食品研究与开发
食品研究與開髮
식품연구여개발
FOOD RESEARCH AND CEVELOPMENT
2013年
1期
51-55
,共5页
刘素稳%常学东*%赵希艳%王振
劉素穩%常學東*%趙希豔%王振
류소은%상학동*%조희염%왕진
双孢菇%微波%膨化%模糊评判%优化%工艺
雙孢菇%微波%膨化%模糊評判%優化%工藝
쌍포고%미파%팽화%모호평판%우화%공예
Agaricus bisporus%micro wave power%puffing%fuzzy evaluation%optimization%technology
为了确定最佳的双孢菇膨化干燥工艺,在单因素的基础上,采用Box-Behnken中心组合响应面设计,分析了初始含水量(X1),切片厚度(X2),微波功率(X3)3因素作为输入变量,应用模糊综合评判法对工艺参数进行多目标综合优化,即同时兼顾膨化度(Y1)、硬度(Y2)、脆度(Y3)、感官得分(Y4)、咀嚼度(Y5)等指标的最佳工艺参数.结果表明:在微波功率为360 W、双孢菇片厚度为10 mm,双孢菇初始含水率为36.6%的条件下,达到了膨化度206%,硬度2.72 N,脆度2.46 N,感官指标9.5,咀嚼性0.56 mJ,其综合评判指标为0.9894的较好效果.
為瞭確定最佳的雙孢菇膨化榦燥工藝,在單因素的基礎上,採用Box-Behnken中心組閤響應麵設計,分析瞭初始含水量(X1),切片厚度(X2),微波功率(X3)3因素作為輸入變量,應用模糊綜閤評判法對工藝參數進行多目標綜閤優化,即同時兼顧膨化度(Y1)、硬度(Y2)、脆度(Y3)、感官得分(Y4)、咀嚼度(Y5)等指標的最佳工藝參數.結果錶明:在微波功率為360 W、雙孢菇片厚度為10 mm,雙孢菇初始含水率為36.6%的條件下,達到瞭膨化度206%,硬度2.72 N,脆度2.46 N,感官指標9.5,咀嚼性0.56 mJ,其綜閤評判指標為0.9894的較好效果.
위료학정최가적쌍포고팽화간조공예,재단인소적기출상,채용Box-Behnken중심조합향응면설계,분석료초시함수량(X1),절편후도(X2),미파공솔(X3)3인소작위수입변량,응용모호종합평판법대공예삼수진행다목표종합우화,즉동시겸고팽화도(Y1)、경도(Y2)、취도(Y3)、감관득분(Y4)、저작도(Y5)등지표적최가공예삼수.결과표명:재미파공솔위360 W、쌍포고편후도위10 mm,쌍포고초시함수솔위36.6%적조건하,체도료팽화도206%,경도2.72 N,취도2.46 N,감관지표9.5,저작성0.56 mJ,기종합평판지표위0.9894적교호효과.
@@@@A Box-Behnken response surface methodology was adopted to optimize the technical conditions of explosion puffing drying for Agaricus bisporus based on the single factor experiment. The effects of moisture content (X1), thicknesses of sliced (X2), microwave power (X3) of the three factors and using fuzzy evaluation method based on expansion ratios, hardness, fracture, sense quality and chewiness, and high index was obtained. The results indicated that the optimal technical conditions were obtained as follows:microwave power of 360 W, the thickness of Agaricus bisporus chips was 10 mm and the moisture content of 36.6 %. The expansion ratio, hardness, fracture, sense quality and chewiness reached maximum of 206%, 2.72 N, 2.46 N, 9.5 and 0.56 mJ, respectively. The index of good effect was obtained for 0.989 4 based on comprehensive evaluation.