Premium
Lignin‐retaining porous bamboo‐based reversible thermochromic phase change energy storage composite material
Author(s) -
Heng Yingqi,
Feng Nianrong,
Liang Yexin,
Hu Dongying
Publication year - 2020
Publication title -
international journal of energy research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.808
H-Index - 95
eISSN - 1099-114X
pISSN - 0363-907X
DOI - 10.1002/er.5293
Subject(s) - lignin , thermochromism , composite number , materials science , endothermic process , bamboo , composite material , porosity , chemical engineering , phase change material , chemistry , organic chemistry , phase change , engineering physics , engineering , adsorption
Summary Shaped‐stabilized reversible thermochromic phase change materials of (TBC‐LB, TBB‐LB) were assembled by impregnation the TBC (crystal violet lactone/bisphenol A/tetradecanol) or TBB (3,3′‐Bis (1‐n‐octyl‐2‐methylindol‐3‐yl) phthalide/bisphenol A/tetradecanol) into lignin‐retained bamboo (LB) for energy storage. Analysis of the chemical structure of lignin‐retained wood showed that the removal of part of lignin from the bamboo contributes to the penetration of the compound, and the partial retention of lignin is advantageous for maintaining high mechanical properties. The SEM micrographs of TBC‐LB and TBB‐LB indicate that TBC and TBB are well immersed into the porous LB. The TBC‐LB showed an endothermic peak at 40.8°C with Δ H m of 113.3 J g −1 and two exothermic peaks at 28.8°C and 21.9°C with Δ H L+S of 110.2 J g −1 , and the value is basically equal to the pure TBC compound, indicating that TBC has been fully immersed in LB to form a composite phase change material. For phase change latent heat and melting‐cooling temperature, TBB‐LB and TBC‐LB showed the same trend. About 100 heating‐cooling cycles were performed to evaluate the reliability of TBC‐LB and TBB‐LB, showing excellent cycle stability. It is foreseen that the prepared shape‐stable TBC‐LB and TBB‐LB have great potential for applying insulation systems in reversible thermochromic phase change energy storage.