响应面法预测不同发酵变量下ugba (Pentaclethra macrophylla)生产过程中氨基氮含量

C.C. Ogueke, F. Anosike, C.I. Owuamanam
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引用次数: 8

摘要

采用传统方法对发酵非洲油豆(Pentaclethra macrophylla)种子发酵过程中发酵变量的控制进行了研究,以期改进发酵工艺,提高产品质量,并对发酵过程进行预测。研究的变量包括包皮叶片数、相对湿度和温度。在96 h的基础上,测定了24 h各变量对pH和氨基氮的影响,并尝试用响应面法对工艺进行预测和优化。氨基氮随发酵时间的延长而增加,在发酵72 h达到峰值,在65% RH、30℃、5层叶片包裹发酵条件下,日氨基氮值最高,为3.4 mg N/g。在此期间,pH值上升至碱性范围,在65% RH、40°C和10层叶片发酵的样品中,pH值最高(8.2)。统计分析和与分析相关的响应面图显示,变量的二次效应显著(p<0.05)。包皮叶数和相对湿度的影响最为显著,占氨基酸氮变化的95.31%。因此,利用响应面法对发酵过程进行预测,可以对发酵过程进行优化。这最终将提高产品质量。
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Prediction of amino nitrogen during ugba (Pentaclethra macrophylla) production under different fermentation variables: A response surface approach

Manipulation of fermentation variables during ugba production (fermented African oil bean (Pentaclethra macrophylla) seed), using traditional method was studied with the view to improving the fermentation process, quality of product and prediction of process. The variables studied were number of leaves used in wrapping, relative humidity (RH) and temperature. Effect of variables on pH and amino nitrogen was determined on 24 h basis for 96 h. Attempt on prediction and optimization of process using response surface method was made. Amino nitrogen increased with fermentation time and attained its peak at 72 h. The highest daily amino nitrogen value (3.4 mg N/g) was obtained from sample fermented at 65% RH, temperature 30 °C and 5 layers of leaves used for wrapping. pH increased into the alkaline range within the period, the highest value (8.2) being from sample fermented at 65% RH, 40 °C and 10 layers of leaves. Statistical analysis and response surface plots associated with analysis showed that the quadratic effect of variables was significant (p<0.05). Effects of number of leaves used in wrapping and relative humidity were significant and accounted for 95.31% of the amino nitrogen variation. Thus use of response surface method predicted the process and can be used to optimize the fermentation process. This ultimately will improve product quality.

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