Sorption of aroma compounds in PET and PVC during the storage of a strawberry syrup.

V Ducruet, O Vitrac, P Saillard, E Guichard, A Feigenbaum, N Fournier
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引用次数: 27

Abstract

The sorption of 14 aroma compounds into PET and PVC was monitored during storage of a strawberry syrup for 1 year. Concentrations in the syrup and in the polymer were determined during storage and compared with previously published results obtained with glass bottles. Apparent partition coefficients between the polymer and the syrup (noted K app) were estimated from experimental kinetics without reaching equilibrium K app values and optimally identified from the kinetic data obtained between 30 and 90 days. They exhibited a similar behaviour for both polymers with values were between 2 x 10(-5) and 2 x 10(-3), 4 x 10(-5) and 3 x 10(-2), respectively, for PET and PVC. The variation of K app values in PET was mainly correlated to the polarity of tested compounds as assessed by their log P values. By contrast, the variations in K app values for PVC were mainly related to their chain lengths. Due to slightly higher partition coefficients and diffusion coefficients in PVC compared with PET, the amount of absorbed aroma was four times higher in PVC than in PET; however, the amount of absorbed aroma compounds was less than 0.1% of the initial amount present into the syrup, except for octyl butanoate. The variation in concentration in the syrup was interpreted as a combination of a degradation process and a transport process into the packaging material. Both effects were particularly noticeable for both PET and unstable aroma compounds.

草莓糖浆贮存过程中PET和PVC中芳香化合物的吸附。
在草莓糖浆1年的贮存过程中,对14种芳香化合物在PET和PVC中的吸附进行了监测。在储存期间测定了糖浆和聚合物中的浓度,并与先前发表的用玻璃瓶获得的结果进行了比较。在没有达到平衡K app值的情况下,根据实验动力学估计聚合物和糖浆之间的表观分配系数(注意K app),并从30至90天的动力学数据中获得最佳鉴定。它们在PET和PVC的值分别为2 × 10(-5)和2 × 10(-3), 4 × 10(-5)和3 × 10(-2)之间的两种聚合物中表现出类似的行为。PET中K app值的变化主要与被测化合物的极性有关。相比之下,PVC的K值变化主要与它们的链长有关。由于PVC的分割系数和扩散系数略高于PET,因此其香气吸收量是PET的4倍;然而,除了丁酸辛酯外,吸收的芳香化合物的量小于初始量的0.1%。糖浆中浓度的变化被解释为降解过程和进入包装材料的运输过程的结合。这两种效果对PET和不稳定的香气化合物都特别明显。
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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