The influence that ohmic heating technology and its associated moderate electric fields (MEF) have upon production of whey protein isolate cold-set gels mediated by iron addition was investigated. Results have shown that combining heating treatments (90 °C, 5 min) with different MEF intensities let hydrogels with distinctive micro and macro properties i.e. particle size distribution, physical stability, rheological behavior and microstructure. Resulting hydrogels were characterized (at nano-scale) by an intensity-weighted mean particle diameter of 145 nm, a volume mean of 240 nm. Optimal conditions for production of stable whey protein gels were attained when ohmic heating treatment at a MEF of 3 V cm 1 was combined with a cold gelation step using 33 mmol L 1 of Fe2 +. The consistency index of hydrogels correlated negatively to MEF intensity, but a shear thickening behavior was observed when MEF intensity was increased up to 10 V cm 1. According to transmission electron microscopy, ohmic heating gave rise to a more homogenous and compact fine-stranded whey protein-iron microstructure. Ohmic heating appears to be a promising technique, suitable to tailor properties of whey protein gels and with potential for development of innovative functional foods.
展开▼
机译:研究了欧姆加热技术及其相关的中等电场(MEF)对铁添加介导的乳清分离蛋白冷固性凝胶生产的影响。结果表明,将具有不同MEF强度的热处理(90°C,5分钟)结合在一起,可使水凝胶具有独特的微观和宏观特性,即粒度分布,物理稳定性,流变行为和微观结构。所得到的水凝胶的特征是(纳米级)强度加权平均粒径为145nm,体积平均为240nm。当在3V cm-1的MEF进行欧姆加热处理并结合使用33mmol L1的Fe2 +的冷凝胶步骤时,达到了稳定乳清蛋白凝胶生产的最佳条件。水凝胶的稠度指数与MEF强度呈负相关,但当MEF强度增加至10 V cm-1时观察到剪切增稠行为。根据透射电子显微镜,欧姆加热产生了更均匀且致密的细链乳清蛋白质铁的微观结构。欧姆加热似乎是一种有前途的技术,适合于调整乳清蛋白凝胶的特性,并具有开发创新功能食品的潜力。
展开▼
