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• W4309339098 abstract "• A comprehensive modeling framework for quantifying porous media's effective transport properties is developed. • Typical TPMS structures were screened based on specific surface area and porosity. • Structure-property relationships were obtained as a function of designable parameters. • The continuum level model was validated by the discrete model under a direct illuminating solar thermal application. The performance of solar energy conversion processes is largely dependent on the porous material which absorbs the irradiation, provides reaction sites, and facilitates mass transport. Porous media is the key energy conversion media in solar thermal/thermochemical conversion devices. The conventional way of fabricating porous structure shows limited flexibility in varying local morphology for better transport properties. The material structure optimization is hindered by the lack of methodology for precisely tuning material structure and lagged modeling framework to assess the structure-property relationship of designed materials. This structure-property relation can be further linked to the final conversion performance of receivers/reactors using such material. The triply periodic minimum surface (TPMS) structures are promising candidates due to their flexible lattice structure design, well-defined analytical expression, and easiness in anisotropic feature introduction. Moreover, the recent development of direct ceramic 3D printing technologies enables a unique route for the fabrication of gradient functional materials with complex structures. In this study, we focused on the quantification of TPMS structures’ transport properties with a case study to show their impact on the solar thermal conversion behavior. The identified effective properties were then used in a volume-averaged multi-physics model for the evaluation of an FKS structure under direct solar illuminations. This modeling framework offers a highfidelity numerical tool for the quantification of the link between porous material structure and their effective properties in solar thermal/thermochemical conversion applications." @default.
• W4309339098 created "2022-11-26" @default.
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• W4309339098 date "2023-02-01" @default.
• W4309339098 modified "2023-09-24" @default.
• W4309339098 title "Design controllable TPMS structures for solar thermal applications: A pore-scale vs. volume-averaged modeling approach" @default.
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• W4309339098 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2022.123625" @default.
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