Evaluation of conventional and microwave drying of tropical Amazonian wood indicated for the manufacture of EGP (Edge Glued Panels)

Roberto Daniel de Araújo, C. Nascimento, Cristiano Sousa do Nascimento, Adilene Kroessin, Estevão Vicente Cavalcanti Monteiro De Paula, Niro Higuchi
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Abstract

Wood drying is an important process in the forestry industry since the quality of manufactured products is directly related to the moisture content of the raw material. In the Amazon region, the complexity of the drying process is accentuated by the vast diversity of species, each with distinct technological profiles. This study focused on the evaluation of oven and microwave drying of five species of tropical Amazonian wood: Angelim-pedra (Hymenolobium pulcherrimum), Angelim-vermelho (Dinizia excelsa), Breu-vermelho (Protium puncticulatum), Murici (Byrsonima crispa) and Piaozinho (Micrandropsis scleroxylon), recommended for the production of laterally glued panels (EGP). Samples of these species were collected in areas of terra-firme forest in Amazonas, Brazil, and subjected to oven-dry for 25 days and in semi-industrial microwaves for 120 minutes (100 ± 3 °C). Additionally, analyses of the wood properties were carried out. The results indicate that microwave drying surpassed the efficiency of oven-dry. Specifically, Breu-vermelho and Murici wood presented the best results in terms of moisture content. This drying method not only significantly reduced the drying time but also resulted in defect-free wood. Furthermore, the energy consumption was lower compared to conventional drying. The physical-mechanical properties of wood showed a significant correlation with heat-treatment. In particular, microwave drying proved to be effective in obtaining standard moisture for manufacturing EGP panels and could be an advantageous alternative for the region.
对用于制造 EGP(边缘胶合板)的亚马逊热带木材的常规和微波干燥方法进行评估
木材干燥是林业的一个重要工序,因为制成品的质量与原材料的含水量直接相关。在亚马逊地区,干燥过程的复杂性因树种的多样性而更加突出,每种树种都有其独特的技术特征。本研究重点评估了亚马逊热带地区五种木材的烘箱干燥和微波干燥:它们分别是 Angelim-pedra(Hymenolobium pulcherrimum)、Angelim-vermelho(Dinizia excelsa)、Breu-vermelho(Protium puncticulatum)、Murici(Byrsonima crispa)和 Piaozinho(Micrandropsis scleroxylon),建议用于生产横向胶合板(EGP)。这些树种的样本采集于巴西亚马孙地区的杉木林区,经过 25 天的烘干和 120 分钟的半工业微波(100 ± 3 °C)处理。此外,还对木材特性进行了分析。结果表明,微波干燥的效率超过了烘箱干燥。具体而言,Breu-vermelho 和 Murici 木材的含水率结果最好。这种干燥方法不仅大大缩短了干燥时间,而且使木材无缺陷。此外,与传统干燥法相比,能耗更低。木材的物理机械性能与热处理有显著的相关性。特别是,微波干燥被证明能有效获得用于制造特优刨花板的标准水分,可以成为该地区的一种有利替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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