Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes
Enhancing heat transfer performance has been the main interest in the thermal engineering field. Various enhancement methods have been proposed, including twisted and Multilobe tubes. Nevertheless, no study investigating the enhancement by combining both strategies has been reported. This study is t...
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2023
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oai:scholars.utp.edu.my:341212023-01-04T02:55:35Z http://scholars.utp.edu.my/id/eprint/34121/ Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes Liaw, K.L. Kurnia, J.C. Putra, Z.A. Aziz, M. Sasmito, A.P. Enhancing heat transfer performance has been the main interest in the thermal engineering field. Various enhancement methods have been proposed, including twisted and Multilobe tubes. Nevertheless, no study investigating the enhancement by combining both strategies has been reported. This study is thus conducted to numerically evaluate the turbulent convective heat transfer performance of Newtonian fluid flow in a helical twisted Multilobe tube. The model is validated against experimentally measured data of similar configurations. The effects of Multilobe geometries and Reynolds number were evaluated. The results revealed that combination of twisting and Multilobe profile enhance the secondary flow and, in turn, increases the convective heat transfer performance for straight geometries by up to 6.76, while the addition of twisting of the tubes has a marginal effect on the heat transfer performance in helical models. Furthermore, the variation of the number of lobes does not lead to significant changes in the heat transfer performance (less than 2 difference). Overall, bilobe cross-section shows superior performance in terms of overall performance when it is combined with a helical tube (1.08) or twisting (1.002) only, while pentalobe cross-section has better performance index in sophisticated flow with both helical tube and twisting of tube (1.037). Additionally, correlations are developed to predict the friction factor and Nusselt number in straight and helical tube. To find optimum configurations, Neural Network (NN) models are developed based on the CFD result. By using multi objectives optimization, it was found that the circular straight pipe configurations with and without a twist are the ones closest to the optimum solutions. Meanwhile, helical pipe without a twist is the closest to the optimum solutions. These observations are aligned with the insights obtained from the CFD analysis. © 2022 2023 Article NonPeerReviewed Liaw, K.L. and Kurnia, J.C. and Putra, Z.A. and Aziz, M. and Sasmito, A.P. (2023) Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes. International Journal of Heat and Mass Transfer, 202. https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142907873&doi=10.1016%2fj.ijheatmasstransfer.2022.123687&partnerID=40&md5=c8b65cce18546a20d36b1e94076b55ec 10.1016/j.ijheatmasstransfer.2022.123687 10.1016/j.ijheatmasstransfer.2022.123687 10.1016/j.ijheatmasstransfer.2022.123687 |
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Enhancing heat transfer performance has been the main interest in the thermal engineering field. Various enhancement methods have been proposed, including twisted and Multilobe tubes. Nevertheless, no study investigating the enhancement by combining both strategies has been reported. This study is thus conducted to numerically evaluate the turbulent convective heat transfer performance of Newtonian fluid flow in a helical twisted Multilobe tube. The model is validated against experimentally measured data of similar configurations. The effects of Multilobe geometries and Reynolds number were evaluated. The results revealed that combination of twisting and Multilobe profile enhance the secondary flow and, in turn, increases the convective heat transfer performance for straight geometries by up to 6.76, while the addition of twisting of the tubes has a marginal effect on the heat transfer performance in helical models. Furthermore, the variation of the number of lobes does not lead to significant changes in the heat transfer performance (less than 2 difference). Overall, bilobe cross-section shows superior performance in terms of overall performance when it is combined with a helical tube (1.08) or twisting (1.002) only, while pentalobe cross-section has better performance index in sophisticated flow with both helical tube and twisting of tube (1.037). Additionally, correlations are developed to predict the friction factor and Nusselt number in straight and helical tube. To find optimum configurations, Neural Network (NN) models are developed based on the CFD result. By using multi objectives optimization, it was found that the circular straight pipe configurations with and without a twist are the ones closest to the optimum solutions. Meanwhile, helical pipe without a twist is the closest to the optimum solutions. These observations are aligned with the insights obtained from the CFD analysis. © 2022 |
| format |
Article |
| author |
Liaw, K.L. Kurnia, J.C. Putra, Z.A. Aziz, M. Sasmito, A.P. |
| spellingShingle |
Liaw, K.L. Kurnia, J.C. Putra, Z.A. Aziz, M. Sasmito, A.P. Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes |
| author_facet |
Liaw, K.L. Kurnia, J.C. Putra, Z.A. Aziz, M. Sasmito, A.P. |
| author_sort |
Liaw, K.L. |
| title |
Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes |
| title_short |
Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes |
| title_full |
Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes |
| title_fullStr |
Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes |
| title_full_unstemmed |
Enhanced turbulent convective heat transfer in helical twisted Multilobe tubes |
| title_sort |
enhanced turbulent convective heat transfer in helical twisted multilobe tubes |
| publishDate |
2023 |
| url |
http://scholars.utp.edu.my/id/eprint/34121/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142907873&doi=10.1016%2fj.ijheatmasstransfer.2022.123687&partnerID=40&md5=c8b65cce18546a20d36b1e94076b55ec |
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1754532129971109888 |
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13.214268 |