Open AccessELECTROTECHNICAL MODULAR COMPLEX FOR HEATING VISCOUS LIQUIDS IN PIPELINE TRANSPORT FACILITIES
Author(s) -
Александр Иванович Данилушкин,
Данилушкин Александр Иванович,
Vasily A. Danilushkin,
Данилушкин Василий Александрович,
Vladmir E. Krivoscheev,
Кривошеев Владимир Евгеньевич,
M. Yu. Maksimova,
Максимова Марина Александровна
Publication year - 2020
Publication title -
gradostroitelʹstvo i arhitektura
Language(s) - English
Resource type - Journals
eISSN - 2782-2109
pISSN - 2542-0151
DOI - 10.17673/vestnik.2020.02.21
Subject(s) - modular design , pipeline (software) , induction heating , heat transfer , process (computing) , heating system , nuclear engineering , mechanical engineering , pipeline transport , engineering , flow (mathematics) , process engineering , mechanics , electrical engineering , computer science , physics , electromagnetic coil , operating system
The article discusses the problem of increasing the effi - ciency of installations for heating viscous liquids during their transportation through pipeline systems. The posed problem is solved by intensifying the heat transfer process between heat sources and a heated liquid. Intensify the heat transfer process in heating systems by using a modular heating system. Each module consists of an induction heating section and an induction mixer. The mixer is installed at the outlet of the heating section. The process of mixing the liquid is carried out by an induction mixer of a special design. A method for calculating the temperature of the oil fl ow in the pipeline behind the induction heater and after the mixer is proposed. The methodology was developed on the basis of a balance of heat fl ows. The temperature distribution for a multi-section heater consisting of several induction modules is calculated. It is shown that the use of a modular system can signifi cantly reduce the overall dimensions of the induction heater and reduce energy costs for transporting liquid.