Application of response surface methodology in process optimization of Soytofu and their sensory evaluation

IF 0.2 Q4 AGRICULTURE, DAIRY & ANIMAL SCIENCE

INDIAN JOURNAL OF DAIRY SCIENCE Pub Date : 2021-10-31 DOI:10.33785/ijds.2021.v74i05.005

D. Saini, C. Chopra, Sabbu Sangeeta

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Abstract

The objective of this investigation was to optimize the levels of four salt and three acid coagulants and coagulating temperature of soy milk so as to prepare quality soytofu by employing Response Surface Methodology (RSM) and to select an ideal one among the seven coagulants. To optimize the level of coagulant and temperature, Three Level Factorial Design was used. This included three levels of salt (0.2, 0.4 and 0.6%, w/v on soy milk basis) and acid (0.15, 0.25 and 0.35%, w/v on soy milk basis) coagulants with three levels of coagulating temperature (75, 82.5 and 90C). Thus 13 RSM experiments including five central and eight axial points were conducted to produce soytofu samples with each of the coagulant. Soytofu samples were evaluated organoleptically on nine point hedonic rating scale. Results revealed that the optimum concentration of coagulants (% w/v, on soymilk basis) and coagulating temperature (C) of soymilk for making quality soytofu was 0.6, 86.55, 0.57, 84.9, 0.6, 87.23, 0.46, 86.18, 0.35, 89.33, 0.3, 80.25 and 0.15%, 87.45C, respectively, for CaCl 2 , CaSO 4 , MgCl 2 , MgSO 4 , lactic acid, acetic acid and citric acid coagulants. Preparation of soytofu sample from RSM optimized level and their organoleptic evaluation indicated that among the seven coagulants calcium chloride was best for making quality soytofu and it contained 68.59, 50.3, 12, 5.9 and 15.35% moisture, protein, crude fat, ash and carbohydrates, respectively.

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响应面法在豆腐乳工艺优化及感官评价中的应用

采用响应面法(Response Surface Methodology, RSM)对豆浆中4种盐、3种酸型混凝剂的掺量及混凝温度进行优化，并在7种混凝剂中选择最理想的一种，以制备优质豆腐乳。采用三水平析因设计优化混凝剂用量和温度。这包括三种水平的盐(0.2、0.4和0.6%，豆浆基础上的w/v)和酸(0.15、0.25和0.35%，豆浆基础上的w/v)，三种水平的凝固温度(75、82.5和90℃)。通过5个中心点和8个轴向点共13个RSM实验，制备了每种混凝剂的豆制品。采用九分制的快乐评定量表对豆腐脑样品进行感官评价。结果表明，氯化钙、caso4、mgcl2、mgso4、乳酸、乙酸和柠檬酸等混凝剂的最佳混凝剂浓度(% w/v，以豆浆为基础)和凝固温度(C)分别为0.6、86.55、0.57、84.9、0.6、87.23、0.46、86.18、0.35、89.33、0.3、80.25和0.15%、87.45℃。采用优化水平的RSM制备大豆样品，并对其进行感官评价，结果表明，7种混凝剂中氯化钙的水分、蛋白质、粗脂肪、灰分和碳水化合物含量分别为68.59%、50.3%、12%、5.9和15.35%，制备优质大豆效果最佳。

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INDIAN JOURNAL OF DAIRY SCIENCE AGRICULTURE, DAIRY & ANIMAL SCIENCE-

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33.30%

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