Glow Discharge Plasma Efficiently Degrades T-2 Toxin in Aqueous Solution and Patulin in Apple Juice

L. Pu, Y. Bi, Haitao Long, Huali Xue, Jun Lu, Yuanyuan Zong, F. Kankam
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引用次数: 3

Abstract

The degradation of T-2 toxin in aqueous solution and patulin in apple juice at different conditions by glow discharge plasma (GDP) was investigated. High performance liquid chromatography (HLPC) was used to analyze the toxins concentration which was changed by treatment time. The results showed that GDP treatment could rapidly and effectively degrade T-2 toxin in aqueous solution and patulin in apple juice. The higher the initial toxin concentrations, the higher treatment efficiency could be achieved within the same time. The degradation rates of T-2 toxin at any different initial concentration were all up to 30% after 8 min, whilst no T-2 toxin was detected after 40 min. The toxin removal rate was faster at a relatively higher acidity and alkalinity levels. The Fe2+ and H2O2 exhibited strong catalysis ability to the degradation reactions. The values of pH in the degraded solution were decreased rapidly due to the formation of carboxylic acids. Afterwards, the values were increased as carboxylic acids were decomposed into CO2 and H2O. The dynamics equation curve is most appropriate and confirms that the degradation reaction of T-2 toxin by GDP belonged to the first order kinetics reaction, which could be expressed as ln (C0/Ct)=kt. Quality evaluation of the apple juice indicated that GDP treatment within 10 min had little effects on quality of apple juice.
辉光放电等离子体有效降解水溶液中的T-2毒素和苹果汁中的展霉素
研究了辉光放电等离子体在不同条件下对苹果汁中T-2毒素和展霉素的降解作用。采用高效液相色谱法(HLPC)分析毒素浓度随处理时间的变化。结果表明,GDP处理能快速有效地降解水溶液中的T-2毒素和苹果汁中的展霉素。初始毒素浓度越高,在相同时间内的处理效率越高。在不同初始浓度下,8 min后T-2毒素的降解率均达30%,40 min后未检出T-2毒素。在较高的酸度和碱度条件下,毒素的去除率更快。Fe2+和H2O2对降解反应表现出较强的催化能力。由于羧酸的形成,降解溶液的pH值迅速下降。之后,随着羧酸分解为CO2和H2O,该值增加。动力学方程曲线最为合适,证实了GDP对T-2毒素的降解反应属于一级动力学反应,可表示为ln (C0/Ct)=kt。苹果汁的质量评价表明,在10 min内处理GDP对苹果汁的质量影响不大。
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