Laboratoire de Chimie Agro-industrielle, LCA, Université de Toulouse, INRA-INP, Toulouse, France.
Ovalie Innovation, 2 Rue Marguerite Duras, 32000, Auch, France.
Environ Sci Pollut Res Int. 2020 May;27(14):16121-16133. doi: 10.1007/s11356-020-08101-y. Epub 2020 Feb 26.
Indoor air quality is a major public health issue. It is related to the choice of construction materials and associated with VOC emissions. Two wood-based commercial panels were tested: a medium-density fiberboard (MDF) and a chipboard (CH), and they were compared to a material produced from a coriander biorefinery (COR). Indicators chosen to compare the materials were physical properties (density, bending properties, surface hardness, thickness swelling, and water absorption) and VOC emissions. Emissions were evaluated in an environmental chamber at 23 °C, 31 °C, and 36 °C, and during 28 days. Carbonyl emissions on day 1 at 23 °C were 74, 146, and 35 μg m h, respectively, for MDF, CH, and COR. Terpenic emissions were 12, 185, and 37 μg m h, respectively. Higher temperature resulted in higher emissions which decreased over time, except for formaldehyde. VOC emissions depended largely on material and temperature. Formaldehyde emission was 300 to 600 times lower for coriander boards (< 0.2 μg m h), making them significantly more environmentally friendly materials in comparison with MDF and chipboard. These results highlight the interest of coriander by-products as raw materials for producing fiberboards with low impact on indoor air quality.
室内空气质量是一个主要的公共卫生问题。它与建筑材料的选择有关,并与 VOC 排放有关。测试了两种木质商业板材:中密度纤维板(MDF)和刨花板(CH),并将它们与一种由香菜生物炼制厂生产的材料(COR)进行了比较。选择用于比较材料的指标是物理性能(密度、弯曲性能、表面硬度、厚度膨胀和吸水率)和 VOC 排放。在 23°C、31°C 和 36°C 的环境室中,以及在 28 天内评估了排放物。在 23°C 的第一天,MDF、CH 和 COR 的羰基排放量分别为 74、146 和 35μg·m-3·h-1。萜烯排放分别为 12、185 和 37μg·m-3·h-1。较高的温度导致排放增加,但随着时间的推移会减少,除了甲醛。VOC 排放在很大程度上取决于材料和温度。香菜板材的甲醛排放量低至 300 至 600 倍(<0.2μg·m-3·h-1),与 MDF 和刨花板相比,它们明显是更环保的材料。这些结果突出了香菜副产品作为生产对室内空气质量影响较小的纤维板的原材料的意义。
