Development of ricotta cheese from concentrated buffalo cheese whey by optimization of processing conditions using RSM

IF 2.9 3区农林科学 Q2 FOOD SCIENCE & TECHNOLOGY

Journal of Food Measurement and Characterization Pub Date : 2023-06-12 DOI:10.1007/s11694-023-02004-5

Abdul Ahid Rashid, Salman Saeed, Ishtiaque Ahmad, Khurram Shehzad, Shaista Nawaz, Saima Inayat

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引用次数: 0

Abstract

Yield and quality of ricotta cheese from concentrated whey is affected by various processing conditions. The present study aims to explore the optimal processing conditions regarding temperature, pH and calcium chloride (CaCl₂) concentration for maximum yield of ricotta cheese. Buffalo cheese whey was concentrated by vacuum concentrator at 50 °C resulting in total solids (TS) percentage of 48.62 ± 0.195 and total protein content of 5.64 ± 0.043 percent. Twenty experiments were performed to optimize the processing conditions like temperature (60–90 °C), pH (3–7) and CaCl₂ concentration (2.0–6.0 mM) for maximum yield/recovery of milk constituents from this concentrated whey. Consequently, three best combinations of processing conditions, RCW1 = 90 °C, pH 7, CaCl₂ 6 mM), RCW2 = (100 °C, pH 5, CaCl₂ 4 mM) and RCW3 = (75 °C, pH 8.4, CaCl₂ 4 mM) were selected for ricotta cheese preparation. These cheeses were compared for various physicochemical characteristics during storage of 60 days at 4 ± 2 °C. Yield increases (5.59–10.80%) with increased in temperature (60–90 °C) respectively at the same pH 7.0, however when temperature increased from 60 to 90 °C at the same pH 3.0 the yield increase from 4.19 to 4.90% respectively. It was observed that all three factors affect the yield (%) of ricotta cheese. Temperature and pH had strong effect as compared to CaCl₂. The results showed that the ricotta cheese prepared at 100 °C, pH 5 and CaCl₂ 4 mM resulted the maximum yield, proteins and TS. Significant increase in acidity and non-protein nitrogen was observed during storage. The pH, fat, and lactose contents of ricotta cheese was significantly decreased during storage. However; moisture, ash, protein and TS were non-significant effect during that period.

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以浓缩水牛奶酪乳清为原料，采用RSM优化工艺条件，研制乳清干酪

浓缩乳清制乳清奶酪的产率和质量受到不同加工条件的影响。本研究旨在探讨温度、pH和氯化钙(CaCl2)浓度对乳清干酪产量的影响。用真空浓缩器在50℃下浓缩水牛奶酪乳清，得到的总固形物(TS)率为48.62±0.195，总蛋白含量为5.64±0.043%。通过20个实验，优化了加工温度(60-90℃)、pH(3-7)和CaCl2浓度(2.0-6.0 mM)，以最大收率/回收率从浓缩乳清中提取乳成分。结果表明，RCW1 = 90°C, pH 7, CaCl2 6 mM)、RCW2 =(100°C, pH 5, CaCl2 4 mM)和RCW3 =(75°C, pH 8.4, CaCl2 4 mM)是乳清干酪制备的最佳工艺条件组合。比较了这些奶酪在4±2°C条件下贮存60天的各种理化特性。在pH 7.0条件下，温度升高(60 ~ 90℃)，产率升高(5.59 ~ 10.80%)，pH 3.0条件下温度升高(60 ~ 90℃)，产率升高(4.19% ~ 4.90%)。观察到这三个因素都影响乳清干酪的产率(%)。与CaCl2相比，温度和pH对其影响较大。结果表明，在100℃、pH 5和CaCl2 4 mM条件下制备的乳清干酪产量、蛋白质和TS最高，贮藏期间酸度和非蛋白氮含量显著增加。在贮藏过程中，乳清干酪的pH值、脂肪和乳糖含量显著降低。然而;水分、灰分、蛋白质和TS对其影响不显著。

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来源期刊

Journal of Food Measurement and Characterization Agricultural and Biological Sciences-Food Science

CiteScore

6.00

自引率

11.80%

发文量

425

期刊介绍： This interdisciplinary journal publishes new measurement results, characteristic properties, differentiating patterns, measurement methods and procedures for such purposes as food process innovation, product development, quality control, and safety assurance. The journal encompasses all topics related to food property measurement and characterization, including all types of measured properties of food and food materials, features and patterns, measurement principles and techniques, development and evaluation of technologies, novel uses and applications, and industrial implementation of systems and procedures.