共查询到19条相似文献,搜索用时 140 毫秒
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对中性高钙液体奶生产中不同钙剂和稳定剂对产品稳定性和品质的影响进行了研究。结果表明 ,以乳钙为钙强化剂 ,添加量为 6 g/L ,微晶纤维素复配卡拉胶 (1∶1)为稳定剂 ,添加量为 3g/L ,制备的中性高钙液体奶对热稳定 ,口感不会明显增稠 ,钙含量 (以钙元素计 )可达 2 6 4g/L。 相似文献
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不同钙剂对高钙奶稳定性的影响 总被引:1,自引:1,他引:0
研究了不同的钙剂及用量和不同的稳定剂对中性高钙奶稳定性的影响。结果表明,以碳酸钙为代表的电离度较小的分子钙,其电离产生的钙离子对体系的稳定性影响相对较小。因此,主要通过提高中性高钙奶的悬浮效果,可解决由于加入碳酸钙而引起的体系出现沉淀的问题;以乳钙为代表的有机分子钙,由于乳钙自身在水溶液中具有很好的分散性.且可能因其电离度较碳酸钙大,故而乳钙对中性高钙奶体系的影响主要是游离的钙离子与乳状液中界面上的乳蛋白通过桥连作用,引起体系絮凝,可通过加入螯合剂螯合体系的钙离子来解决。 相似文献
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本文重点研究了钙强化剂的种类、不同用量和不同的稳定剂对高钙奶稳定性的影响.结果表明以碳酸钙为代表的电离度较小的分子钙,其电离产生的钙离子对乳状液体系的稳定性的影响相对较小,因此主要通过提高乳状液的悬浮效果,可解决由于加入碳酸钙而引起的体系出现沉淀的问题;以乳钙为代表的有机分子钙,由于乳钙自身在水溶液中具有很好的分散性,电离度较碳酸钙大,乳钙对高钙奶体系稳定性的影响主要是游离的钙离子与乳状液中界面上的乳蛋白通过桥连作用,引起体系絮凝,可通过加入螯合剂螯合体系的钙离子来解决. 相似文献
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本文报导保加利亚乳杆菌(L.Bulgaricus)在牛乳、蔗糖、稳定剂和活性钙体系中的发酵作用。实验表明,以0.1%果胶为稳定剂的上述体系,可外加纯钙量达0.2%;在42℃下,多种量3%时,经10-12小时培养,获得总钙量在0.37%的酸凝乳稳定体系;文中同时探讨了外加钙量与体系褐变间相互关系。 相似文献
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以纯柠檬酸溶液为体系,研究了钙在其中的稳定性,得出,在不超过国家规定的钙和添加量范围内,一般不会出现柠檬酸饮料钙盐沉淀问题,柠檬酸的最大许可浓度为0.087mg/g。 相似文献
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浅谈酒石酸钙对葡萄酒稳定性的影响及处理措施 总被引:1,自引:1,他引:1
李洪波 《中外葡萄与葡萄酒》1998,(3):44-44
在葡萄酒中能引起结晶沉淀的一般只有两种物质即酒石酸氢钾、酒石酸钙。其中酒石酸氢钾较容易通过冷冻结晶而去除,而酒石酸钙则因其特有的性质即使在温度很低的情况下也很难从葡萄酒中完全沉淀出来。当葡萄酒中酒石酸钙含量超出了葡萄酒可能容纳的量,它就会结晶沉淀。这... 相似文献
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《中国食品添加剂》2016,(11)
AD钙调味奶属于酸性调味奶,p H低于4.2,黏度范围3~5cps,其稳定性问题主要集中体现在产品存放过程中出现脂肪上浮、蛋白质沉淀、结块等现象,在实际生产中可以通过添加稳定剂和缓冲盐类进行有效防止。本实验首先通过采用酸性调味奶中常用的几种乳化剂、增稠剂和磷酸盐进行单因素试验,对其中一个因素进行筛选,确定合理的添加量,之后再进行各方案的复配实验,通过实验数据最终确定合理的复配组合方案。经过了一系列的试验观察及数据检测,证明复配方案一(卡拉胶0.2‰,MCC 0.2‰,单硬脂酸甘油酯1.9‰,蔗糖脂肪酸酯1.9‰,六偏磷酸钠0.5‰)及复配方案五(黄原胶0.2‰,结冷胶0.2‰,单硬脂酸甘油酯1.9‰,蔗糖脂肪酸酯1.9‰,六偏磷酸钠0.5‰)的综合稳定能力较好。 相似文献
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Calcium enrichment of food and dairy products has gained interest with the increased awareness about the importance of higher calcium intake. Calcium plays many important roles in the human body. Dairy products are an excellent source of dietary calcium, which can be further fortified with calcium salts to achieve higher calcium intake per serving. However, the addition of calcium salts can destabilize food systems unless conditions are carefully controlled. The effect of calcium fortification on the heat stability of reconstituted skim milk was evaluated, using reconstituted skim milks with 2 protein levels: 1.75 and 3.5% (wt/wt) prepared using low and high heat powders. Calcium carbonate, phosphate, lactate, and citrate were used for fortification at 0.15, 0.18, and 0.24% (wt/wt). Each sample was analyzed for solubility, heat stability, and pH. The addition of phosphate and lactate salts lowered the pH of milk, citrate did not have any major effect, and carbonate for the 1.75% protein samples increased the pH. In general, changes in solubility and heat stability were associated with changes in pH. Calcium addition decreased the solubility and heat stability. However, interestingly, the presence of carbonate salt greatly increased the heat stability for 1.75% protein samples. This is due to the neutralizing effect of calcium carbonate when it goes into solution. The results suggested that the heat stability of milk can be affected by the type of calcium salt used. This may be applied to the development of milk-based calcium enriched beverages. 相似文献
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通过有苦味的高钙奶样品中的细菌总数、蛋白质水解度、寡肽含量、游离氨基酸含量、蛋白酶活性等指标的测定,对高钙奶在保质期末出现苦味的原因进行分析。结果表明苦味高钙奶和无苦味牛奶样品中的细菌总数无显著差异(p≥0.05),苦味高钙奶中的寡肽、游离氨基酸含量,特别是苦味氨基酸含量显著高于无苦味牛奶样品(p<0.05),苦味牛奶样品中的蛋白酶活性显著高于无苦味牛奶样品(p<0.05),同时高钙奶中添加的碳酸钙和稳定剂中的蛋白酶也有较高活性。高钙奶苦味主要是由于牛奶中的内源或外源性蛋白酶水解酪蛋白,生成苦味的游离氨基酸、寡肽等造成的,针对这一原因,可通过提高原料乳和添加剂的卫生质量、控制生产加工过程中的卫生、调整和改进杀菌工艺等方法,以避免高钙奶的苦味问题。 相似文献
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In the present work, we used high resolution ultrasonic spectroscopy for the analysis of heat coagulation process in milks. Two skim milks recombined from powder samples differing by their preheating treatments as well as dairy ingredients (phosphocasein, whey protein isolate, and a milk model) were monitored while submitted to a temperature of 120°C. Three stages in the precoagulation and coagulation processes can be distinguished in the ultrasonic velocity and attenuation profiles. The first stage shows a very sharp decrease in ultrasonic velocity and increase in ultrasonic attenuation. This could be attributed to fast denaturation and aggregation of whey proteins and precipitation of calcium phosphate. In the second stage, small changes in ultrasonic velocity are observed, the rate of which depends on the nature and pH of the samples. In the third stage, a sharp decrease in ultrasonic velocity and attenuation is recorded for all samples, which corresponds to the coagulation and formation of the gel network. After coagulation, a very small change in ultrasonic velocity and attenuation was observed. From the ultrasonic measurements, we determined the heat stability vs. pH profiles of the different samples studied. The observed ultrasonic attenuation profiles were also interpreted in terms of changes in the size of casein micelles and coagulation processes. 相似文献