Relation between the geometric parameters and the composite heat transfer of paper honeycomb plates under cold-above/hot-below conditions and the corresponding influence mechanism

To develop functional honeycomb plates (HPs) with great thermal performance, This paper uses a heat flow meter to determine the equivalent thermal conductivity λE of honeycomb plates (HPs) positioned horizontally under cold-above/hot-below conditions and combined with theoretical calculations, the i...

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Bibliographic Details
Published in:Journal of Building Engineering 2021-11, Vol.43, p.102582, Article 102582
Main Authors: Guo, Zhensheng, Song, Yiheng, Chen, Jinxiang, Xu, Yuan, Zhao, Caiqi
Format: Article
Language:English
Subjects:
Convection
Geometric parameter
Heat transfer
Paper honeycomb plates
Radiation
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Summary:To develop functional honeycomb plates (HPs) with great thermal performance, This paper uses a heat flow meter to determine the equivalent thermal conductivity λE of honeycomb plates (HPs) positioned horizontally under cold-above/hot-below conditions and combined with theoretical calculations, the influence mechanism of their geometric parameters on their heat transfer performance were investigated with different thicknesses h and cell wall lengths of 8 mm and 16 mm (HP8 and HP16, respectively). The results show that the thermal insulation performance of HPs with different cell side lengths varies with the plate thickness. HP8 presented a better thermal insulation performance when h = 40–60 mm. Based on this, the concepts of matching honeycomb structure and matching convection and the suggestions that according to the needs of a project, HP8 or HP16 can be reasonably selected, and the stacking of two kinds of plates can be optimized were first proposed. And it can be obtained that if the experimental λE results of a HP are applied to a beetle elytron plate with the same thickness and honeycomb structure size, the heat insulation of the beetle elytron plate (BEP) would be superior to that of the HP. This paper lays a theoretical foundation for the research and development of multifunctional BEPs with heat insulation properties was verified. Finally, the internal influence mechanism of the difference in temperature distribution on the upper and lower surfaces and the three-dimensional size of the honeycomb cells on the matching honeycomb structure and matching convection. [Display omitted] •HP8 is a matching honeycomb structure when h = 10–20 mm, so its convection is stronger than HP16.•The increase in the convection of HP16 was significantly faster than that of HP8 and the radiation of two plates.•The conclusions can be applied to the multifunctional biomimetic beetle plate.•Four inferences point out the direction for further research in this field.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2021.102582