中国乳业 ›› 2022, Vol. 0 ›› Issue (9): 81-88.doi: 10.12377/1671-4393.22.09.17

• 质量安全 • 上一篇    下一篇

婴幼儿配方羊乳粉生产中高氯酸盐污染来源研究

康婕, 陈鸿剑, 李媛, 孙亚南, 石菲, 刘娟娟, 樊成, 任怡, 宋悦, 任静   

  1. 陕西省产品质量监督检验研究院,陕西西安 710048
  • 出版日期:2022-09-25 发布日期:2022-09-30
  • 作者简介:康 婕(1989-),女,陕西宝鸡人,硕士,工程师,研究方向为食品质量控制;陈鸿剑(1971-),男,陕西西安人,本科,高级工程师,研究方向为食品检测;李 媛(1989-),女,陕西西安人,硕士,工程师,研究方向为食品安全检验检测;孙亚南(1994-),女,河南信阳人,硕士,助理工程师,研究方向为食品安全检测;石 菲(1989-),女,陕西西安人,硕士,工程师,研究方向为食品检测;刘娟娟(1980-),女,陕西渭南人,硕士,高级工程师,研究方向为食品检测;樊 成(1973-),男,陕西西安人,本科,正高级工程师,研究方向为食品检测;任 怡(1991-),女,陕西蓝田人,硕士,工程师,研究方向为食品检测;宋 悦(1991-),女,天津人,硕士,工程师,研究方向为食品检测;任 静(1979-),女,陕西韩城人,本科,工程师,研究方向为食品检测。
  • 基金资助:
    陕西省市场监督管理局科技计划项目“婴幼儿配方羊乳粉中氯酸盐、高氯酸盐及3-氯丙醇酯风险防控研究”(2021KY06)

Research on Sources of Perchlorate Contamination in Production of Goat Milk Infant Formula

KANG Jie, CHEN Hongjian, LI Yuan, SUN Yanan, SHI Fei, LIU Juanjuan, FAN Chen, REN Yi, SONG Yue, REN Jing   

  1. Shaanxi Institute of Product Quality Supervision and Inspection,Xi'an Shaanxi 710048
  • Online:2022-09-25 Published:2022-09-30

摘要: 目的 对13 家婴幼儿配方羊乳粉企业的生产过程和原辅料中高氯酸盐的污染水平进行测定,并就检测结果进行评估。方法 使用过程分析法对不同生产工艺的婴幼儿配方羊乳粉(简称“婴配羊乳粉”)各个环节生产过程及原辅料进行检测分析,确定婴配羊乳粉中高氯酸盐的主要来源及其贡献率。结果 共检测过程样本104 份及原辅料样本81 份,确定婴配羊乳粉的三种生产工艺均不会产生高氯酸盐,婴配羊乳粉中高氯酸盐的主要来源为原料奶的带入,辅料中高氯酸盐对婴配羊乳粉的贡献率低于26%,辅料中高氯酸盐的高风险因素为含乳原料。结论 婴配羊乳粉三种生产工艺对高氯酸盐的产生没有影响,原料奶是婴配羊乳粉中高氯酸盐的主要来源,辅料中高氯酸盐会带入婴配羊乳粉中,其中含乳原料贡献率大,风险较高。

关键词: 婴幼儿配方羊乳粉, 高氯酸盐, 来源分析

Abstract: [Objective] This paper focused on assessing contamination level of perchlorate in raw and auxiliary materials in 13 goat milk infantformula enterprises. [Method] Process analysis method was used to detect and analyze the production process and raw materials of goat milk infantformula with different production processes,and to determine the main source and contribution rate of perchlorate in goat milk infantformula. [Result] A total of 104 process samples and 81 raw and auxiliary materials samples were detected.It was determined that perchlorate would not be produced by the three production processes of goat milk infantformula.The main source of perchlorate in goat milk infantformula was the introduction of raw milk and the contribution rate of perchlorate in auxiliary materials to goat milk infantformula was less than 26%.The high risk factor of perchlorate in excipients is milk containing raw materials.[Conclusion] The three production processes of goat milk infantformula have no effect on the production of perchlorate. Raw milk is the main source of perchlorate in goat milk infantformula,and perchlorate in auxiliary materials will be brought into goat milk infantformula,in which the contribution rate of milk raw materials is high and the risk is high.

Key words: goat milk infantformula, perchlorate, source analysis

[1] 金刚. 婴幼儿辅助食品研究进展[J].粮食与油脂,2011(5):5-8.
[2] 我国标准满足婴幼儿营养需求和食用安全[N]. 中国食品安全报,2013-06-22(A02).
[3] 黄婵媛. 婴幼儿配方乳粉的质量安全及管控措施[J].食品安全导刊,2018(9):44.
[4] 王婵,王丽霞,王晓莉.我国婴幼儿配方乳粉的食品安全问题研究[J].中国乳业,2017(2):27-32.
[5] 段颖颖. 婴幼儿配方乳粉强制溯源政策效应研究[D].哈尔滨:哈尔滨理工大学,2020.
[6] 张卿,毛伟峰,郭卫东,等.某市液态奶中氯酸盐和高氯酸盐污染来源分析[J].食品安全质量检测学报,2021,12(20):7940-7945.
[7] 凌小芳,李铭,刘高.食品中高氯酸盐的污染现状及检测技术研究进展[J].四川化工,2020,23(6):9-12.
[8] Karunanidhi D,Aravinthasamy P,Subramani T,etal. Perchlorate contamination in groundwater and associated health risks from fireworks manufacturing area (sivakasi region)of south india [J]. Exposure and Health,2022(prepublish).
[9] Sijimol M R,Aravindakumar C T,Manoj P R,etal. Perchlorate contamination of drinking water sources in Kerala,South India,and its degradation using advanced chemical treatment[J]. Energy,Ecology and Environment,2020,5(2):286-293.
[10] 刘丽,彭西甜,彭茂民,等.宜昌茶叶中高氯酸盐污染现状分析[J].农村经济与科技,2019,30(23):35-37.
[11] Orathel S P,Thomas R,Chandramohanakumar N,etal. Possible effects of perchlorate contamination of drinking water on thyroid health.[J]. Journal of thyroid research,2020,1-6.
[12] Isobe T,Ogawa S P,Sugimoto R,etal. Perchlorate contamination of groundwater from fireworks manufacturing area in south India.[J]. Environmental Monitoring and Assessment,2013,185(7):5627-5637.
[13] 邓家军,潘华,张富生,等.茶叶高氯酸盐污染及分析技术[J].茶叶科学,2019,39(4):372-381.
[14] Else T A,Iddyadinesh S,Suba J,etal.Bioremediation methods to reduce risk of exposure[J]. American Journal of Clinical Pathology,2012,138(suppl_1):124
[15] Elaine M,Richard C.Perchlorate contamination of groundwater and blasting operations[J]. Journal of the New England Water Works Association,2007,121(1):18-19.
[16] 田一媚,宫智勇.食品中高氯酸盐的污染现状及毒理作用研究进展[J].食品科学,2020,41(5):276-281.
[17] Tina B.Emerging litigation with perchlorate contamination[J]. The Urban Lawyer,2006,38(3):545-553.
[18] 明双喜,刘伟,张然,等.食品中高氯酸盐污染及检测[J].食品研究与开发,2017,38(14):208-213.
[19] 吴微,冯德建,许洋,等.茶叶中高氯酸盐的污染情况及健康风险初步评估[J].食品工业科技,2020,41(4):173-178.
[20] 李冬桂,吴凤,吕丽兰,等.蔬菜、水果中高氯酸盐的污染情况及健康风险评估[J].食品工业,2021,42(4):497-500.
[21] 潘怀阳. 安溪铁观音高氯酸盐污染及风险评估初探[J].广东茶业,2021(2):17-19.
[22] 高宝玉,宋雯,姚广平,等.环境中高氯酸盐的来源、水污染现状与处理工艺研究进展[J].山东大学学报(工学版),2020,50(5):107-117.
[23] Ilil L,Zeev R,Ofer D.Combined in-situ bioremediation treatment for perchlorate pollution in the vadose zone and groundwater[J]. Journal of Hazardous Materials,2019,369(5):439-447
[24] Acevedo B R,Olivero V J.Perchlorate contamination: sources,effects,and technologies for Remediation[J]. Reviews of environmental contamination and toxicology,2021,256:103-120
[25] Sass J,U,S. Department of Defense and White House working together to avoid cleanup and liability for perchlorate pollution[J]. International journal of occupational and environmental health,2004,10(3):330-334.
[1] 马维, 宋波, 陈文静, 柴雪娇, 杨琴芬. 浅析发酵乳霉菌零星污染来源及控制方法[J]. 中国乳业, 2021, 0(7): 87-90.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!