Add to ORKGAbstract. A method of optimal material design is applied to the problem of controlling the distribution of the electric field within a material heated by microwaves in closed cavities. Analytical and computational procedures are presented for a layer in a single-mode rectangular waveguide applicator. These determine the optimal placing and micro-geometry of composite controlling materials. The particular case of a lossless layer is illustrated numer-ically: it is shown that the controlling material becomes uniform with a dielectric constant which always exceeds the layer to be heated
A physically open, but electrically shielded, microwave open oven can be produced by virtue of the e...
An integrated tool for the optimal design and characterization of multilayer transparent coatings is...
Abstract—In this paper, several mode-stirrer configurations are compared in order to establish their...
A design of microwave installation for energy concentration on a surface of a heated object is propo...
A traveling wave applicator particularly suitable for heating low loss materials is described. The a...
Abstract—In this paper, the design of a dielectric multilayer around a clay sample is presented to a...
In this work, we bridge fundamental electromagnetics and chemical process engineering with the aim t...
A design of microwave installation for energy concentration on a surface of a heated object is propo...
The paper presents a design of experiments technique for the optimization of a waveguide position. G...
A microwave applicator using a rectangular waveguide with two symmetrically placed double L septa is...
The topic of this dissertation is to develop a complete process of designing industrial applicator...
<p>This research focuses on achieving uniformly distributed electric field within a metal waveguide....
The temperature rise in a material modifies its physical properties, particularly its dielectric per...
During microwave heating of materials, the efficiency of microwave heating depends on the materials’...
Finite element calculations have been performed on a T-septum waveguide to investigate the possibili...
A physically open, but electrically shielded, microwave open oven can be produced by virtue of the e...
An integrated tool for the optimal design and characterization of multilayer transparent coatings is...
Abstract—In this paper, several mode-stirrer configurations are compared in order to establish their...
A design of microwave installation for energy concentration on a surface of a heated object is propo...
A traveling wave applicator particularly suitable for heating low loss materials is described. The a...
Abstract—In this paper, the design of a dielectric multilayer around a clay sample is presented to a...
In this work, we bridge fundamental electromagnetics and chemical process engineering with the aim t...
A design of microwave installation for energy concentration on a surface of a heated object is propo...
The paper presents a design of experiments technique for the optimization of a waveguide position. G...
A microwave applicator using a rectangular waveguide with two symmetrically placed double L septa is...
The topic of this dissertation is to develop a complete process of designing industrial applicator...
<p>This research focuses on achieving uniformly distributed electric field within a metal waveguide....
The temperature rise in a material modifies its physical properties, particularly its dielectric per...
During microwave heating of materials, the efficiency of microwave heating depends on the materials’...
Finite element calculations have been performed on a T-septum waveguide to investigate the possibili...
A physically open, but electrically shielded, microwave open oven can be produced by virtue of the e...
An integrated tool for the optimal design and characterization of multilayer transparent coatings is...
Abstract—In this paper, several mode-stirrer configurations are compared in order to establish their...