Effects of flow and heat transfer around a hand-shaped former
Rubber glove manufacturing requires improvements in the curing process. In this study, the forced convection of hot airflow past a hand-shaped former, which has a typical shape in the rubber glove manufacturing process, was examined. A former model consisting of five fingers, palm, dorsum, and wrist...
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th-mahidol.843822023-06-19T00:03:41Z Effects of flow and heat transfer around a hand-shaped former Loksupapaiboon K. Mahidol University Computer Science Rubber glove manufacturing requires improvements in the curing process. In this study, the forced convection of hot airflow past a hand-shaped former, which has a typical shape in the rubber glove manufacturing process, was examined. A former model consisting of five fingers, palm, dorsum, and wrist was separated to investigate the convective heat transfer of the individual parts by OpenFOAM. The study conditions for the manufacturing process were a Reynolds number ranging from 15,837 to 63,351 and an angle of attack from 0° to 180°. After validating the computational fluid dynamics models with experiments and previous research, the k–ω shear stress transport turbulence model was appropriate. The angle of attack slightly affected the average Nusselt number on all parts of the hand-shaped former except the dorsum. An optimization method was employed to determine the optimal attack angle that caused the maximum convective heat transfer. The result was 0°. Therefore, the simulation results for the dorsal part at 0° established an average Nusselt number equation. This equation had an accuracy with an average error of less than 0.24% and an R 2 of 0.9997. The average Nusselt number equation of the dorsal part is representative for analyzing the heat transfer in the curing process in rubber glove manufacturing. 2023-06-18T17:03:41Z 2023-06-18T17:03:41Z 2022-01-01 Article Engineering Applications of Computational Fluid Mechanics Vol.16 No.1 (2022) , 1619-1640 10.1080/19942060.2022.2102079 1997003X 19942060 2-s2.0-85135437813 https://repository.li.mahidol.ac.th/handle/123456789/84382 SCOPUS |
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Computer Science Loksupapaiboon K. Effects of flow and heat transfer around a hand-shaped former |
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Rubber glove manufacturing requires improvements in the curing process. In this study, the forced convection of hot airflow past a hand-shaped former, which has a typical shape in the rubber glove manufacturing process, was examined. A former model consisting of five fingers, palm, dorsum, and wrist was separated to investigate the convective heat transfer of the individual parts by OpenFOAM. The study conditions for the manufacturing process were a Reynolds number ranging from 15,837 to 63,351 and an angle of attack from 0° to 180°. After validating the computational fluid dynamics models with experiments and previous research, the k–ω shear stress transport turbulence model was appropriate. The angle of attack slightly affected the average Nusselt number on all parts of the hand-shaped former except the dorsum. An optimization method was employed to determine the optimal attack angle that caused the maximum convective heat transfer. The result was 0°. Therefore, the simulation results for the dorsal part at 0° established an average Nusselt number equation. This equation had an accuracy with an average error of less than 0.24% and an R 2 of 0.9997. The average Nusselt number equation of the dorsal part is representative for analyzing the heat transfer in the curing process in rubber glove manufacturing. |
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Mahidol University |
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Mahidol University Loksupapaiboon K. |
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Article |
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Loksupapaiboon K. |
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Loksupapaiboon K. |
| title |
Effects of flow and heat transfer around a hand-shaped former |
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Effects of flow and heat transfer around a hand-shaped former |
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Effects of flow and heat transfer around a hand-shaped former |
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Effects of flow and heat transfer around a hand-shaped former |
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Effects of flow and heat transfer around a hand-shaped former |
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effects of flow and heat transfer around a hand-shaped former |
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2023 |
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https://repository.li.mahidol.ac.th/handle/123456789/84382 |
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