微酸性电解水对鲜切云南红梨贮藏品质影响研究

目的研究微酸性电解水(slightly acidic electrolyzed water,SAEW)处理对鲜切云南红梨贮藏过程中品质的影响。方法以SAEW中有效氯质量浓度、料液比和处理时间为自变量,样品表面菌落总数的死亡数量级为响应值,应用响应面法优化其最佳处理条件。按该优化条件对红梨鲜切品进行处理并置于4℃环境中贮藏,定期测定菌落总数、维生素C含量、总糖含量、多酚氧化酶活性、质量损失率及p H值,探讨SAEW处理对鲜切云南红梨贮藏品质的影响。用无菌水处理做空白对照。结果 SAEW的最佳处理条件为:有效氯质量浓度30.00 mg/L、料液比1:15(m:V)、处理时间3.69 min。在此条...

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Bibliographic Details
Published in食品安全质量检测学报 Vol. 8; no. 1; pp. 243 - 251
Main Author 赵德锟 李凌飞 谭雷姝 颜晓齐 范江平 叶章颖 和劲松
Format Journal Article
LanguageChinese
Published 云南农业大学食品科学技术学院,云南省高校食品加工与安全控制重点实验室,昆明650201%昆明冶金高等专科学校,昆明,650033%浙江大学生物系统工程与食品科学学院,杭州,310058 2017
Subjects
云南红梨
微酸性电解水
贮藏品质
鲜切水果
鲜切水果
slightly acidic electrolyzed water
云南红梨
贮藏品质
fresh-cut fruits
微酸性电解水
Yunnan red pear
storage quality
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Summary:目的研究微酸性电解水(slightly acidic electrolyzed water,SAEW)处理对鲜切云南红梨贮藏过程中品质的影响。方法以SAEW中有效氯质量浓度、料液比和处理时间为自变量,样品表面菌落总数的死亡数量级为响应值,应用响应面法优化其最佳处理条件。按该优化条件对红梨鲜切品进行处理并置于4℃环境中贮藏,定期测定菌落总数、维生素C含量、总糖含量、多酚氧化酶活性、质量损失率及p H值,探讨SAEW处理对鲜切云南红梨贮藏品质的影响。用无菌水处理做空白对照。结果 SAEW的最佳处理条件为:有效氯质量浓度30.00 mg/L、料液比1:15(m:V)、处理时间3.69 min。在此条件下,SAEW处理能够有效控制云南红梨鲜切品表面微生物数量,并延缓其贮藏过程中维生素C含量和总糖含量的衰减,抑制多酚氧化酶活性,而对质量损失率与p H均无显著影响。结论 SAEW在控制鲜切水果表面微生物危害和延缓品质衰减方面均有一定潜力,相关结果将为SAEW在鲜切水果加工中的应用提供理论依据。
Bibliography:Objective To investigate the effects of slightly acidic electrolyzed water(SAEW) on storage quality of fresh-cut Yunnan red pear. Methods The conditions of SAEW sterilization on fresh-cut Yunnan red pear were optimized by response surface methodology using available chlorine concentration, ratio of material to liquid and processing time as independent values respectively and the order of magnitude of death microorganism as response value. During the storage period, the microorganism colonies number, vitamin C concentration, total sugar concentration, mass lose rate and p H value of samples treated with optimal conditions at 4 ℃were periodically determined. Sterile water treatment was used as control. Results The optimum processing parameters of SAEW treatment were as follows: available chlorine concentration of 30.00 mg/L, ratio of material to liquid of 1:15(m:V), and processing time of 3.69 min. Under these conditions, the growth of microorganisms on surface of samples treated with SAEW was inhibited effecti
ISSN:2095-0381