoing microwave heati...
A study is made of the solution of a differential equation modelling the heating of a layer of mater...
This paper describes the development of a simulation model for heating of foods in microwave ovens a...
Microwave heating is caused by the ability of the materials to absorb microwave energy and convert i...
This is a post-print. The definitive version can be found in Proceedings 2006 ASABE Annual Internati...
Experimental and theoretical analyses of the controlled heating of foods were done. The purpose of t...
Due to the complexity of interactions between microwaves and food products, a reliable and efficient...
A method to simulate microwave heating of ceramics which has a temperature dependent dielectric prop...
Microwave ovens are used extensively for heating a variety of not-ready-to-eat food products. Non-un...
Due to the complexity of interactions between microwaves and food products, a reliable and efficient...
Microwave (MW) ovens are used extensively for heating a variety of not-ready-to-eat food products. I...
Due to the complexity of interactions between microwaves and food products, a reliable and efficient...
M.Tech.Due to electric (E) and magnetic (H) fields that vary with space (r) and time (t) in the micr...
AbstractAlthough microwave radiation is best known for heating food in the kitchen, in recent years ...
The review is concerned with models that analyze transport:processes that occur during microwave hea...
The formation and propagation of hotspots in a cylindrical medium that is undergoing microwave heati...
A study is made of the solution of a differential equation modelling the heating of a layer of mater...
This paper describes the development of a simulation model for heating of foods in microwave ovens a...
Microwave heating is caused by the ability of the materials to absorb microwave energy and convert i...
This is a post-print. The definitive version can be found in Proceedings 2006 ASABE Annual Internati...
Experimental and theoretical analyses of the controlled heating of foods were done. The purpose of t...
Due to the complexity of interactions between microwaves and food products, a reliable and efficient...
A method to simulate microwave heating of ceramics which has a temperature dependent dielectric prop...
Microwave ovens are used extensively for heating a variety of not-ready-to-eat food products. Non-un...
Due to the complexity of interactions between microwaves and food products, a reliable and efficient...
Microwave (MW) ovens are used extensively for heating a variety of not-ready-to-eat food products. I...
Due to the complexity of interactions between microwaves and food products, a reliable and efficient...
M.Tech.Due to electric (E) and magnetic (H) fields that vary with space (r) and time (t) in the micr...