Abstract
[Objective] To investigate the optimal technical conditions for the removal of polycyclic aromatic hydrocarbons (PAHs ) in carnosic acid production.[Methods] With carnosic acid yield and PAHs residue as evaluation indexes,single factor test and orthogonal test were used to study the effects of activated carbon addition,extraction temperature and activated carbon operation time in the system on PAHs residue and carnosic acid yield.Antioxidants were added to oil and high temperature accelerated oxidation test was carried out,then the peroxide value index was measured to evaluate the anti -oxidation properties.[Results]] The optimal process for removing PAHs from carnosic acid with activated carbon was found that its addition ratio was 0.3%,extraction temperature was at 50 ℃ and operation time was 10 minutes.Under these conditions,a carnosic acid yield of 94.85% was achieved with residual PAHs at 43.12 μg/kg extraction storage period and at the same concentration,the anti -oxidation effects of the four antioxidants were TBHQ >carnosic acid >BHA >VE.[Conclusion] It is feasible to remove PAHs from carnosic acid with using activated carbon while achieving a high yield of carnosic acid (CA) under specific conditions.In the long term,the anti -oxidation effect of 0.02% carnosic acid is equivalent to that of 0.02% TBHQ and the use of natural antioxidants is beneficial to human health.
Publication Date
2-18-2025
First Page
187
Last Page
193
DOI
10.13652/j.spjx.1003.5788.2024.80305
Recommended Citation
Yifei, ZHAO; Rui, YUAN; Hongyan, SHANG; Xinchao, JIA; and Yongyang, LI
(2025)
"Process for removing polycyclic aomatic hydrocarbons from carnosic acid and its antioxidant,"
Food and Machinery: Vol. 40:
Iss.
11, Article 26.
DOI: 10.13652/j.spjx.1003.5788.2024.80305
Available at:
https://www.ifoodmm.cn/journal/vol40/iss11/26
References
[1] ZHU Y,CHAI C,XUE Y,et al.A novel model for evaluating the natural antioxidant carnosic acid to improve the stability of rapeseed oil in the thermal degradation [J].Antioxidants,2024,13(3):296.
[2] INFANTINO V,PAPPALARDO I,SANTARSIERO A,et al.Brain mitochondria as a therapeutic target for carnosic acid [J].Journal of Integrative Neuroscience,2024,23(3):53.
[3] MOJIRI A,ZHOU L J,OHASHI A,et al.Comprehensive review of polycyclic aromatic hydrocarbons in water sources,their effects and treatments [J].Science of the Total Environment,2019,696:133971.
[4] BOLDEN L A,ROCHESTER R J,SCHULTZ K,et al.Polycyclic aromatic hydrocarbons and female reproductive health:a scoping review [J].Reproductive Toxicology,2017,73:61-74.
[5] ALALAIWE A,LIN Y,LIN C,et al.The absorption of polycyclic aromatic hydrocarbons into the skin to elicit cutaneous inflammation:the establishment of structure-permeation and in silico-in vitro-in vivo relationships [J].Chemosphere,2020,255:126955.
[6] PARIS A,LEDAUPHIN J,POINOT P,et al.Polycyclic aromatic hydrocarbons in fruits and vegetables:origin,analysis,and occurrence [J].Environmental Pollution,2018,234:96-106.
[7] 岳利敏,王文昌,赵益菲,等.叶黄素提取过程中典型多环芳烃和塑化剂的迁移规律 [J].中国食品添加剂,2021,32(9):13-22.YUE L M,WANG W C,ZHAO Y F,et al.Polycyclic aromatic hydrocarbons (PAHs ) and plasticizers migration during lutein extraction process [J].China Food Additives,2021,32(9):13-22.
[8] 张洁,靳静.鼠李糖脂去除多环芳烃、石油烃及重金属的应用研究进展 [J].广州化工,2023,51(20):10-14.ZHANG J,JIN J.Research progress on application of rhamnolipids to remove polycyclic aromatic hydrocarbons,petroleum hydrocarbons and heavy metals [J].Guangzhou Chemical Industy,2023,51(20):10-14.
[9] 郑跃平,徐嘉楠,范厚勇,等.生物炭对养殖水体中复合污染物的去除效果与吸附机理初探 [J].上海海洋大学学报,2024,33(6):1 369-1 379.ZHENG Y P,XU J N,FAN H Y,et al.Preliminary study on the removal effect and adsorption mechanism of biochar on combined pollutants in aquaculture water [J].Journal of Shanghai Ocean University,2024,33(6):1 369-1 379.
[10] 张亚昕.碳基吸附剂对食用油中多环芳烃的脱除研究 [D].郑州:河南工业大学,2023:4-12.ZHANG Y X.Study on the adsorption of polycyclic aromatic hydrocarbons in edible oil by carbon-based materials [D].Zhengzhou:Henan University of Technology,2023:4-12.
[11] 纪俊敏,侯杰,姜苗苗,等.吸附法脱除植物油中多环芳烃的研究进展 [J].河南工业大学学报 (自然科学版 ),2023,44(3):129-140.JI J M,HOU J,JIANG M M,et al.Review on removal of polycyclic aromatic hydrocarbons in vegetable oils by adsorption [J].Journal of Henan University of Technology (Natural Science Edition ),2023,44(3):129-140.
[12] 徐化.麦秆基活性炭对烟气多环芳烃的吸附特性及机理研究[D].杭州:中国计量大学,2022:1-20.XU H.Research on adsorption characteristics and mechanism of polycyclic aromatic hydrocarbons by wheat straw-based activated carbon in flue gas [D].Hangzhou:China Jiliang University,2022:1-20.
[13] PENG L Q,YANG C,WANG C M,et al.Effects of deodorization on the content of polycyclic aromatic hydrocarbons (PAHs ),3-monochloropropane- 1,2-diol esters (3-MCPDE ) and glycidyl esters (GE) in rapeseed oil using ethanol steam distillation at low temperature [J].Food Chemistry,2023,413:135616.
[14] 葛正法.磁固相萃取用于芝麻油中黄曲霉毒素和多环芳烃检测的研究 [D].郑州:河南工业大学,2019:5-15.GE Z F.Determination of aflatoxins and polycyclic aromatic hydrocarbons in sesame oil by magnetic solid phase extraction[D].Zhengzhou:Henan University of Technology,2019:5-15.
[15] 朱叶.煎炸油中多环芳烃含量分析及其与油脂劣变指标的相关性研究 [D].无锡:江南大学,2018:7-20.ZHU Y.Determination of polycyclic aromatic hydrocarbons in frying oils and correlation analysis with oil deterioration [D].Wuxi:Jiangnan University,2018:7-20.
[16] 赵佳莹,李晓敏,卢晓华,等.高效液相色谱—荧光检测法测定橄榄油中 4种多环芳烃 [J].色谱,2017,35(7):748-754.ZHAO J Y,LI X M,LU X H,et al.Determination of four polycyclic aromatic hydrocarbons in olive oil by high performance liquid chromatography-fluorescence detection [J].Chinese Journal of Chromatography,2017,35(7):748-754.
[17] 夏虹,刘丽,彭西甜,等.水产品中苯并 [α]芘来源及检测方法研究进展 [J].食品与机械,2022,38(11):236-240.XIA H,LIU L,PENG X T,et al.Research progress on sources and detection methods of determination of benzo- α-pyrene in aquatic products [J].Food & Machinery,2022,38(11):236-240.
[18] 李敏敏,杨伟光,魏恒,等.活化过硫酸盐修复焦化场地多环芳烃污染土壤效果对比 [J].环境工程,2023,41(S1):460-466.LI M M,YANG W G,WEI H,et al.Comparison of effects of activated persulfate on soil contaminated with polycyclic aromatic hydrocarbons in coking sites [J].Environmental Engineering,2023,41(S1):460-466.
[19] 杨念慈,杨成,庞月红.基于磁性共价有机骨架对烤肉中苯并[a]芘的检测 [J].食品与生物技术学报,2022,41(1):77-83.YANG N C,YANG C,PANG Y H.Determination of benzo [a]pyrene in roast meat based on magnetic covalent organic framework [J].Journal of Food Science and Biotechnology,2022,41(1):77-83.
[20] 吉桂珍,程远欣,杨清山,等.5种天然植物提取物中 4种多环芳烃的 HPLC-FLR 测定方法 [J].中国食品添加剂,2020,31(6):88-94.JI G Z,CHENG Y X,YANG Q S,et al.Determination of 4 polycyclic aromatic hydrocarbons in 5 natural plant extracts by high performance liquid chromatography with fluorescence detector [J].China Food Additives,2020,31(6):88-94.
[21] 林霜霜,张海峰,车建美,等.HPLC法同时测定鼠尾草酸、鼠尾草酚和迷迭香酸的含量 [J].中国农业科技导报,2021,23(5):187-193.|LIN S S,ZHANG H F,CHE J M,et al.Contents of carnosic acid,carnosol and rosmarinic acid determined simultaneously by HPLC [J].Journal of Agricultural Science and Technology,2021,23(5):187-193.
[22] 郑霖华,吴启赐,陈巧玲,等.细梗香草皂苷活性炭脱色工艺及抑菌活性研究 [J].中国食品添加剂,2021,32(11):67-72.ZHENG L H,WU Q C,CHEN Q L,et al.Decolorization optimization of saponins from Lysimachia capillipes Hemsl by activated carbon and its antimicrobial activity [J].China Food Additives,2021,32(11):67-72.
[23] 刘劲芸,常健,蒋卓芳,等.滇红玫瑰精油超临界 CO2萃取工艺、挥发性成分及抗氧化活性研究 [J].食品与机械,2023,39(3):175-182.LIU J Y,CHANG J,JIANG Z F,et al.Study on supercritical CO2 extraction process,volatile components and antioxidant activity of rose oil from Dianhong rose [J].Food & Machinery,2023,39(3):175-182.
[24] 于淼,谢春阳,姚成龙,等.黑果腺肋花楸果粗多糖提取及脱色工艺 [J].粮食与油脂,2020,33(10):113-116.YU M,XIE C Y,YAO C L,et al.Extraction and decolorization process of polysaccharides from black fruit glandular ribbed catalpa fruit [J].Cereals & Oils,2020,33(10):113-116.
[25] 周彤,闫寒汐,朱李想,等.不同方法对蒲公英多糖脱色工艺条件优化的研究 [J].农产品加工,2023 (22):29-35,39.ZHOU T,YAN H X,ZHU L X,et al.Study on the optimization of dandelion polysaccharide decolorization process by different methods [J].Farm Products Processing,2023 (22):29-35,39.
[26] 栾跃婷,朱莹丹,段章群,等.鼠尾草酸对热加工菜籽油品质特性的影响 [J].食品工业科技,2024,45(15):45-55.LUAN Y T,ZHU Y D,DUAN Z Q,et al.Effect of carnosic acid on quality characteristics of rapeseed oil during thermal processing [J].Science and Technology of Food Industry,2024,45(15):45-55.
[27] 曹伟,冀思华,刘芳,等.鼠尾草酸在人工体液中的稳定性考察[J].天然产物研究与开发,2017,29(3):444-448.CAO W,JI S H,LIU F,et al.Stability of carnosic acid in simulated body fluids [J].Natural Product Research and Development,2017,29(3):444-448.
[28] 杨梦男,王莹,张静.响应面法优化迷迭香脂溶性提取物脱色工艺 [J].中国油脂,2024,49(4):127-131.YANG M N,WANG Y,ZHANG J.Optimization of decolorization process of rosemary fat-soluble extract by response surface methodology [J].China Oils and Fats,2024,49(4):127-131.
[29] 韩传喜.炭材料脱除多环芳烃化合物的基础研究 [D].烟台:烟台大学,2021:7-12.HAN C X.Basic research on removal of polycyclic aromatic hydrocarbons by carbon materials [D].Yantai:Yantai University,2021:7-12.
[30] 熊烨栋,柯权力,黄康康,等.活性炭对 VOCs的吸附性能与其特征值之间的关系研究 [J].中国环境科学,2024,44(8):4 193-4 201.XIONG Y D,KE Q L,HUANG K K,et al.Association between VOCs adsorption capacity of activated carbons and their diverse characteristic values [J].China Environmental Science,2024,44(8):4 193-4 201.
[31] 张娜维,朱鹏锟,刘菲,等.燕山地球关键带多环境介质中多环芳烃分布特征 [J].环境工程学报,2024,18(3):905-914.ZHANG N W,ZHU P K,LIU F,et al.Distribution characteristics of polycyclic aromatic hydrocarbons in multiple environmental media in Yanshan Earth Critical Zone [J].Chinese Journal of Environmental Engineering,2024,18(3):905-914.
[32] 刘玉兰,张东东,温运启,等.葵花籽油中多环芳烃及色泽的吸附脱除研究 [J].中国粮油学报,2017,32(6):100-106.LIU Y L,ZHANG D D,WEN Y Q,et al.Adsorption removal of polycyclic aromatic hydrocarbons and color of sunflower oil[J].Journal of Chinese Cereals and Oils Association,2017,32(6):100-106.
[33] 王苗,齐立军,彭静维,等.不同抗氧化剂对辣椒红着色稳定性的研究 [J].中国食品添加剂,2021,32(2):107-111.WANG M,QI L J,PENG J W,et al.Study on the coloring stability of different antioxidants on capsicum red pigment [J].China Food Additives,2021,32(2):107-111.
[34] 邵言蹊.脂溶性迷迭香提取物对调味面制品的抗氧化作用[J].食品工业,2023,44(9):147-150.SHAO Y Q.The antioxidant effect of fat-soluble rosemary extract on seasoned flour products [J].The Food Industry,2023,44(9):147-150.
[35] GALICKA A.The stimulating effect of rosmarinic acid and extracts from rosemary and lemon balm on collagen type I biosynthesis in osteogenesis imperfecta type I skin fibroblasts[J].Pharmaceutics,2021,13(7):938-958.
