Add to ORKGThe work here presented is concerned with the analysis of forced convection of Newtonian liquids flowing in a circular duct under microwave heating. Spatial temperature field in the illuminated cavity was numerically obtained by solving coupled energy and Maxwell’s equations since it was assumed to be dependent on the dielectric properties of the fluid flowing in the duct. Attained temperature levels justified no phase changes and no gas phases. Temperature contour is detected by an outer infrared camera looking inside the microwave chamber in correspondence of the applicator-pipe. The proposed procedure is intended to realize relatively high spatial resolution temperature readings while microwave heating takes place. In facts, temperatures...
AbstractWe demonstrate the temperature distribution monitoring of a coiled flow channel in a microwa...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
The goal of this study was to numerically predict the temperature of a liquid product heated in a co...
The work here presented is concerned with the analysis of forced convection of Newtonian liquids flo...
Both a numerical and an analytical models were developed to simulate temperature profiles in continu...
Use of microwave technology in several industrial heating processes is a relatively new approach. Co...
This paper presents results of an analytical study of microwave heating of a fluid flowing through a...
The work here presented proposes an enhanced procedure to describe bulk temperature profiles in pipe...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
A first attempt for on-line quantitative IR-thermography temperature readout has been performed insi...
Continuous microwave heating has the potential to revolutionize processing operations in which high ...
AbstractWe demonstrate the temperature distribution monitoring of a coiled flow channel in a microwa...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
The goal of this study was to numerically predict the temperature of a liquid product heated in a co...
The work here presented is concerned with the analysis of forced convection of Newtonian liquids flo...
Both a numerical and an analytical models were developed to simulate temperature profiles in continu...
Use of microwave technology in several industrial heating processes is a relatively new approach. Co...
This paper presents results of an analytical study of microwave heating of a fluid flowing through a...
The work here presented proposes an enhanced procedure to describe bulk temperature profiles in pipe...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
A first attempt for on-line quantitative IR-thermography temperature readout has been performed insi...
Continuous microwave heating has the potential to revolutionize processing operations in which high ...
AbstractWe demonstrate the temperature distribution monitoring of a coiled flow channel in a microwa...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
The goal of this study was to numerically predict the temperature of a liquid product heated in a co...