高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
1期
211-216
,共6页
李娅西%邵先军%彭兆裕%张增辉%张冠军%石兴民
李婭西%邵先軍%彭兆裕%張增輝%張冠軍%石興民
리아서%소선군%팽조유%장증휘%장관군%석흥민
介质阻挡放电(DBD)%低温等离子体(LTP)%橙汁%微生物%灭菌%品质
介質阻擋放電(DBD)%低溫等離子體(LTP)%橙汁%微生物%滅菌%品質
개질조당방전(DBD)%저온등리자체(LTP)%등즙%미생물%멸균%품질
dielectric barrier discharge(DBD)%low temperature plasma(LTP)%orange juice%microorganism%sterilization%quality
为了消除加热杀菌的不利影响,开发和研究冷灭菌技术日益受到人们的重视。为此,利用大气压空气中平行平板介质阻挡放电(DBD)产生的低温等离子体对橙汁灭菌效果及品质的影响进行了研究。选取了3种具有代表作用的微生物(革兰氏阳性的金黄色葡萄球菌、革兰氏阴性的大肠杆菌和典型真菌的代表白色念球菌)。研究了不同处理时间下低温等离子体对掺入橙汁中微生物的灭活效果。此外,还研究了低温等离子体对橙汁货架期的影响,并且利用一系列生物医学检测手段和仪器(2,4二硝基苯肼比色法、氢氧化钠滴定法、数字阿贝折射仪、pH计和分光光度计)对经低温等离子体处理前后的橙汁维生素C的质量浓度、总酸、糖度(°Brix)、pH值和浊度进行了测量,考察了pH值对微生物的灭活效果。实验结果表明:低温等离子体可以快速有效地杀灭掺入橙汁中的微生物(金黄色葡萄球菌、大肠杆菌和白色念球菌)并延长橙汁储存的货架期,而且等离子体对橙汁营养及理化性质的影响不大。pH值在等离子体菌类灭活中不起主要作用,分析后认为等离子体中的带电粒子和氧自由基(ROS)才可能是导致菌类灭活的主要因素。
為瞭消除加熱殺菌的不利影響,開髮和研究冷滅菌技術日益受到人們的重視。為此,利用大氣壓空氣中平行平闆介質阻擋放電(DBD)產生的低溫等離子體對橙汁滅菌效果及品質的影響進行瞭研究。選取瞭3種具有代錶作用的微生物(革蘭氏暘性的金黃色葡萄毬菌、革蘭氏陰性的大腸桿菌和典型真菌的代錶白色唸毬菌)。研究瞭不同處理時間下低溫等離子體對摻入橙汁中微生物的滅活效果。此外,還研究瞭低溫等離子體對橙汁貨架期的影響,併且利用一繫列生物醫學檢測手段和儀器(2,4二硝基苯肼比色法、氫氧化鈉滴定法、數字阿貝摺射儀、pH計和分光光度計)對經低溫等離子體處理前後的橙汁維生素C的質量濃度、總痠、糖度(°Brix)、pH值和濁度進行瞭測量,攷察瞭pH值對微生物的滅活效果。實驗結果錶明:低溫等離子體可以快速有效地殺滅摻入橙汁中的微生物(金黃色葡萄毬菌、大腸桿菌和白色唸毬菌)併延長橙汁儲存的貨架期,而且等離子體對橙汁營養及理化性質的影響不大。pH值在等離子體菌類滅活中不起主要作用,分析後認為等離子體中的帶電粒子和氧自由基(ROS)纔可能是導緻菌類滅活的主要因素。
위료소제가열살균적불리영향,개발화연구랭멸균기술일익수도인문적중시。위차,이용대기압공기중평행평판개질조당방전(DBD)산생적저온등리자체대등즙멸균효과급품질적영향진행료연구。선취료3충구유대표작용적미생물(혁란씨양성적금황색포도구균、혁란씨음성적대장간균화전형진균적대표백색념구균)。연구료불동처리시간하저온등리자체대참입등즙중미생물적멸활효과。차외,환연구료저온등리자체대등즙화가기적영향,병차이용일계렬생물의학검측수단화의기(2,4이초기분정비색법、경양화납적정법、수자아패절사의、pH계화분광광도계)대경저온등리자체처리전후적등즙유생소C적질량농도、총산、당도(°Brix)、pH치화탁도진행료측량,고찰료pH치대미생물적멸활효과。실험결과표명:저온등리자체가이쾌속유효지살멸참입등즙중적미생물(금황색포도구균、대장간균화백색념구균)병연장등즙저존적화가기,이차등리자체대등즙영양급이화성질적영향불대。pH치재등리자체균류멸활중불기주요작용,분석후인위등리자체중적대전입자화양자유기(ROS)재가능시도치균류멸활적주요인소。
In order to eliminate some unwanted side-effects caused by thermal processes sterilization,non-thermal sterilization techniques have been rapidly developed in recent years.The low temperature plasma(LTP) generated by parallel-plate electrode DBD was employed to sterilize three kinds of microorganisms inoculated with and without orange juice,and its influence on quality of orange juice was investigated.Three kinds of typical microorganisms,Staphylococcus aureus(gram-positive),Escherichia coli(gram-negative),and Candida albicans(typical of fungi),were employed to explore the inactivation mechanisms.The effect of LTP on microorganism inactivation with different treatment time was investigated.In addition,the effect of LTP on shelf life of orange juice was studied,and the biological and medical detection methods and instruments(4-dinitrophenylhydrazine colorimetry,sodium hydroxide titration,Abbe refractometer,acidometer and spectrophotometer) were employed to measure the Vit C concentration,total acid,°Brix,pH value and turbidity in orange juice before and after plasma treatment,also the effect of pH value on microorganism inactivation was investigated.The experimental results show that: low temperature plasma is safe and effective in inactivating microorganisms(Staphylococcus aureus,Escherichia coli,and Candida albicans) in orange juice,and can significantly extend its shelf life.LTP treatment has hardly effect on nutritional,physical and chemical characteristics of the orange juice.The pH value does not play an important role in microorganism inactivation.It is proposed that microorganism inactivation is mainly due to reactive oxygen species(ROS) and charged particles.
