Effect of Citric Acid on Prolonging the Half-life of Dissolved Ozone in Water.

Food safety (Tokyo, Japan) Pub Date : 2019-12-27 eCollection Date: 2019-12-01 DOI:10.14252/foodsafetyfscj.D-19-00005
Yoshichika Hirahara, Kazuyoshi Iwata, Katsuhiko Nakamuro
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引用次数: 12

Abstract

To elucidate the effect of citric acid on the stability of dissolved ozone, half-lives of ozone in a citric acid solution was investigated. Prolongation of the half-life of ozone was clearly shown in the presence of citric acid in ozonized water. In the presence of ethylenediaminetetraacetic acid (EDTA), the half-life of ozone was decreased. The addition of various concentrations of citric acid to the EDTA solution, however, reversed the half-life in a concentration-dependent manner. These indicate that citric acid suppresses ozone self-decomposition in water. A citric acid-mediated suppression mechanism of ozone self-decomposition involving hydroxy radical (HO•) was proposed as follows: HO• formed by the radical chain reaction process of ozone is scavenged by a way of abstracting the hydrogen atom bound to a carbon atom located α-position of a carbonyl group. The radical chain reaction of ozone is, thus, suppressed. These findings demonstrate that the addition of citric acid to ozonized water is useful for the stabilization of ozone. This ability may contribute to the application of ozone sterilization in food production processes.

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柠檬酸对延长水中溶解臭氧半衰期的影响。
为了阐明柠檬酸对溶解臭氧稳定性的影响,研究了臭氧在柠檬酸溶液中的半衰期。臭氧水中柠檬酸的存在明显延长了臭氧的半衰期。在乙二胺四乙酸(EDTA)存在下,臭氧的半衰期缩短。然而,在EDTA溶液中加入不同浓度的柠檬酸会以浓度依赖的方式逆转半衰期。说明柠檬酸抑制臭氧在水中的自分解。提出了柠檬酸对臭氧自分解羟基自由基(HO•)的抑制机理:臭氧自由基链反应过程中形成的HO•通过抽离羰基α-位碳原子上的氢原子而被清除。因此,臭氧的自由基链式反应被抑制。这些结果表明,在臭氧化水中加入柠檬酸有助于臭氧的稳定。这种能力可能有助于臭氧灭菌在食品生产过程中的应用。
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