辛烯基琥珀酸纳米淀粉酯颗粒的制备及其食品级Pickering乳液的特性

利用醇沉法结合辛烯基琥珀酸酐酯化反应,成功制备能够稳定食品级Pickering乳液的纳米淀粉酯颗粒。以纳米淀粉酯粒径、Zeta电位、光学和荧光显微镜观察为指标,研究颗粒添加量、pH值和离子强度对Pickering乳液稳定性的影响。结果表明,体系pH值和离子强度在一定范围内改变了纳米淀粉酯的电位值,其中在极端pH值或者高离子强度条件下,纳米淀粉酯的电位绝对值最低。研究发现,当纳米淀粉酯添加量为2.0 g/100 mL时,制备的Pickering乳液具有较强的稳定性;此外,在体系pH 6.0并且KCl浓度为0.005 mol/L条件下,Pickering乳液分散相油滴的直径最小并且分布均匀,油滴不容易发生聚结,Pickering乳液的稳定性最高。     

球磨-酯化复合改性槟榔芋淀粉对Pickering乳液形成的影响

为了提高淀粉颗粒的乳化能力,以球磨-酯化复合改性槟榔芋淀粉为颗粒乳化剂,大豆油为油相,制备水包油型Pickering乳液.采用激光粒度仪、研究级正置显微镜、流变仪等对Pickering乳液外观、液滴粒径、显微形态及动态流变特性进行表征,考察淀粉颗粒质量浓度(1、5、10、20、30 mg/mL)和油相体积分数(10％、...     

重质碳酸钙稳定的O/W型Pickering乳液及其粒度效应研究

以重质碳酸钙作为颗粒稳定剂制备O/W型Pickering乳液,利用球磨法获得不同尺寸的碳酸钙,研究碳酸钙颗粒粒度、颗粒浓度、油相比例对乳液类型、稳定性、微观形貌及流变学特性的影响。结果表明:球磨后不同粒度的碳酸钙均能稳定Pickering乳液,且该乳液具有一定的储存稳定性,固体颗粒粒径对乳液性质有一定的影响,乳液粒径随固体颗粒粒径的增大而增大;随固体颗粒浓度的增大,乳液的乳析指数、乳液粒径以及乳液黏度均减小,但当固体颗粒浓度达到9g/100 mL以上时,增加颗粒浓度对乳液粒径影响不大;增大油相比例会使乳析指数减小、乳液粒径和黏度增大。     

Microencapsulation properties of two different types of n-octenylsuccinate-derivatised starch

Aim of the present study was to evaluate the suitability of two different types of n-octenylsuccinate-derivatised starch, which significantly differed in viscosity, for microencapsulation of a fish oil rich in long-chain polyunsaturated fatty acids. Stable feed emulsions for microencapsulation could be prepared with both types of n--octenylsuccinate starch, however at a high oil load (50%), a low pH (pH 4.5) of the emulsion was crucial for emulsion stability. At 50% oil content, lower oil droplet size in reconstituted spray-dried emulsions and lower content of non-encapsulated oil was reached by low viscosity starch compared to medium viscosity starch. Conjugated dienes were significantly increased in samples with a high oil load and 40% starch indicating that to a certain degree lipid oxidation already occurred in these samples during the drying process. Finally, moderate spray-drying conditions must be considered as advantageous, since ballooning of the particles and lipid oxidation during spray drying were limited compared to drying at high spray-drying temperatures.     

Emulsifying characterization of hens egg yolk proteins in oil-in-water emulsions

Emulsifying properties of egg yolk as a function of pH and oil volume were studied. Egg yolk proteins formed larger emulsion particles at pH 3 and the mean droplet size of the emulsions was decreased with increasing pH. A linear relationship between turbidity and mean droplet size of egg yolk emulsions could not be obtained. This may be due to the floculation of the emulsions. Egg yolk proteins formed thicker multilayers at low oil volume, however total protein adsorption ratio against original proteins was 55–65%, independent to protein and oil concentration. Electrophoretic analysis of the egg yolk emulsion revealed that the main components to adsorb at the interface was glanular lipovitellins, even though its emulsifying property was lower than that of plasma because of poor solubility at low ionic strength (0.1 M NaCl) at pH 7. These results indicate that the main contributor for egg yolk emulsion is granules and it can affect the emulsifying properties of egg yolk at different pH values.     

大豆和油菜籽油体形成的天然乳液的稳定性及胃肠道消化特性

为了解大豆和油菜籽油体所形成的天然乳液的稳定性及其在胃肠道中的消化特性,本研究分析了从大豆和油菜籽中所提取植物油体的基本组成;利用激光粒度分析仪、旋转流变仪和激光共聚焦扫描显微镜对大豆和油菜籽油体形成的天然乳液进行了粒径分析、黏度分析和微观结构观察;此外,考察两种油体天然乳液在环境应力（pH值、离子浓度和热处理）条件下的稳定性和在胃肠道消化过程中蛋白和粒径的变化。结果表明：大豆油体蛋白质量分数显著高于油菜籽油体（P＜0.05）,而大豆油体脂质质量分数显著低于油菜籽油体（P＜0.05）。两种油体所形成天然乳液的粒径都随着油体质量分数的增加而减小,其中大豆油体所形成天然乳液的粒径明显低于油菜籽油体所形成天然乳液。通过激光共聚焦扫描显微镜观察到的两种油体微观结构也表明大豆油体所形成的天然乳液粒径小于油菜籽油体所形成的天然乳液,其中大豆油体天然乳液液滴界面覆盖了大量的油体蛋白。大豆油体乳液的黏度高于油菜籽油体乳液。大豆油体乳液在pH 4.0和NaCl浓度分别为100、200 mmol/L时粒径较大,表现不稳定,而油菜籽油体乳液受NaCl浓度的影响较小。大豆油体乳液在85 ℃处理前15 min比较稳定,而油菜籽油体乳液对温度比较敏感。大豆油体乳液在180 min胃消化过程中,乳液的蛋白在前30 min分解较快,然后逐渐趋于平缓,而油菜籽油体乳液在整个胃消化过程中蛋白逐渐被分解。两种油体乳液经胃消化180 min后粒径都明显大于起始乳液粒径,而大豆油体乳液经小肠消化180 min后,其粒径较胃消化过程中明显减小,而油菜籽油体乳液粒径变化不明显。     

水相pH和Na+对微晶纤维素与猪油的Pickering乳液稳定性的影响

考察水相pH和Na+浓度对微晶纤维素（MCC）和猪油形成的Pickering乳液稳定性的影响。分别将不同pH和含有1% MCC的不同Na+浓度的水相与等体积的油相混合、制备MCC-猪油Pickering乳液,分析不同水相pH（pH4~9）和不同Na+浓度（0~500 mmol/L）条件下,乳液的外观结构、乳析指数、微观结构、粒径、Zeta电位以及乳液流变特性的变化。结果表明,在pH5~8条件下,MCC-猪油Pickering乳液均未出现明显分层现象,且乳析指数未发生变化,乳滴粒径小于pH4和pH9条件,具有更好的黏度和抗剪切能力,其中,在pH6条件下表现出最好的稳定效果。当Na+浓度在300 mmol/L及以上时,随着静置时间的延长,乳液稳定性下降的越快;Na+浓度为400 mmol/L时,乳液静置3 d会出现分层现象。随着Na+浓度的升高,静电屏蔽作用使得乳液颗粒粒径不断增大,Zeta电位绝对值降低,黏度和抗剪切能力下降。中低pH（pH5~8）水相及低Na+浓度（≤300 mmol/L）水相条件下MCC-猪油Pickering乳液具良好的乳化稳定性,但pH4和pH9及高Na+浓度（>300 mmol/L）水相条件下乳液的稳定性欠佳。探讨不同pH和Na+浓度条件对MCC-猪油Pickering乳液乳化稳定性的影响及其原理,为其在功能性预乳化肉制品的加工与应用提供一定参考。     

疏水改性藜麦淀粉的制备及其Pickering乳液乳化性研究

本文用碱提法从藜麦种子中提取藜麦淀粉,并用辛烯基琥珀酸酐(Octenyl Succnic Anhydride,OSA)对提取的藜麦淀粉进行疏水改性,得到了辛烯基琥珀酸淀粉酯(OSA淀粉)。通过傅里叶红外光谱、扫描电子显微镜对比原淀粉和OSA淀粉颗粒的结构和形态,发现OSA基团成功接到淀粉表面,在形态上表现为颗粒表面轻度破坏。通过测定乳液微观结构,乳滴粒径及乳化指数(EI),分析了OSA淀粉取代度、颗粒浓度和油相比例等因素对Pickering乳液乳化性的影响。结果表明,乳滴粒径随OSA淀粉取代度或淀粉颗粒浓度的增加而减小、EI值随OSA淀粉取代度或淀粉颗粒浓度的增加而提高,乳液乳化性增强。当油相比例的增加时,乳滴粒径增大,且在食品添加剂允许OSA添加量的范围内,取代度为1.43%的OSA淀粉颗粒的EI值达到最大值75.48%,乳化性最好。研究表明OSA改性藜麦淀粉作为Pickering乳液的稳定颗粒在食品领域有极大的应用潜力。     

大豆酸溶蛋白/大豆多糖纳米乳液的制备及表征

纳米乳液具有抗沉降和抗乳析动力学稳定性,是提高脂溶性物质的水溶性和生物利用度的有效手段。本论文探索了大豆酸溶蛋白(acid soluble soy protein,ASSP)/大豆多糖(soy soluble polysaccharides,SSP)纳米乳液的制备工艺,系统分析了p H条件、加油量、压力、质量比、热处理等因素对纳米乳液形成以及稳定性的影响。结果表明:在p H 3.0~4.0范围内,酸溶蛋白与大豆多糖质量比1:4,400 bar的压力下,可以很好地包埋5%~20%的油,此时制备的乳液粒径为269.33±2.26 nm,并且储存60天粒径无显著性变化(P0.05)。p H条件、高压以及热处理对乳液的稳定性具有显著影响(P0.05),ASSP/SSP纳米乳液适合食品工业中的酸性介质、高温以及高盐环境下的应用。通过果胶酶水解大豆多糖,对酸溶蛋白/大豆多糖纳米乳液的形态学进行了研究分析,结果表明酸溶蛋白/大豆多糖纳米乳液的微滴表面被多糖覆盖,大豆多糖能够很好地固定在微滴表面并使得纳米乳液微滴稳定和分散。     

Emulsion preparation with modified oat bran: Optimization of the emulsification process for microencapsulation purposes

The objective of this study was to develop an oil in water (o/w) emulsion using modified oat bran (MOB). Test emulsions containing 5% rapeseed oil were prepared by varying the content of MOB and maintaining the solid content constant (20%) by using corn syrup solids (DE34) as filler. A central composite (CC) design was applied as a tool to obtain a stable and low viscosity emulsion. The effect of concentration of MOB, homogenization pressure and homogenization time on the emulsion stability (at 25 °C for 26 h), viscosity and particle size were determined. The concentration of MOB in the recipe significantly influenced the emulsion properties whereas the homogenization pressure and the homogenization time had no statistically significant influence on the emulsion properties. Further experiments, however, showed that increasing the homogenization pressure decreased the emulsion viscosity. Emulsions prepared using a MOB concentration of 1.55% and homogenized at 60 MPa for 10 min, exhibited excellent stability, low viscosity, small enough mean particle size and narrow particle size distribution. Modified oat bran containing deamidated oat protein possesses an excellent capability to form stable emulsions which might be suitable for microencapsulation.     

超细化豆渣作为皮克林乳液稳定剂的特性研究

将普通粉碎豆渣进行湿法超细化处理,研究超细化豆渣作为皮克林乳液稳定剂的特性,考察颗粒浓度、油相体积分数、pH及离子强度对乳液液滴尺寸、稳定性和流变学性质的影响。研究发现,超细化提升了豆渣颗粒的悬浮稳定性,且当油相分数φ=0. 6,水相中豆渣颗粒质量分数≥0. 4%时,形成皮克林乳液的粒径为80～140μm,在1～30 d存放期内乳析指数未发生显著变化。水相pH=7时乳液的粒径最大,pH降低时乳液的平均粒径呈单调递减,且乳液稳定性增强。水相中NaCl浓度在100～350 mmol/L对乳液粒径无显著影响。研究还表明,超细化豆渣稳定的皮克林乳液为剪切变稀型流体,其流变学特性受颗粒添加量及水相pH的影响。此研究表明,超细化豆渣具有良好稳定O/W型皮克林乳液的能力。     

透射光浊度法对食品油脂乳状液稳定性的快速测定

采用透射光浊度法研究食品油脂乳状液的粒径大小、分布与其稳定性的关系,并且与激光粒度仪法、离心分析法等方法进行比较分析。结果表明：透射光浊度法与激光粒度仪法测定结果基本一致,可见,透射光浊度法是一种简便、可靠的预测乳状液稳定性的方法。     

大豆分离蛋白-甜菊糖苷复合稳定剂制备纳米乳液

为适应食品工业对食品配料天然绿色、营养健康的追求,采用大豆分离蛋白（soy protein isolate,SPI）-甜菊糖苷（steviol glycosides,STE）复合体系作为稳定剂制备纳米乳液,研究稳定剂组成、微射流参数、油相质量分数等对纳米乳液形成的影响,并对乳液稳定性及微结构进行表征。结果表明：油相质量分数为10%时,单独SPI（1%）制备的乳液粒度较大（d43为0.548 μm）,稳定性差。添加0.25%～1% STE时,乳液粒度分布更均匀,粒度变小;当STE质量分数为0.5%和1%时,乳液粒度小于200 nm,且具备较好的贮存稳定性（30 d）。添加2% STE会导致乳滴表面蛋白被完全取代,从而弱化乳液的长期稳定性。微射流压力、均质次数及STE质量分数的增加均可降低乳液粒度,但油相质量分数的增加可增加乳液粒度。进一步将纳米乳液进行冷冻干燥处理,可制得结构化良好且高油含量的油粉;相对于单独SPI稳定的结构化乳液,SPI-STE纳米乳液制得的油粉结构更为完整,表面黏性小。     

紫苏油乳液的制备及其稳定性影响因素研究

本研究针对紫苏油不饱和脂肪酸含量高,在储存过程中易氧化等特点,采用高压均质法制备紫苏油乳液,通过激光粒度仪分析乳液粒径大小与分布,通过TURBISCAN浓缩体系稳定性分析仪监测乳液稳定性的变化趋势,探究乳化剂用量、油水比例、高压均质的压力和循环次数及HLB值对紫苏油乳液稳定性的影响,以提供一种紫苏油缓释方法,拓宽紫苏油在食品中的应用范围。试验结果表明,紫苏油乳液粒径主要分布在300~670nm;乳化剂浓度由0.2%增加至1.2%,乳液粒径下降,稳定性提高;浓度为1.2%时,乳液平均粒径(d=513nm)最小。随着油水比增加,紫苏油乳液稳定性下降;高压均质过程对乳液的稳定性有显著影响,压力越大,循环次数越高,乳液越稳定。与单一乳化剂(HLB=15)相比,复配乳化剂(HLB=8~14)可制得更为稳定的乳液,且当HLB值为11时,紫苏油乳液的平均粒径(d=374nm)最小,乳液稳定性最佳。     

改性淀粉基鲢鱼油皮克林乳液的制备及其理化特性研究

为提高鲢鱼鱼糜加工副产物-鲢鱼脂肪的利用率,以六种改性淀粉为固体颗粒、鲢鱼油为油相制备皮克林乳液,考察了淀粉种类、淀粉添加量(1%、2%、3%、4%、5%,w/w)、油水比(0.1、0.2、0.3、0.4、0.5、0.6,w/w)和离子强度(氯化钠浓度:0、0.1、0.2、0.3、0.4、0.5 mol/L)对乳液的理化特性(粒径、Zeta电位、乳化特性、稳定性、流变特性、微观结构)的影响。结果表明,六种改性淀粉中,辛烯基琥珀酸玉米淀粉颗粒粒径最小(146.73 nm),接触角最大(71.5°),制备的皮克林乳液最稳定。油水比和淀粉添加量显著影响了乳液的理化特性,较高的油水比(0.5～0.6)和淀粉添加量(4%～5%)使乳液表现出凝胶特性,适量(0.3～0.5 mol/L)氯化钠的添加可促进乳液微絮凝,增强乳液稳定性。乳液CLSM观察微观结构发现,乳液液滴的粒径随淀粉添加量的增加而减小,在2%～5%淀粉添加量下可观察到油滴被淀粉颗粒完全包裹,形成了致密的界面膜。油水比、淀粉添加量和氯化钠浓度分别为0.5、4%和0.4 mol/L时,乳液性能较佳。本研究可为功能性乳液配料的制备及其在功能...     

Modified pectins in whey protein emulsions

In the present work high methoxylic, low methoxylic and amidated pectins were tested for their actions in whey protein emulsions using a broad variation in the emulsion composition (content of protein, pectin, oil) and the solvent conditions (pH, ionic strength). Emulsifying activity index, long term stability and the particle size of the emulsions were determined, protein and galacturonan content of the serum were analysed after centrifugation. A strong relationship was found between emulsion stability and degree of esterification of the pectin, the influence of pectin amidation was relatively low. There were formed stable electrostatic complexes between the protein and the carboxylic groups of the pectin. They seemed to be much more important for emulsion stability than the hydrophobic or hydrogen bonds. The emulsion properties varied in dependence on the content of the single emulsion components and on the solution conditions. All pectins used stabilized the whey protein emulsions if their concentration was high enough. For any individual utilization it is necessary to choose the best suitable pectin.     

均质条件对辛烯基琥珀酸淀粉酯制备的水油乳化体系粒径的影响研究

通过离心法、分光光度计法、电导率法证明了辛烯基琥珀酸淀粉酯具有良好的乳化性和乳化稳定性。以低黏度辛烯基琥珀酸淀粉酯为乳化剂,以大豆油为乳化对象,利用激光粒度仪和光学显微镜探讨了均质转速、均质温度、均质时间、均质pH对辛烯基琥珀酸淀粉酯制备的乳化体系粒径的影响。结果表明:均质pH对乳化体系粒径具有显著的影响;均质时间越长和均质转速越大,乳化体系的粒径越小;均质温度对乳化体系粒径影响较小。     

Production and stabilization of a flaxseed oil multi-layer emulsion containing sodium caseinate and pectin

The purpose of this research is the evaluation of a flaxseed oil-in-water emulsion, stabilized by a multi-layer structure consisting of sodium caseinate (Na-caseinate) and pectin to provide a basis for the combination of these materials for future studies. In the first step, the o/w emulsion (10 g oil, 90 g aqueous phase, and a pH 6.8) with varying concentration of Na-caseinate was investigated. Second, the pectin solution (0.05–1.5 g/100 g solution) was added to the primary emulsions and the pH was adjusted to 3.0. The emulsions were characterized by mean particle size (dynamic light scattering and static light scattering techniques), ζ-potential, turbidity value, creaming index, and the visualization of the microstructure. A clear separation of the oil phase at low protein contents and destabilizing by depletion flocculation at high protein content were observed. Extensive droplet flocculation and coalescence were determined until the pectin concentration reached 0.5 g/100 g solution for the secondary emulsion. After 7 days of storage, a 1.5 g/100 g solution pectin content had good stability with a relatively small size distribution, high turbidity value, and no cream phase separation.     

Stabilization of soybean oil body emulsions using κ, ι, λ-carrageenan at different pH values

Oil bodies, with their unique structural proteins, oleosins, are known to be useful in foods and other emulsion systems. The influence of ??, ??, and ??-carrageenans on the stability of soybean oil body emulsions at different pH values (pH 3, 4, 5 and 7) was investigated by particle electrical charge, particle size distribution, creaming stability and confocal laser scanning microscopy measurements. In acidic environment (pH 3, 4 and 5), the droplet charge of soybean oil body emulsions stabilized with carrageenan decreased with increasing carrageenan concentration for all types of carrageenan investigated, suggesting their adsorption to the oil body droplet surfaces. Extensive droplet aggregation and creaming were observed in the emulsions stabilized with ??-carrageenan at pH 3 and 5, indicating that soybean oil body droplets were bridged by carrageenan. At pH 7, there was no significant change in the droplet charge of soybean oil body emulsions stabilized with three types of carrageenan, but the emulsions stabilized with ??-carrageenan were more stable to creaming due to depletion flocculation than the emulsions stabilized with ?? or ??-carrageenan after seven days storage. The probable reason was that ??-carrageenan, which had the most densely charged helical structure, was most effective at creating highly charged interfacial membranes, thus reducing the depletion flocculation to occur.     

Ability of whey protein isolate and/or fish gelatin to inhibit physical separation and lipid oxidation in fish oil-in-water beverage emulsion

The effect of pH on the capability of whey protein isolate (WPI) and fish gelatin (FG), alone and in conjugation, to form and stabilize fish oil-in-water emulsions was examined. Using layer-by-layer interfacial deposition technique for WPI–FG conjugate, a total of 1% protein was used to prepare 10% fish oil emulsions. The droplets size distributions and electrical charge, surface protein concentration, flow and dynamic rheological properties and physiochemical stability of emulsions were characterize at two different pH of 3.4 and 6.8 which were selected based on the ranges of citrus and milk beverages pHs, respectively. Emulsions prepared with WPI–FG conjugate had superior physiochemical stability compare to the emulsions prepared with individual proteins. Higher rate of coalescence was associated with reduction in net charge and consequent decrease of the repulsion between coated oil droplets due to the proximity of pH to the isoelectric point of proteins. The noteworthy shear thinning viscosity, as an indication of flocculation onset, was associated with whey protein stabilized fish oil emulsion prepared at pH of 3.4 and gelatin stabilized fish oil emulsion made at pH of 6.8. At pH 3.4, it appeared that lower surface charge and higher surface area of WPI stabilized emulsions promoted lipid oxidation and production of hexanal.