Effect of microparticulate from whey protein concentrates on the characteristics of fresh cheese

Edinson Bejarano-Toro, E. Rodríguez-Sandoval, J. U. Sepúlveda-Valencia
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Abstract

Whey, obtained from cheese manufacturing, has a significant environmental impact due to its organic load and volume produced. Therefore, validating technologies that allow its valorization due to its content of ingredients of high nutritional or functional value becomes relevant for the dairy industry. Microparticulate whey protein (MWP) has been used to produce cheeses and has the potential to improve process performance. We seek to develop and optimize the characteristics of a MWP to be used to make white cheese. For this, factors such as temperature, from 73  to 93°C, and retention time from 3 to 17 min of the heat treatment were evaluated. We assessed zeta potential, particle size, color, protein retention coefficient, and cheese yield as response variables using a response surface design with 14 experiments. Optimum conditions were 93°C for 5.4 min retention. In the white cheese production, two inclusion percentages were tested: 3 and 5% (w/w); and the impact on characteristics like yield, protein retention, and texture was evaluated with respect to a control cheese that was not added with MWP. We found that 3% inclusion is more suitable because it keeps textural characteristics closer to traditional cheese. The MWPs add value to whey and cheese by improving performance and enabling the retention of proteins of high biological and nutritional value.
乳清蛋白浓缩物中的微粒对新鲜奶酪特性的影响
从奶酪生产中获得的乳清,由于其有机负荷和产量,对环境有重大影响。因此,验证技术,使其增值,由于其成分的高营养或功能价值的内容是相关的乳制品行业。微颗粒乳清蛋白(MWP)已被用于生产奶酪,并具有改善工艺性能的潜力。我们寻求开发和优化用于制作白奶酪的MWP的特性。为此,对温度(从73°C到93°C)和热处理保留时间(从3到17分钟)等因素进行了评估。我们使用14个实验的响应面设计来评估zeta电位、粒度、颜色、蛋白质保留系数和奶酪产量作为响应变量。最佳条件为93℃,保留时间5.4 min。在白奶酪生产中,试验了2种添加率:3%和5% (w/w);并评估了未添加MWP的对照奶酪对产量、蛋白质保留和质地等特性的影响。我们发现3%的添加量更合适,因为它能保持更接近传统奶酪的质地特征。MWPs通过提高乳清和奶酪的生产性能和保留高生物和营养价值的蛋白质来增加乳清和奶酪的价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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