Add to ORKGThe goal of this study was to numerically predict the temperature of a liquid product heated in a continuous-flow focused microwave system by coupling high frequency electromagnetism, heat transfer, and fluid flow in ANSYS Multiphysics. The developed model was used to determine the temperature change in water processed in a 915 MHz microwave unit, under steady-state conditions. The influence of the flow rates on the temperature distribution in the liquid was assessed. Results showed that the average temperature of water increased from 25°C to 34°C at 2 l/min, and to 42°C at 1 l/min. The highest temperature regions were found in the liquid near the center of the tube, fol-lowed by progressively lower temperature regions as the radial distanc...
Numerical models were developed to simulate temperature profiles in Newtonian fluids during ...
Selective heating of different phases of multiphase systems via microwaves can result in energy savi...
A novel heating efficiency analysis of the microwave heated stop-flow (i.e. stagnant liquid) and con...
Continuous microwave heating has the potential to revolutionize processing operations in which high ...
This article describes the results of a modeling study performed to understand the microwave heating...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
A numerical model of the microwave heating of distilled water is developed using COMSOL Multiphysics...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
Use of microwave technology in several industrial heating processes is a relatively new approach. Co...
Both a numerical and an analytical models were developed to simulate temperature profiles in continu...
This paper introduces an improved hybrid (numerical-analytical) model for simulating microwave (MW) ...
This paper presents results of an analytical study of microwave heating of a fluid flowing through a...
The work here presented is concerned with the analysis of forced convection of Newtonian liquids flo...
Numerical models were developed to simulate temperature profiles in Newtonian fluids during ...
Selective heating of different phases of multiphase systems via microwaves can result in energy savi...
A novel heating efficiency analysis of the microwave heated stop-flow (i.e. stagnant liquid) and con...
Continuous microwave heating has the potential to revolutionize processing operations in which high ...
This article describes the results of a modeling study performed to understand the microwave heating...
Microwave technology is gaining popularity as a tool for chemical process intensification and an alt...
A numerical model of the microwave heating of distilled water is developed using COMSOL Multiphysics...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
Use of microwave technology in several industrial heating processes is a relatively new approach. Co...
Both a numerical and an analytical models were developed to simulate temperature profiles in continu...
This paper introduces an improved hybrid (numerical-analytical) model for simulating microwave (MW) ...
This paper presents results of an analytical study of microwave heating of a fluid flowing through a...
The work here presented is concerned with the analysis of forced convection of Newtonian liquids flo...
Numerical models were developed to simulate temperature profiles in Newtonian fluids during ...
Selective heating of different phases of multiphase systems via microwaves can result in energy savi...
A novel heating efficiency analysis of the microwave heated stop-flow (i.e. stagnant liquid) and con...