Технические науки/6.Электротехника и радиоэлектроника.

 

Ritter D.V., Kismereshkin V.P.

The North Kazakhstan state university after M. Kozybaev, Petropavlovsk

The Omsk state technical university, Omsk

High-frequency heating extended dielectric objects

 

Drying of wood heating of bitumen weight, a warming up of a ground and many other things demand the effective is longitudinal warming up. Many ways among them and hot air are used, but finally it is electric or thermal energy which heats up the heat-carrier banished through this or that volume. The most perspective is the high-frequency heating which essence is reduced to volume warming up in the field of an object irradiation. Similar furnaces are realised in variety of designs, with reference to this or that industrial target. Common fault of such systems is the irradiation of object of drying by the directed high-frequency stream.

The specified irradiators (drawing 1) form a ruler with corresponding recycling of not used high-frequency radiation.

Drawing 1 Ruler of irradiators

It is known, that the superficial wave guide represents a wire with a covering in a kind concerning a thin layer insulator or an absorbing layer. And in that and other case it is electromagnetic system along which raise kvazi THAT a wave (Е00) which prominent feature presence symmetric concerning an axis of a wire of cross-section components is.

Character of change of components of a field in a cross-section direction is that, that amplitudes of fields behind side-altars of the imagined cylinder with radius Х0 (boundary radius) quickly fall down, and in a longitudinal direction distribution of energy depending on components of a constant of distribution takes placeg.

The size of boundary radius where 90 % of energy are concentrated, depends on a covering of a wire and a parity diameter of a wire – diameter of a covering.

Thus, in section in side-altars of the area defined in boundary radius, all energy is concentrated practically, we renounce from the generator. This energy will co-operate with any not the uniformity placed in given area.

In particular, if it is a conductor the induced currents will be radiated, and if диэлектрик along with radiation losses and consequently heating will take place also.

    This circumstance allows to carry out high-frequency heating of the dielectric materials placed in area, limited in boundary radius.

Thus it is necessary to solve variety of problems which in go to a circle of dissertational work.

One of problems is possible more uniform heating extended dielectric objects. It can be reached similarly to how it is carried out in the antenna lattices which elements are raised by a field of an open wave guide. In our case it is installation of an axis of a wave guide under some corner to axis of extended object in such a manner that the object beginning is in area with smaller intensity in comparison with its end.

The following problem of minimization of reflexion.. It dares in the usual compensatory ways in the beginning of a line of a superficial wave.

Further it is necessary to solve a problem of recycling of not used energy (energy in ballast loadings, the energy reflected from the beginning of a line, the radiated energy). Unlike existing systems of high-frequency heating in our case of recycling the considerable part of capacity is subject not, therefore it does not cause special difficulties.

Schematically installation for high-frequency heating is presented in drawing 2

Drawing 2 Installation for heating

1-generator

2 - Coordination device

3,4 - Excitation device

5,7 - Load

6 - Object

8 - Device of recycling

Installation works as follows: energy from the generator through the coordination device arrives on the excitation device connected to loading which is cooled by water. The capacity disseminated by object is perceived by the recycling device connected to the loading also cooled by water.

 

Literature:

1.           Трошин Г.И., Макарова Л.И., Худякова В.А., Чистин Э.Ф. Однопроводная линия передачи // Труды НИИКП, 1962.

2.           Семенов Н.А., Полыковский А.М. Линии поверхностной волны для передачи телевидения. – М.: ВЗЭИС, 1963.

3.           Семенов Н.А. Параметры волны Е00 в линии поверхностной волны // Радиотехника и электроника. – 1964. – Т.9. – № 9. – С.1634 – 1641.

4.           Ефимов И.Е. Радиочастотные линии передачи. – М.: Сов. Радио, 1964.

5.           Кисмерешкин В.П., Лобова Г.Н. Использование открытых линий передачи в технике средств связи // Информационные технологии и радиосети – 96. Первая международ. научно-практ. конференция. – Материалы конференции. -  Омск, 1996. – С.29.