农产品加工·学刊(中)
農產品加工·學刊(中)
농산품가공·학간(중)
AEM RODUCTS ROCESSING
2014年
5期
9-12
,共4页
刘玲%张富新%艾对%苏伟丽
劉玲%張富新%艾對%囌偉麗
류령%장부신%애대%소위려
贮藏温度%光照%氧气体积分数%水分活度%全脂羊奶粉%游离脂肪酸
貯藏溫度%光照%氧氣體積分數%水分活度%全脂羊奶粉%遊離脂肪痠
저장온도%광조%양기체적분수%수분활도%전지양내분%유리지방산
storage temperature%light conditions%oxygen concentration%water activity%whole goat milk powder%free fatty acids
研究不同贮藏温度、光照、氧气体积分数、水分活度对贮藏期间全脂羊奶粉游离脂肪酸含量的影响,贮藏温度分别为5,25,35℃,分别于1个月、2个月、3个月测定全脂羊奶粉的游离脂肪酸;光照情况分为避光、光照,氧气体积分数分别为3%和21%,水分活度分别为0.11,0.23和0.32,分别每周测定1次全脂羊奶粉的游离脂肪酸。结果表明,贮藏温度、光照、氧气体积分数、水分活度对全脂羊奶粉游离脂肪酸含量都有显著影响(p<0.05),且氧气体积分数对全脂羊奶粉有极显著的影响(p<0.01)。试验证明,低温、避光、低体积分数氧气和低水分活度可以延缓游离脂肪酸含量的上升。
研究不同貯藏溫度、光照、氧氣體積分數、水分活度對貯藏期間全脂羊奶粉遊離脂肪痠含量的影響,貯藏溫度分彆為5,25,35℃,分彆于1箇月、2箇月、3箇月測定全脂羊奶粉的遊離脂肪痠;光照情況分為避光、光照,氧氣體積分數分彆為3%和21%,水分活度分彆為0.11,0.23和0.32,分彆每週測定1次全脂羊奶粉的遊離脂肪痠。結果錶明,貯藏溫度、光照、氧氣體積分數、水分活度對全脂羊奶粉遊離脂肪痠含量都有顯著影響(p<0.05),且氧氣體積分數對全脂羊奶粉有極顯著的影響(p<0.01)。試驗證明,低溫、避光、低體積分數氧氣和低水分活度可以延緩遊離脂肪痠含量的上升。
연구불동저장온도、광조、양기체적분수、수분활도대저장기간전지양내분유리지방산함량적영향,저장온도분별위5,25,35℃,분별우1개월、2개월、3개월측정전지양내분적유리지방산;광조정황분위피광、광조,양기체적분수분별위3%화21%,수분활도분별위0.11,0.23화0.32,분별매주측정1차전지양내분적유리지방산。결과표명,저장온도、광조、양기체적분수、수분활도대전지양내분유리지방산함량도유현저영향(p<0.05),차양기체적분수대전지양내분유겁현저적영향(p<0.01)。시험증명,저온、피광、저체적분수양기화저수분활도가이연완유리지방산함량적상승。
This paper studies the impact of different storage temperature, light conditions, oxygen concentration and water activity on the free fatty acids content of the whole goat milk powder during storage. The storage temperature are 5, 25, 35℃, in which the free fatty acids of the whole goat milk powder are determined once every month, every two month and every three month. The light conditions are illumination and shading. The oxygen concentration is 3%and 21%. The water activity is 0.11, 0.23, 0.32. And the detection is conducted once every week. The results indicate that all of the storage temperature, light conditions, oxygen concentration and water activity have significant influences on the free fatty acids content of whole goat milk powder (p<0.05), and the oxygen concentration has a extremely significant influence on the free fatty acids of whole goat milk powder (p<0.01) . Experimental results show that low temperature, illumination, low concentration oxygen and low water activity can delay the increase in free fatty acid content of the whole goat milk powder.