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Anisotropic hemp-stem-derived biochar supported phase change materials with efficient solar-thermal energy conversion and storage

Ruiying Yang, Xiran Guo, Haotian Wu, Weizhi Kang, Kun Song, Yaqiong Li, Xiubing Huang, Ge Wang

2022Biochar64 citationsDOIOpen Access PDF

Abstract

Abstract As cheap and renewable sources, the exploitation of biomass resources was of great value in phase change energy storage. In this study, hemp stems were converted into biochars with three-dimensional multi-level anisotropic pores through a temperature-controlled charring process, which were used as supports for polyethylene glycol (PEG6000) to form shape-stable composite phase change materials (ss-CPCMs). It is shown that the ss-CPCMs using anisotropic hemp-stem-derived biochar obtained at a carbonization temperature of 900 °C as a support has high PEG6000 loading rate (88.62wt%), large latent heat (170.44 J/g) and favorable thermal stability owning to its high surface area and hierarchical pores. The biochar-based ss-CPCM also has good light absorption ability with a maximum solar-thermal conversion efficiency of 97.70%. In addition, the different thermal conductivities in the transverse and longitudinal directions of ss-CPCMs reflect the unique anisotropic structure. This work can not only improve the high-value utilization of biochars, but also provide the ss-CPCMs with excellent performance for solar-thermal conversion and storage systems. Graphical Abstract

Topics & Concepts

Materials scienceBiocharThermal energy storageComposite materialAnisotropyThermalLatent heatRenewable energyChemical engineeringPyrolysisThermodynamicsOpticsPhysicsElectrical engineeringEngineeringPhase Change Materials ResearchAdsorption and Cooling SystemsSolar Thermal and Photovoltaic Systems
Anisotropic hemp-stem-derived biochar supported phase change materials with efficient solar-thermal energy conversion and storage | Litcius