ИССЛЕДОВАНИЕ ФИЛЬТРОКОМПЕНСИРУЮЩЕЙ ФУНКЦИИ МНОГОФУНКЦИОНАЛЬНОГО ИНТЕГРИРОВАННОГО ЭЛЕКТРОМАГНИТНОГО КОМПОНЕНТА В СОСТАВЕ СИСТЕМЫ ИНДУКЦИОННОГО НАГРЕВА

Abstract

Relevance The need for computer simulation is due to the modes of operation of induction heating systems and the high cost of the element base. This avoids the cost of expensive components. The use of a multifunctional integrated electromagnetic component is justified by the cost of individual discrete components that make up the induction heating system, as well as by the provision of the functionality of filter compensating devices. The use of a multifunctional electromagnetic component makes it possible to achieve a reduction in the resource intensity of the circuit, its cost, and to increase the reliability of the device. Aim of research This article discusses the design of an induction heating system with the function of a filter-compensating device, made on the basis of a multifunctional integrated electromagnetic component for an induction heating system that implements the technology of locally associated heating of an extended pipeline. The main task is to determine the electrical circuit of the filter-compensating device operating as part of an induction heating system of locally associated heating and the analytical calculation of the parameters of a multifunctional integrated electromagnetic component. Research methods In this study, the following methods were used: patent review, study of scientific literature, computer simulation performed in the ELCUT 6.4 software package. Results The authors have developed a scheme of an induction heating system with the function of a filter compensating device based on a multifunctional integrated electromagnetic component for an induction heating system that implements the technology of locally associated heating of an extended pipeline using functional integration methods. A study was made of the technology of locally associated thermal impact on an extended pipeline. In the ELCUT 6.4 software package, a computer model of the system was developed, and the efficiency of the filter-compensating device during the heating process was evaluated. As a result of the simulation, the characteristics of the magnetic field of the system were obtained and the thermal problem was solved, demonstrating the effectiveness of the technology of locally associated heating.