超滤:工艺温度(7 和 50°C)对工艺性能和蛋白饮料物理、化学和感官特性的影响。

IF 3.7 1区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
T. Truong , A.J. Hernandez , D.M. Barbano , M.A. Drake
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引用次数: 0

摘要

我们的目标是确定脱脂牛奶在 7°C 和 50°C 的超滤温度下,在 3 种(3.4%、7.5% 和 10.5%)蛋白质浓度和 2 种不同的热处理方法(高温短时间(HTST)巴氏杀菌法和高压灭菌法)下,超滤(UF)对 UF 处理、乳糖去除、矿物质分配以及脱脂牛奶回流液的物理、化学和感官特性的影响。巴氏杀菌脱脂牛奶分成两份,一天进行 7°C 超滤处理,第二天进行 50°C 超滤处理。脱脂乳在 7℃和 50℃下进行超滤和重滤,在去除渗透物时,加入与去除渗透物重量等量的 7℃或 50℃去离子水,以便在超滤过程中保持回流液中蛋白质浓度恒定,直至去除 98% 或更多的乳糖和低分子量可溶性乳成分。将脱脂乳在 7℃和 50℃超滤的所有脱脂乳基质饮料进行高温热处理(78℃,15 秒)或高压灭菌(116℃,6 分钟)。对所有处理的物理、化学和感官特性进行了测量。在不同的一周内,用一批新的巴氏杀菌脱脂牛奶重复两次这一过程,7°C 和 50°C UF 处理运行的顺序相反。总的来说,根据感官评分和仪器测量,用 DF 超滤法生产的蛋白质含量为 3.4%、7.5% 和 10.5%的无乳糖脱脂牛奶比脱脂牛奶更淡、更白,热稳定性更差(即对蒸馏稳定,但对 142°C 直接蒸汽喷射 2 至 3 秒不稳定)。脱脂乳中乳糖的去除率达到 98% 至 99%(最终乳糖浓度为 2/h)。在蛋白质浓度恒定的情况下,连续 DF 在 50 和 7°C 的温度下分别保持了 4 和 8 小时的恒定通量。乳糖和可溶性矿物质还原奶的最终凝固点接近于水(-0.015°C,而脱脂奶为-0.525°C),20°C时无乳糖牛奶的pH值从脱脂奶的约6.5升高到7°C和50°C时UF/DF脱脂奶的约7.33和7.46。相对于起始的脱脂奶,从渗透物中去除牛奶中吸收光(360 至 500 纳米范围内)的化合物,提高了光反射率和白度,降低了黄度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultrafiltration: Effect of process temperature (7°C and 50°C) on process performance and protein beverage physical, chemical, and sensory properties
Our objectives were to determine the effect of UF of skim milk at 7°C and 50°C on UF processing, lactose removal, mineral partitioning, and skim milk retentate physical, chemical, and sensory properties at 3 (3.4%, 7.5%, and 10.5%) protein concentration with 2 different heat processing treatments (HTST pasteurization and autoclave). Pasteurized skim milk was split into 2 portions, and the 7°C UF processing run was done on one day and the 50°C UF processing run was done on the next day. Skim milk was UF and diafiltered at 7°C and 50°C, and as permeate was removed, deionized water at 7°C or 50°C was added in an equal amount by weight, as permeate was removed to maintain constant protein concentration in the retentate during UF until 98% or more of lactose, and low-molecular-weight soluble milk components were removed. All skim milk-based beverage bases from the 7°C and 50°C UF of skim milk were HTST (78°C for 15 s) processed or autoclaved (116°C for 6 min). The physical, chemical, and sensory properties of all treatments were measured. This process was replicated twice with a new batch of pasteurized skim milk in a different week with the 7°C and 50°C UF processing runs done in reverse order. Overall, lactose-free skim milk at 3.4%, 7.5%, and 10.5% protein produced by UF with diafiltration (DF), was more bland, more white, and less heat stable (i.e., stable to retorting but not direct steam injection at 142°C for 2–3 s) than skim milk, based on both sensory scores and instrumental measures. A 98% to 99% removal of lactose from skim milk was achieved (final lactose concentration <0.06 g/100g) with a diafiltration ratio of water to milk of about 4 to 1 was used at both 7°C and 50°C. The processing time to achieve that lactose removal from the same starting weight of milk was about twice as long when filtering at 7°C than 50°C because of the lower flux (23 vs. 48 kg/m2 per hour). The continuous DF at constant protein concentration maintained constant flux for a processing time of 4 and 8 h at 50°C and 7°C, respectively. The final freezing point of the lactose and soluble mineral reduced milk was close to that of water (−0.015°C vs. −0.525°C for skim milk) and the pH of the lactose-free milk at 20°C increased from about 6.5 for skim to about 7.33 and 7.46 for UF with continuous DF of skim milk at 7°C and 50°C, respectively. Removal of compounds that absorb light (in the range of 360 to 500 nm) from milk in the permeate, increased light reflectance and whiteness and decreased yellowness relative to the starting skim milk.
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来源期刊
Journal of Dairy Science
Journal of Dairy Science 农林科学-奶制品与动物科学
CiteScore
7.90
自引率
17.10%
发文量
784
审稿时长
4.2 months
期刊介绍: The official journal of the American Dairy Science Association®, Journal of Dairy Science® (JDS) is the leading peer-reviewed general dairy research journal in the world. JDS readers represent education, industry, and government agencies in more than 70 countries with interests in biochemistry, breeding, economics, engineering, environment, food science, genetics, microbiology, nutrition, pathology, physiology, processing, public health, quality assurance, and sanitation.
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