食品安全质量检测学报
食品安全質量檢測學報
식품안전질량검측학보
Journal of Food Safety & Quality
2015年
10期
4129-4134
,共6页
黄国清%孙兴丽%徐真真%肖军霞
黃國清%孫興麗%徐真真%肖軍霞
황국청%손흥려%서진진%초군하
辣椒红色素%SPI/CH复凝聚法%微囊化
辣椒紅色素%SPI/CH複凝聚法%微囊化
랄초홍색소%SPI/CH복응취법%미낭화
paprika red pigment%SPI/CH complex coacervation%microencapsulation
目的:以大豆分离蛋白(soybean protein isolate, SPI)和壳聚糖(chitosan, CH)为壁材,采用复凝聚法制备辣椒红色素(paprika red pigment, PRP)微胶囊。方法以微胶囊的包埋产率和包埋效率为指标,研究搅拌转速、复凝聚pH、温度、时间及SPI/CH比对微囊化效果的影响。结果 SPI/CH复凝聚法制备PRP微胶囊的最佳工艺为:将均匀的PRP乳状液冷却至室温,按SPI:CH=4:1(m:m)加入0.6%的CH溶液,此时固形物浓度为1.5%,用10% NaOH溶液调节混合液的pH至6.3,25℃、300 r/min条件下搅拌15 min得到微胶囊悬浮液,此时微胶囊的包埋产率为90.05%,效率为95.08%。所得微胶囊大小不均一,多以球形形式存在。结论 SPI/CH复凝聚体系可用于PRP的微囊化。
目的:以大豆分離蛋白(soybean protein isolate, SPI)和殼聚糖(chitosan, CH)為壁材,採用複凝聚法製備辣椒紅色素(paprika red pigment, PRP)微膠囊。方法以微膠囊的包埋產率和包埋效率為指標,研究攪拌轉速、複凝聚pH、溫度、時間及SPI/CH比對微囊化效果的影響。結果 SPI/CH複凝聚法製備PRP微膠囊的最佳工藝為:將均勻的PRP乳狀液冷卻至室溫,按SPI:CH=4:1(m:m)加入0.6%的CH溶液,此時固形物濃度為1.5%,用10% NaOH溶液調節混閤液的pH至6.3,25℃、300 r/min條件下攪拌15 min得到微膠囊懸浮液,此時微膠囊的包埋產率為90.05%,效率為95.08%。所得微膠囊大小不均一,多以毬形形式存在。結論 SPI/CH複凝聚體繫可用于PRP的微囊化。
목적:이대두분리단백(soybean protein isolate, SPI)화각취당(chitosan, CH)위벽재,채용복응취법제비랄초홍색소(paprika red pigment, PRP)미효낭。방법이미효낭적포매산솔화포매효솔위지표,연구교반전속、복응취pH、온도、시간급SPI/CH비대미낭화효과적영향。결과 SPI/CH복응취법제비PRP미효낭적최가공예위:장균균적PRP유상액냉각지실온,안SPI:CH=4:1(m:m)가입0.6%적CH용액,차시고형물농도위1.5%,용10% NaOH용액조절혼합액적pH지6.3,25℃、300 r/min조건하교반15 min득도미효낭현부액,차시미효낭적포매산솔위90.05%,효솔위95.08%。소득미효낭대소불균일,다이구형형식존재。결론 SPI/CH복응취체계가용우PRP적미낭화。
Objective To prepare paprika red pigment (PRP) microcapsules using complex coacervation using soybean protein isolate (SPI) and chitosan (CH) as coating materials.Methods Microencapsulation efficiency and yield were selected as the indicators to study the effects of reaction temperature, reaction duration, agitation speed, coacervation pH and SPI/CH ratio (m:m) on PRP microencapsulation.Results The optimum microencapsulation conditions were SPI/CH ratio 4:1, total solid concentration 1.5%, coacervation pH 6.3 and agitation at 300 r/min and 25℃ for 15 min. Under these conditions, the microencapsulation yield and microencapsulation efficiency reached up to 90.05% and 95.08% respectively. Microscopy observation revealed that the microcapsules were not uniform in size distribution and most were present as spheres. Conclusion The SPI/CH coacervation system can be successfully used in the microencapsulation of PRP.
