Study on effect of material property on thermal power in induction cooker system with finite element method

Qiu, Li; Wen, Xibo; Li, Hongsheng; Li, Tiegang

doi:10.3233/jae-141744

Cited by 3 publications

(1 citation statement)

References 10 publications

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“…In recent years, induction heating (IH) technology has become a reality in our homes [1][2][3][4][5]. This cooking technology has been developed in depth, and it has revolutionized the cooking way.…”

Section: Introductionmentioning

confidence: 99%

A front-end PFC stage for improved performance of flexible induction heating appliances

Pérez‐Tarragona

Sarnago

Lucía

et al. 2020

JAE

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Flexible cooking surfaces, eg. fully active surfaces, have gained lately an increasing importance in the domestic induction heating. Multi-inverter structures are a cost-efficient solution to develop this technology. However, they add control restrictions that can be solved with a power factor corrector (PFC) stage as proposed in this work. The proposed converter and modulation strategy work with zero voltage switching (ZVS), decreasing the switching losses, enabling a higher working frequency and, therefore, decreasing the magnetic devices size. The bus voltage is controllable and can be increased, easing the load power control and decreasing current through load and inverter and, so, the power losses. Besides, the switching frequency is constant in the mains cycle and can be modified to synchronize the load inverter and the PFC stage avoiding intermodulation noise. A 3.6 kW prototype has been implemented fulfilling the EMC requirements. The experimental waveforms and efficiency have been measured to prove the feasibility of this proposal.

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Section: Introductionmentioning

confidence: 99%

A front-end PFC stage for improved performance of flexible induction heating appliances

Pérez‐Tarragona

Sarnago

Lucía

et al. 2020

JAE

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Investigation on heating temperature characteristics during rotating induction brazing of monolayer CBN grinding wheels: Numerical simulation and experimental verification

Xu¹,

Ding²,

Zhu³

et al. 2017

JAE

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Study on improving heating efficiency of induction cooker system by using an adiabatic layer

Qiu

Li³

et al. 2019

International Journal of Applied Electromagnetics and Mechanics

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To improve the heating efficiency of the induction cooker system, this paper adopts the method of introducing an adiabatic layer between the pot bottom and the coil. By using COMSOL software, the electromagnetic - thermal coupling model of the induction cooker is established to analyze the effect of the adiabatic layer on the food temperature and coil temperature, and finally the heating efficiency is explored. The obtained simulation results show good agreements with the experimental results, and then the effectiveness of the proposed method is verified.

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Study on effect of material property on thermal power in induction cooker system with finite element method

Cited by 3 publications

References 10 publications

A front-end PFC stage for improved performance of flexible induction heating appliances

A front-end PFC stage for improved performance of flexible induction heating appliances

Investigation on heating temperature characteristics during rotating induction brazing of monolayer CBN grinding wheels: Numerical simulation and experimental verification

Study on improving heating efficiency of induction cooker system by using an adiabatic layer

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