粮油食品科技
糧油食品科技
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SCIENCE AND TECHNOLOGY OF CEREALS,OILS AND FOODS
2014年
6期
33-38
,共6页
肖怀秋%李玉珍%赵谋明%林亲录%杨涛
肖懷鞦%李玉珍%趙謀明%林親錄%楊濤
초부추%리옥진%조모명%림친록%양도
冷榨花生粕%二次旋转中心组合响应面技术%脱脂率%蛋白质损失率
冷榨花生粕%二次鏇轉中心組閤響應麵技術%脫脂率%蛋白質損失率
랭자화생박%이차선전중심조합향응면기술%탈지솔%단백질손실솔
cold -pressed peanut meal%quadratic rotatable central composite response surface methodol-ogy%defatting ratio(DFR)%loss rate of protein
为高效利用冷榨花生粕优质蛋白质资源、减少残存油脂对蛋白质精深加工的影响,在综合考虑溶剂安全性和无水乙醇对蛋白质损失率及脱脂率影响的基础上,选择无水乙醇作为脱脂溶剂。在单因素试验基础上利用二次旋转中心组合响应面优化技术考察了脱脂温度(X1)、脱脂时间(X2)和固液比(X3)的影响规律并构建了脱脂工艺二阶多项式非线性回归方程和数值模型。优化分析发现,在脱脂温度59.5℃、脱脂时间108 min 和固液比1∶19的优化条件下脱脂率为92.56%,与模型预测值93.07%接近,偏差为0.55%。研究表明,单因素试验与二次旋转中心组合响应面优化联用能很好地应用于冷榨花生粕脱脂工艺的优化分析。
為高效利用冷榨花生粕優質蛋白質資源、減少殘存油脂對蛋白質精深加工的影響,在綜閤攷慮溶劑安全性和無水乙醇對蛋白質損失率及脫脂率影響的基礎上,選擇無水乙醇作為脫脂溶劑。在單因素試驗基礎上利用二次鏇轉中心組閤響應麵優化技術攷察瞭脫脂溫度(X1)、脫脂時間(X2)和固液比(X3)的影響規律併構建瞭脫脂工藝二階多項式非線性迴歸方程和數值模型。優化分析髮現,在脫脂溫度59.5℃、脫脂時間108 min 和固液比1∶19的優化條件下脫脂率為92.56%,與模型預測值93.07%接近,偏差為0.55%。研究錶明,單因素試驗與二次鏇轉中心組閤響應麵優化聯用能很好地應用于冷榨花生粕脫脂工藝的優化分析。
위고효이용랭자화생박우질단백질자원、감소잔존유지대단백질정심가공적영향,재종합고필용제안전성화무수을순대단백질손실솔급탈지솔영향적기출상,선택무수을순작위탈지용제。재단인소시험기출상이용이차선전중심조합향응면우화기술고찰료탈지온도(X1)、탈지시간(X2)화고액비(X3)적영향규률병구건료탈지공예이계다항식비선성회귀방정화수치모형。우화분석발현,재탈지온도59.5℃、탈지시간108 min 화고액비1∶19적우화조건하탈지솔위92.56%,여모형예측치93.07%접근,편차위0.55%。연구표명,단인소시험여이차선전중심조합향응면우화련용능흔호지응용우랭자화생박탈지공예적우화분석。
To take advantage of protein resource from cold -pressed peanut meal,and to reduce the im-pact of residual oil on protein deep processing,anhydrous ethanol was chosen as defatting solvent after comprehensive consideration of solvent safety and the influences of anhydrous ethanol on protein loss rate and defatting rate.The influence rules of defatting temperature(X1 ),defatting time(X2 )and solid -liquid ratio(X3 )were investigated by quadratic rotatable central composite response surface methodology based on single factor experiment,and a second order polynomial nonlinear regression equation and numer-ical model was established.Optimum parameters were determined as defatting temperature 59.5 ℃,defat-ting time 108 min and solid -liquid ratio 1∶19.Under the optimal condition,defatting rate was 92.56%, which was close to the model predicted value 93.07% with the deviation of 0.55%.The results indicated that the combination of single factor experiment and quadratic rotatable central composite response surface methodology can be used in optimization of defatting process of cold -pressed peanut meal.