Optimization of baker`s yeast production on grape juice using response surface methodology

Q3 Engineering

Acta Periodica Technologica Pub Date : 2021-01-01 DOI:10.2298/apt2152089s

M. Sawsan, Ali Ali, Darwesh Ayhem, Zam Wissam

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引用次数: 2

Abstract

There is an increasing interest in improving biological processes, including fermentation processes, improving fermentation conditions is difficult, as it requires the use of an appropriate improvement method that allows operating the biological fermenter under optimal conditions in order to obtain the largest possible amount of the final product. The aim of this work was to succeed in examples of fermentation conditions to produce the largest possible quantity of dry yeast biomass Saccharomyces cerevisiae using grape juice as the sole carbon source. The optimum values of five factors that have an effect on the production of dry biomass from baker`s yeast were determined. The design of the experiments was carried out using the central composite experimental design (CCD) and the number of experiments according to the design was (54) experiments, the response surface methodology method was used to determine the best possible amount of production of yeast, and has reached (41.44 g/L) after 12 hours of fermentation, under the following optimal conditions (temperature (30.11??), pH (4.75), sugar concentration (158.36 g/L), the ratio of carbon to nitrogen (an essential nutrient for yeast growth ) is (11.9), initial concentration of yeasts (2.5 g/L), the amount of urea was 6.65 g/L and the amount of ammonium sulfate used was 6.65 g/L, so that the concentration of added urea and ammonium sulfate was (50-50)% and the required C/N ratio was achieved, and the used agitation speed was equal to 200 r.p.m during the fermentation process. The fermenter power of the obtained yeast was 470 ml. Three kinematic models (Monod, Verhulst, and Tessier) were also selected for the purpose of studying the kinetic performance of Saccharomyces cerevisiae yeast. Monod and Tessier`s models did not give satisfactory results, while the best results were according to the Verhulst model. Also, the Leudeking Piret model has also been successfully used to predict substrate consumption during fermentation time.

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响应面法优化葡萄汁面包酵母生产工艺

人们对改进生物过程越来越感兴趣，包括发酵过程，改善发酵条件是困难的，因为它需要使用适当的改进方法，允许在最佳条件下操作生物发酵罐，以获得尽可能多的最终产品。这项工作的目的是成功的发酵条件的例子，以生产最大可能数量的干酵母生物质酿酒酵母使用葡萄汁作为唯一的碳源。确定了影响面包酵母生产干生物质的5个因素的最优值。采用中心复合实验设计(CCD)进行实验设计，根据设计的实验数量为(54)个实验，采用响应面法确定酵母的最佳产酵母菌量，并在发酵12 h后达到(41.44 g/L)，在以下最佳条件下(温度(30.11??)，pH(4.75)，糖浓度(158.36 g/L)，酵母生长所必需的营养物质碳氮比为11.9，酵母初始浓度为2.5 g/L，尿素用量为6.65 g/L，硫酸铵用量为6.65 g/L，使尿素和硫酸铵的添加浓度为(50-50)%，达到所需的C/N比，发酵过程中使用的搅拌速度为200r.p.m。所得酵母菌的发酵力为470 ml。同时选取Monod、Verhulst和Tessier三种运动学模型，对酿酒酵母的动力学性能进行研究。Monod和Tessier的模型没有给出令人满意的结果，而Verhulst模型给出了最好的结果。此外，Leudeking Piret模型也被成功地用于预测发酵过程中的底物消耗。

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