Supercritical CO2 drying of New Zealand red beech to below the fibre saturation point reduces collapse distortion

IF 3.1 2区 农林科学 Q1 FORESTRY Wood Science and Technology Pub Date : 2023-12-06 DOI:10.1007/s00226-023-01509-y
Hamish Pearson, Lloyd Donaldson, Mark Kimberley, Bruce Davy
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Abstract

Supercritical CO2 offers an alternative method of removing wood moisture and reducing cellular collapse compared to traditional drying techniques. The technique has been previously demonstrated for Pinus radiata and Eucalyptus nitens dewatering and was modified in this study for New Zealand red beech (Nothofagus fusca) heartwood, which is notoriously difficult to dry without causing excessive distortion. The technique was also successfully extended to drying below the fibre saturation point. A specific dewatering and drying schedule was developed for N. fusca because of negligible dewatering using a schedule previously designed for wood with an open hydrofluidic network of interconnected vessels. An anatomical assessment confirmed lumen pathways were occluded with tyloses and polyphenol resins. A fluid dynamics assessment concluded that permeability measurements are recommended together with tortuosity and porosity information for improved wood species dewatering characterisation. Using the dewatering and drying schedule, collapse was successfully reduced by 92% for both normalised internal wood area and void collapse when compared to oven-dried samples. The beech specimens took 18 days to reach 17.3% moisture content (MC) but displayed some checking from early dewatering depressurisation, compared to air-dried control specimens which showed no collapse or checking but took 6 months to reach 12% MC. Supercritical CO2 dewatering and drying could be combined with extractives separation, preservative treatment, and mechanical forming of wood in one plant to make a potentially economically viable process with improved energy, environmental and carbon footprints. A techno-economic analysis is suggested to fully compare supercritical drying of wood against conventional drying operations.

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超临界二氧化碳干燥新西兰红山毛榉至纤维饱和点以下可减少塌陷变形
与传统干燥技术相比,超临界二氧化碳是去除木材水分和减少细胞塌陷的另一种方法。该技术之前已在辐射松(Pinus radiata)和硝化桉(Eucalyptus nitens)的脱水过程中得到验证,在本研究中对其进行了改进,用于新西兰红山毛榉(Nothofagus fusca)心材的干燥,因为这种木材很难在不造成过度变形的情况下进行干燥。该技术还成功扩展到纤维饱和点以下的干燥。由于使用以前为具有开放式水流体网络连接血管的木材设计的脱水计划,脱水效果可以忽略不计,因此为榉木制定了特定的脱水和干燥计划。解剖学评估证实,木质素和多酚树脂堵塞了管腔通道。流体动力学评估得出的结论是,建议进行渗透性测量,同时提供迂回度和孔隙度信息,以改进木材品种的脱水特性。使用脱水和干燥计划,与烘干样品相比,正常化内部木材面积和空隙塌陷都成功减少了 92%。榉木试样需要 18 天才能达到 17.3% 的含水率 (MC),但由于早期脱水减压,出现了一些检查现象,而风干对照试样没有出现塌陷或检查现象,但需要 6 个月才能达到 12% 的含水率 (MC)。超临界二氧化碳脱水和干燥可与萃取物分离、防腐剂处理和木材机械成型结合在一个工厂内进行,从而形成一种具有潜在经济可行性的工艺,并改善能源、环境和碳足迹。建议进行技术经济分析,以全面比较超临界木材干燥与传统干燥操作。
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来源期刊
Wood Science and Technology
Wood Science and Technology 工程技术-材料科学:纸与木材
CiteScore
5.90
自引率
5.90%
发文量
75
审稿时长
3 months
期刊介绍: Wood Science and Technology publishes original scientific research results and review papers covering the entire field of wood material science, wood components and wood based products. Subjects are wood biology and wood quality, wood physics and physical technologies, wood chemistry and chemical technologies. Latest advances in areas such as cell wall and wood formation; structural and chemical composition of wood and wood composites and their property relations; physical, mechanical and chemical characterization and relevant methodological developments, and microbiological degradation of wood and wood based products are reported. Topics related to wood technology include machining, gluing, and finishing, composite technology, wood modification, wood mechanics, creep and rheology, and the conversion of wood into pulp and biorefinery products.
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