INVESTIGATION OF THE PARAMETERS INFLUENCE OF A CYLINDRICAL INDUCTOR WITH TWO-LAYER INWALL ON ITS TEMPERATURE
DOI:
https://doi.org/10.34185/1562-9945-6-137-2021-01Keywords:
thermal calculation, induction heater, inwall, temperature, heat transfer, cylindrical workpieceAbstract
The thermal state of a cylindrical inductor with a two-layer inwall was investigated: the inwall temperature of the inductor for 12 pairs of heat-insulating materials of the inwall layers was calculated, and the influence of changes in the thicknesses of inner and outer inwall layers for fireclay-asbestos pair on the inwall temperature.
References
Bаbichev А.P. Phizicheskie velichiny. Spravochnik / А.P. Babichev, N.А. Babushkina, А.М. Bratkovskiy. Pоd red. I.S. Grigor‘eva, Е.Z. Меylikhova. – М.: Energoatomizdat, 1991. – 1232 p.
Дukhnevich К.L. Теploviy rozrakhunok іnduktsiynogo nagrivacha / К.L. Dukhnevich, О.V. Кravets. – ХХІ Міzhnarodna nаuk.-prakt. konph. „Ludina і kosmos”, 2019, 10-12 April. – P. 31.
Isachenko V.P. Теploperedacha / V.P. Isachenko, V.А. Оsipova, А.S. Sukomel. – М.: Energoatomizdat, 1981. – 416 p.
Кuznetsov G.Ph. Теplovaya izolyatsya. Spravochnik stroitelya / G.Ph. Кuznetsov. – М.: Stroyizdat, 1985. – 303 p.
Nikitina Е.А. Issledovanie i razrabotka trekhphaznogo induktora dlya nagreva tsilindricheskykh zagotovok v poperchnom magnitnom pole / Е.А. Nikitina. – Diss. nа soisk. uch. step. cand. techn. nauk. – Samara, 2011. – 143 p.
Pavlov N.А. Inzhenernye teplovye raschety induktsionnykh nagrevateley /N.А. Pavlov. – М.: Energiya, 1978. – 119 p.
Bolyukh V.F. Influence Of Geometrical Parameters Of the Inductor and Armature on the Indicators of a Linear Pulse Electromechanical Converter of an Electrodynamic Type / V.F. Bolyukh, Y.V. Kashanskij, I.S. Schukin // Electrical Engineering & Electromechanics. – 2019. – N. 3. – P. 11-17.
Chang L. Effect of Plate Curvature on Heat Source Distribution in Induction Line Heating for Plate Forming / L. Chang, Y. Zhao, H. Yuan, X. Hu, Z. Yang, H. Zhang // Applied Sciences. – 2020. – V. 10 – N. 7. – P. 99‑115.
Frajer G. Dimensioning and shaping of inductors for power converters / G. Frajer, G. Delette, C. Rado, H. Chazal, P. Perichon, O. Isnard, F. Servant // EPE Journal. – 2017. – V. 27 – N. 3. – P. 98-105.
Glebov A.O. Modeling the Induction Heating of Press Equipment in an Automatic-Temperature-Control Mode / A.O. Glebov, S.V. Karpov, S.V. Karpushkin, E.N. Malygin // Journal Of Engineering Physics And Thermophysics. – 2019. – V. 92 – N. 5. – P. 1130-1141.
Lekomtsev S.V. Evaluation of the Temperature Regime of the Rods of the Inductor of an MHD Stirrer for Possible Use in an Industrial Aluminum Furnace / S.V. Lekomtsev, S.Y. Khripchenko // Journal of Applied Mechanics and Technical Physics. – 2018. – V. 59 – N. 7. – P. 1189-1196.
Niu С. Numerical Analysis of Eddy Current Induced by z-Gradient Coil in a Superconducting MRI Magnet / С. Niu, L. Wang, Y. Wang, Y. Zhai, H. Qu, Y. Liu, Q. Wang // Ieee Transactions On Applied Superconductivity. – 2020. – V. 30 – N. 4. – P. 295-303.
Serrano J. Design and Optimization of Small Inductors on Extra-Thin PCB for Flexible Cooking Surfaces / J. Serrano, I. Lope, J. Acero, C. Carretero, J. Burdio, R. Alonso // IEEE Transactions On Industry Applications. – 2017. – V. 53 – N. 1. – P. 371-379.
Yang Z. An Improved Design Method for Gapped Inductors Considering Fringing Effect / Z. Yang, H. Suryanarayana, F. Wang // Thirty-Fourth Annual IEEE Applied Power Electronics Conference And Exposition. – Anaheim, CA, MAR 17-21, 2019. – P. 1250-1256.
