Analysis for Best Configuration for Composite Wall Layers And Prediction of Effect On Temperature For Infinite Layers

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Prasad Balasaheb Mane; Arya Mahajan; Pooja Lahare; Nachiket Kulkarni; Gautam Kulkarni; Mangesh Choudhary

Analysis for Best Configuration for Composite Wall Layers And Prediction of Effect On Temperature For Infinite Layers

Authors: Prasad Balasaheb Mane, Arya Mahajan, Pooja Lahare, Nachiket Kulkarni, Gautam Kulkarni, Mangesh Choudhary

Unique Paper ID: 169570
PageNo: 1977-1980

Keywords: Conduction Composite Wall Fourier Law of Conduction Python Infinite Layers

Abstract:
Heat Transfer is a very crucial concept in Thermodynamics and understanding the ability to control and use it accurately. Heat Transfer due to conduction has been already known to us but for more than one layer of material, the effect of physical properties of layers, would help understand how they affect heat conduction. We have worked on putting percentage change in thickness of layers for a certain fixed total length to understand the percentage change in temperature through the layers in one equation. This is to give us the best possible solution over thermal resistance of the layers. We used Fourier Law of Heat conduction as a starting point. We used Jupyter to simulate the results for the big dataset depending on the number of layers. We derived a single equation for percentage change in temperature with percentage change in thickness of layers. After plotting the results, we can use it to decide most optimum thickness for the layers depending on the required thermal resistance. We can clearly see that depending on the materials used in the layers the results have appropriate variation in temperature change. For the selected number of layers and materials we found the precise values of thickness of materials which would give us heat conduction as per requirement with accuracy.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{169570,
        author = {Prasad Balasaheb Mane and Arya Mahajan and Pooja Lahare and Nachiket Kulkarni and Gautam Kulkarni and Mangesh Choudhary},
        title = {Analysis for Best Configuration for Composite Wall Layers And Prediction of Effect On Temperature For Infinite Layers},
        journal = {International Journal of Innovative Research in Technology},
        year = {2024},
        volume = {11},
        number = {6},
        pages = {1977-1980},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=169570},
        abstract = {Heat Transfer is a very crucial concept in Thermodynamics and understanding the ability to control and use it accurately. Heat Transfer due to conduction has been already known to us but for more than one layer of material, the effect of physical properties of layers, would help understand how they affect heat conduction.  We have worked on putting percentage change in thickness of layers for a certain fixed total length to understand the percentage change in temperature through the layers in one equation. This is to give us the best possible solution over thermal resistance of the layers. We used Fourier Law of Heat conduction as a starting point. We used Jupyter to simulate the results for the big dataset depending on the number of layers. We derived a single equation for percentage change in temperature with percentage change in thickness of layers. After plotting the results, we can use it to decide most optimum thickness for the layers depending on the required thermal resistance. We can clearly see that depending on the materials used in the layers the results have appropriate variation in temperature change. For the selected number of layers and materials we found the precise values of thickness of materials which would give us heat conduction as per requirement with accuracy.},
        keywords = {Conduction, Composite Wall, Fourier Law of Conduction, Python, Infinite Layers},
        month = {November},
        }

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Cite This Article

Mane, P. B., & Mahajan, A., & Lahare, P., & Kulkarni, N., & Kulkarni, G., & Choudhary, M. (2024). Analysis for Best Configuration for Composite Wall Layers And Prediction of Effect On Temperature For Infinite Layers. International Journal of Innovative Research in Technology (IJIRT), 11(6), 1977–1980.

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