Improved Radio-Frequency Heating through Application of Wool Insulation during Phytosanitary Treatment of Wood Packaging Material of Low Moisture Content

IF 1.1 4区农林科学 Q3 FORESTRY

Forest Products Journal Pub Date : 2022-03-01 DOI:10.13073/fpj-d-22-00009

J. Janowiak, K. Szymona, M. Dubey, Ron Mack, K. Hoover

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Abstract

The International Standard of Phytosanitary Measures No. 15 (ISPM-15) requires signatory countries of the International Plant Protection Convention to use approved treatment methods on wood packaging materials used in international trade to significantly reduce the risk of spreading alien species. One of the approved methods utilizes dielectric heating (DH) to raise the temperature in the wood to 60°C through the profile of the workload for 1 minute to eradicate pests. To improve the uniform distribution of heat within a wood workload using radio frequency, a form of DH, we tested the use of a wool blanket as a thermal insulation material for wood pallet components. Three species commonly used in the pallet industry—yellow poplar (Liriodendron tulipifera L.), northern red oak (Quercus rubra L.), and eastern white pine (Pinus strobus L.)—of low moisture content were used to generate matched sets of stringer samples. Internal wood temperatures were monitored continuously during treatment to comply with the ISPM-15 schedule. Applying a wool (keratin) insulation blanket increased the rate of heating, improved heating uniformity throughout the workload, and reduced moisture loss compared to uninsulated controls for some wood species, but not all. These findings were most significant for pallet materials with higher moisture content and more permeability (white pine and yellow poplar). By reducing treatment time, power consumption costs can be reduced using wool insulation when implementing the ISPM-15 DH treatment schedule.

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低含水率木质包装材料植物检疫处理中应用羊毛保温材料改善射频加热

国际植物检疫措施标准第15号(ISPM-15)要求《国际植物保护公约》签署国对国际贸易中使用的木质包装材料使用经批准的处理方法，以显著降低外来物种传播的风险。其中一种被批准的方法是利用电介质加热(DH)将木材中的温度提高到60°C，通过工作量的剖面提高1分钟，以消灭害虫。为了使用射频(DH的一种形式)改善木材工作量内热量的均匀分布，我们测试了使用羊毛毯作为木托盘组件的隔热材料。利用低含水率的黄杨树(Liriodendron tulipifera L.)、北方红橡树(Quercus rubra L.)和东部白松(Pinus strobus L.)三种托盘工业常用的树种，生成匹配的线材样品。在处理过程中，连续监测木材内部温度，以符合ISPM-15时间表。使用羊毛(角蛋白)隔热毯增加了加热速度，改善了整个工作负荷的加热均匀性，与未隔热的控制相比，对某些木材种类(但不是全部)减少了水分损失。这些发现对于含水量较高、透气性较好的托盘材料(白松和黄杨)最为显著。通过减少处理时间，在实施ISPM-15 DH处理计划时，使用羊毛绝缘可以降低能耗成本。

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来源期刊

Forest Products Journal 工程技术-材料科学：纸与木材

CiteScore

2.10

自引率

11.10%

发文量

审稿时长

6-12 weeks

期刊介绍： Forest Products Journal (FPJ) is the source of information for industry leaders, researchers, teachers, students, and everyone interested in today''s forest products industry. The Forest Products Journal is well respected for publishing high-quality peer-reviewed technical research findings at the applied or practical level that reflect the current state of wood science and technology. Articles suitable as Technical Notes are brief notes (generally 1,200 words or less) that describe new or improved equipment or techniques; report on findings produced as by-products of major studies; or outline progress to date on long-term projects.