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Year : 2024 | Volume : | : | Page : –

Raju Chintakindi,

Prakash Kamisetti,

Assistant Professor, Department of Electrical & Electronics Engineering, Vaagdevi College of Engineering, Warangal, Telangana, India
Professor, Department of Electrical & Electronics Engineering, Vaagdevi College of Engineering, Warangal, Telangana, India

Abstract document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_abs_123485’);});Edit Abstract & Keyword

Induction stoves are an innovative and energy-saving alternative to traditional gas or electric stoves. Traditional induction stoves, many of which are expensive, heavy, and bulky, require modifications to make them suitable for low-income households and small consumers. This work is unique in that it involves the design and validation of a low-cost, lightweight induction stove. With fewer components, this stove is a feasible and sustainable solution for high temperatures. The induction cooktop is built with meticulously selected components. Connectors, housings, wires, and cables all use high-performance polymers. It operates on the electromagnetic induction principle, producing an electromotive force in a conductor through the use of a changing magnetic field. The coil generates an electromagnetic field, which heats a metal pot on top of it. It heats the cookware by reducing heat loss and consuming less energy. It is free of gas and flames, which helps to keep the air clean. Because of these unique concepts in social and economic aspects, this induction stove has the potential to increase in both urban and rural general stores.

Keywords: Induction stove; induction coil; electromagnetic; electromagnetic induction heating; temperature; heat; energy; Polymers

How to cite this article:
Raju Chintakindi, Prakash Kamisetti. Design and Experimental Validation of an Electromagnetic-Based Low-Cost Lightweight Polymer Fabricated Induction Stove. Journal of Polymer and Composites. 2024; ():-.

How to cite this URL:
Raju Chintakindi, Prakash Kamisetti. Design and Experimental Validation of an Electromagnetic-Based Low-Cost Lightweight Polymer Fabricated Induction Stove. Journal of Polymer and Composites. 2024; ():-. Available from: https://journals.stmjournals.com/jopc/article=2024/view=0

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References
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1. Grand View Research. Induction Cooktops Market Size, Share & Trends Analysis Report. USA;20223. 2. R. Chintakindi, and Rajesh SPS. Vital role of FBG sensors — 2012 developments in electrical power systems. In: Proceedings of 2013 International Conference on Power, Energy and Control, ICPEC 2013. Dindigul, India: IEEE; 2013. 3. Research and Markets. India Induction Cooktop Market Overview,2021-2026. Research and Markets. 2023. 4. Jesus Acero; J. M. Burdio; L. A. Barragan; Denis Navarro; R. Alonso; Jose Ramon; FernandoMonterde. Domestic Induction Appliances. IEEE Ind Appl Mag. 2010;16(2):39–47. 5. M. H. Qais. Least Mean Square-Based Fuzzy c-Means Clustering for Load Recognition of Induction Heating. IEEE Trans Instrum Meas. 2022;71. 6. Micah Sweeney, Jeff Dols, Brian Fortenbery FS. Induction Cooking Technology Design and Assessment. 2014. 7. Diego Paul Chacón-Troya; Javier Quezada; Carlos Espinoza. Development and implementation of a smart induction stove. In: Brazilian Power Electronics Conference (COBEP). Juiz de Fora, Brazil: IEEE Xplore Press; 2017. 8. Daniel Stoecker. Pasta Bolognese and induction cooktops [Internet]. LinkedIn Corporation. 2018.Available from: https://www.linkedin.com/pulse/pasta-bolognese-induction-cooktops-daniel-stoecker/ 9. Roshan Chhetri, Dawa Chhoedron, Tilak Sunwar DDR. Analysis on Integrated LPG Cook Stove and Induction Cooktop for Cooking Purposes in Bhutan. Int J Sci Res. 2015; 10. Eunsu Jang. Analysis and Design of Flexible-Surface Induction-Heating Cooktop With GaN- HEMT-Based Multiple Inverter System. IEEE Trans Power Electron. 2022;37(10):12865–76.

Ahead of Print Open Access Review Article

Journal of Polymer and Composites

ISSN: 2321–2810

Volume

Received	17/05/2024
Accepted	17/07/2024
Published	06/12/2024

257

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Design and Experimental Validation of an Electromagnetic-Based Low-Cost Lightweight Polymer Fabricated Induction Stove