Effect of temperature on color changes and mechanical properties of poplar/bismuth oxide wood alloy during warm-press forming

Yan, Jiwang; Zhang, Liqiang; Li, Xianjun; Wu, Qingding; Jian-an, Liu

doi:10.1186/s10086-022-02032-7

Cited by 6 publications

(1 citation statement)

References 26 publications

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“…Further ANOVA analysis revealed a significant difference in sorption capacity between the guinea grass treatments (F7,16 = 2.562, p = 0.0565). According to a study on wood fibre by Yan et al [38], high temperatures caused significant moisture loss, causing the sorbent's quality and density to deteriorate. Boonstra et al [39] added that when the temperature rises, enormous hemicellulose degradation accelerates, resulting in the loss of hemicellulose binding in the cell wall and a weakening of cellulose and lignin binding strength.…”

Section: Fourier Transform Infrared Spectroscopy (Ftir) Analysismentioning

confidence: 99%

Guinea Grass (Megathyrsus maximus) Fibres as Sorbent in Diesel Bioremediation

et al. 2023

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In this study, the ability of a natural grass named Megathyrsus maximus (Guinea grass) as a sorbent for cleaning up diesel spills in water was investigated. Fourier transform infrared (FTIR) spectroscopy was used to identify the physicochemical properties of untreated and treated GG. Several parameters influencing the efficiency of oil absorbed by guinea grass were optimised using established One Factor at a Time (OFAT) and followed by Response Surface Methodology (RSM) approaches. The optimised parameters include heat treatment, time of heating, packing density, and diesel concentration, with only the significant factors proceeded to statistical optimisation through RSM. As a result of OFAT analysis, 18.83 mL of oil was absorbed at 110 °C for 15 min time of heating, with packing density of 14 g/cm3 and oil concentration of 10% (v/v). Through RSM, the predicted model was significant, confirming that packing density and oil concentration significantly influenced the efficiency of oil absorption by GG. The software predicted an oil absorption efficiency of 16.64 mL, whereas the experimental model validated the design with 22.33 mL of oil absorbed at a constant temperature and time, respectively. The RSM technique has proven better efficiency and effectiveness in absorbing oil compared to OFAT. This research advances our understanding of the utilisation of natural sorbents as a diesel pollution remediation strategy.

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Section: Fourier Transform Infrared Spectroscopy (Ftir) Analysismentioning

confidence: 99%