Optimizing energy efficiency in induction skull melting process: investigating the crucial impact of melting system structure

Chaojun Zhang; Lunyong Zhang; Fuyang Cao; Zhishuai Jin; Guanyu Cao; Hongxian Shen; Yongjiang Huang; Jianfei Sun

doi:10.1038/s41598-024-56966-7

Scientific Reports (Mar 2024)

Optimizing energy efficiency in induction skull melting process: investigating the crucial impact of melting system structure

Chaojun Zhang,
Lunyong Zhang,
Fuyang Cao,
Zhishuai Jin,
Guanyu Cao,
Hongxian Shen,
Yongjiang Huang,
Jianfei Sun

Affiliations

Chaojun Zhang: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology
Lunyong Zhang: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology
Fuyang Cao: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology
Zhishuai Jin: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology
Guanyu Cao: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology
Hongxian Shen: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology
Yongjiang Huang: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology
Jianfei Sun: National Key Laboratory of Precision Hot Processing of Metals, Harbin Institute of Technology

DOI: https://doi.org/10.1038/s41598-024-56966-7
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 12

Abstract

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Abstract Induction skull melting (ISM) technology could melt metals with avoiding contamination from crucible. A long-standing problem of ISM is that the low charge energy utilization and inhomogeneous fields have obstructed its application in many critical metal materials and manufacturing processes. The present work investigated the problem through the structure optimization strategy and established a numerical electromagnetic-field model to evaluate components’ eddy current loss. Based on the model, the effect of crucible and inductor structure on charge energy utilization, etc. was studied. Furtherly, the charge energy utilization was increased from 27.1 to 45.89% by adjusting the system structure. Moreover, structure modifications are proposed for enhancing electromagnetic intensity and uniformity, charge soft contact and uniform heating. The work constructed a basis for framing new solutions to the problem through ISM device structure optimization.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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