方便米饭微波复热过程温度分布的尺寸效应

为了更好的将微波加热技术应用于食品的复热过程,解决受热过程“冷点”的出现,该文运用微波工作站和光纤探针在线监测的方法,结合轴线分析与温度变化系数计算,综合考察了尺寸效应对冷藏方便米饭微波复热过程中温度分布的影响。结果表明：在相同半径下,随高度/直径比（L/D）的增加,米饭内部高温点由中心向周围转移;在L/D≤0.75时,半径增大导致高温点向几何中心区域集中;在0.75≤L/D≤1.25时,半径增大温度热点向边角和表面转移。基于标准偏差的温度变化系数（COV）分析温度均匀性,得出微波加热均匀性最好的圆柱型米饭为半径4?cm、高度4?cm。通过对微波复热米饭过程的温度场进行数值模拟,发现预测与试验结果具有较高的匹配度,决定系数R2在0.990～0.999。     

应用乳化剂改善速冻春卷皮加工特性及感官品质

为研究乳化剂在速冻春卷皮中应用的可行性及效果,该文利用黏度计、质构仪等研究了单甘脂、硬脂酰乳酸钠、蔗糖酯、双乙酰酒石酸单(双)甘油酯和卵磷脂5种乳化剂对冻藏春卷皮的面浆黏度、失水率、力学特性及感官品质的影响。结果表明,这5种乳化剂在速冻春卷皮中的适宜添加量分别为0.3%、0.2%、0.3%、0.3%、0.2%。乳化剂的添加可使冻藏春卷皮的面浆黏度变得更加稳定;单甘酯可降低春卷皮中的水分的散失,从而能显著延缓春卷皮硬度和拉伸性能在冻藏过程中的劣变(P0.01);蔗糖酯和双乙酰酒石酸单(双)甘油酯也能明显提高春卷皮的保水性(P0.05);乳化剂的添加也在不同程度改善了速冻春卷皮的力学特性;同时,配料中添加0.3%单甘酯可以显著改善春卷皮的表皮色泽、外部形状和炸制熟化均匀度,且不会对滋味和香味产生不良影响。因此,乳化剂在春卷皮中的应用可以在一定的程度上改善速冻春卷皮的品质,但不同的乳化剂的作用效果有所差异。研究结果为乳化剂能在速冻春卷中被广泛地应用提供理论基础。     

脉冲电场预处理胡萝卜片微波干燥试验

为考察脉冲电场预处理对胡萝卜片微波干燥特性的影响,以胡萝卜片微波干燥单位时间降水率和复水率作为试验指标,设计了4因素（脉冲频率、电场强度、微波功率密度和切片厚度）二次回归正交组合试验,得出经预处理后胡萝卜片微波干燥失水速率曲线。用SPSS软件进行回归分析,得到预处理后胡萝卜片微波干燥动力学方程和各指标回归方程,并对指标进行了综合优化。结果表明：经脉冲电场预处理后胡萝卜片微波干燥动力学方程分段适用Page模型;脉冲频率和电场强度对胡萝卜片微波干燥单位时间降水率影响显著;脉冲频率对复水率影响显著,电场强度对复水率影响不显著;最优工艺组合为脉冲频率30 Hz、电场强度2.0 kV/cm、微波功率密度1.0 W/g和切片厚度4.0 mm;在最优工艺条件下,胡萝卜片单位时间降水率和复水率均得到提高。     

草莓涂膜保鲜研究

试验研究以"蜂胶/魔芋胶"为原料制成的复合保鲜液涂膜处理对草莓贮藏保鲜品质的影响,测定比较魔芋胶涂膜,蜂胶涂膜对草莓的感官品质、失重率、维生素C含量及可溶性固形物等指标的影响。结果表明:"蜂胶/魔芋胶"复合涂膜液对草莓保鲜效果较好,15d后的失重率仅为8.53%,维生素C含量为59.68mg/100g,可溶性固形物含量为7.26%。综合比较3种复合保鲜液,"蜂胶/魔芋胶"复合涂膜液有效地减少了营养成分和水分的损失,可延长货架期和保持其最佳食用品质。     

两级泡沫分离废水中大豆蛋白的工艺

为了有效处理高浓度大豆蛋白废水,在研究初始pH值、表观气速和温度特别是在较高温度（60℃）对泡沫分离大豆蛋白废水效果影响的基础上,建立了可同时提高富集比和回收率的两级泡沫分离工艺。在60℃时,对大豆蛋白质量浓度为4.0 g/L的废水泡沫分离,富集比比常温时提高4倍多。两级泡沫分离工艺中,第一级分离在大豆蛋白质量浓度为4.0 g/L,初始pH值为7.0,表观气速0.133 cm/s,60℃下操作,富集比为7.71,残液作为第二级泡沫分离的进料;第二级分离先在20℃,表观气速0.133 cm/s下进行,待塔顶     

杏鲍菇渗透脱水联合隧道式微波干燥工艺优化

为优化杏鲍菇渗透脱水联合隧道式微波干燥工艺,采用三因素二次正交旋转组合设计,分析了浸渍时间、微波功率和传送速度对产品的复水率、亮度L*、多糖保持率和单位脱水能耗的影响。结果表明:浸渍时间、微波功率和传送速度对产品的复水率、亮度L*和多糖保持率均影响显著,但单位脱水能耗受浸渍时间影响显著,受微波功率和传送速度影响不显著。在此基础上,由试验数据推导二次回归模型并对变量进行响应面分析,得到优化的联合干燥工艺条件:浸渍时间128 min,微波功率7.2 W·g-1,传送速度480 r·min-1。研究结果为杏鲍菇渗透脱水联合隧道式微波干燥的工业化生产提供了理论依据。     

秸秆微波水热炭和活性炭理化及电化学特性

为了解秸秆微波酸催化水热炭和碱活化活性炭形成机制和理化特性演变规律,该研究开展了不同柠檬酸质量分数下的秸秆微波水热和活性炭的制备试验,并研究了水热炭和活性炭理化及其电化学特性。结果表明,随柠檬酸质量分数的增加,秸秆水热炭的产率、挥发份和H含量减少,而其灰分、固定碳、C和高位热值增加,且酸质量分数为10%后趋于稳定。柠檬酸质量分数为10%时,水热炭的碳微球结构最丰富,其比表面积和孔体积最大,且以中孔为主。10%柠檬酸水热炭在900℃下经KOH活化后的活性炭产率为8%～11%,活化气体产率为32%～35%,且以CO和H_2为主。900℃活性炭的比表面积为1 250～1 570 m~2/g,总孔体积为1.00～1.20 cm3/g,孔径为3.55～4.10 nm,且以中孔和微孔为主。当电流密度为1 A/g,水稻、玉米和油菜秸秆活性炭的比电容分别为160.54、150.12和155.17 F/g,且循环5 000次后的电容保持率分别为91.04%、88.12%和89.06%,表现出较好的循环稳定性。水稻秸秆水热炭和活性炭的产率、灰分、碳转化率、能量转化率、比表面积、总孔体积、比电容和电容保持率最大。     

纳米SiO2对PVA基复合涂膜包装材料成膜透湿性能的影响

为改善聚乙烯醇（PVA）涂膜的阻湿保鲜效能特性,该文采用添加纳米SiO2对PVA基复合涂膜包装材料进行改性,应用响应曲面方法研究SiO2、硬脂酸、戊二醛对三元复合涂膜材料成膜效能特性的影响及交互作用。结果表明：加入纳米SiO2改性可有效提高PVA基复合涂膜包装材料的阻水、阻湿性能,优化组成膜透湿率8.18 g/(m2·d)比对照组（不添加纳米SiO2的PVA复合膜）降低26.61%（p<0.05）;硬脂酸、戊二醛对复合涂膜材料成膜透湿率的影响与纳米SiO2存在显著的交互作用,每100 mL 0.05 g/mL的PVA溶液中纳米SiO2添加量在小于0.05 g范围内随着SiO2含量增大,复合涂膜材料成膜透湿率随硬脂酸、戊二醛的比例增加而降低,阻湿性能提高。     

基于转换点调控的怀山药多相态微波干燥及品质特性

为解决冻干和冻干-微波真空联合干燥技术存在的耗时长、能耗高、设备成本高等问题，同时获得品质较好的干制品，以怀山药为对象开展多相态微波干燥(multiphase microwave drying，MMD)研究，通过不同微波功率加载方案实现转换点调控，探究转换点干基含水率（0.36、0.59、0.79 g/g）对怀山药干制品品质的影响。并以真空冷冻干燥、微波冷冻干燥和微波真空干燥为对照,研究不同干燥方式对怀山药干燥特性、能耗和品质特性（复水性、收缩率、色泽、硬度、脆度、微观结构）的影响。结果表明：随着微波功率水平的增加，怀山药MMD转换点干基含水率增大，产品复水性降低，收缩程度增大，硬度变大，细胞结构破损程度增加。MMD方案Ⅰ（转换点干基含水率0.36 g/g）干燥时间与微波冷冻干燥相比缩短31.3%，能耗相比真空冷冻干燥、微波冷冻干燥分别降低68%、34%，同时，所得怀山药干制品具有良好的品质和均匀的微观孔隙结构，其复水比（2.44±0.04）、收缩率（0.88±0.02）、色泽、硬度（4.95±0.45）、脆度（2.48±0.51）与微波冷冻干燥无明显差异（P>0.05）。微波真空干燥虽所需能耗低，但其产品复水性最差，收缩最为严重。综合考虑高效低能耗干燥与产品品质提升的需求，可通过转换点调控的多相态微波干燥实现高品质怀山药加工。     

微波辅助提取葡萄皮中花色苷的动力学和热力学特性

为拓展微波辅助提取技术在食品工业领域的应用,研究了微波辅助技术对提取葡萄皮中花色苷的作用,并对其动力学和热力学进行了评价。结果表明：柠檬酸浓度、液料比、提取时间和微波功率可以显著影响总花色苷提取率。采用高浓度柠檬酸水溶液（1.00?mol/L）提取的总花色苷含量（172.99?mg/100?g）是低浓度柠檬酸水溶液（0.02?mol/L）提取的总花色苷含量（43.48?mg/100?g）的4倍。此外,在实验选取的动力学模型中,指数衰减模型可以更好的拟合提取动力学数据（R2＞0.9875）。微波辅助提取葡萄皮中花色苷的有效扩散系数（2.12～4.87×10-11?m2/s）随着微波功率的增加而增大。微波辅助提取过程的热力学参数表明微波提取方式有利于传质过程。所得研究结果将为微波辅助提取技术的工业化应用提供理论依据。     

不同工艺生产大豆分离蛋白的成膜性能

为了制作出具有良好机械性和阻隔性的大豆分离蛋白可食性膜,优选出成膜性能优良的大豆分离蛋白,该文研究了7种不同生产工艺下的大豆分离蛋白,分别以7种蛋白为材料制膜,测定其机械性能、水溶性、水蒸气透过性、O2透过性、脂质渗透性等性能,进行模糊综合评价,并用扫描电镜观察膜的表面结构。结果表明:GS5000型普通型未经造粒的大豆分离蛋白综合评价分数最高,表明其成膜性能优于其他6种大豆分离蛋白,并且电镜扫描照片也显示用其制出的膜结构更加致密,因此,GS5000型大豆分离蛋白比较适合制作可食性膜。该研究为进一步开发优质大豆分离蛋白膜进行了初步的探索。     

硬脂酸-胱氨酸-大豆分离蛋白复合膜的机械特性和吸湿性研究

以硬脂酸作为增塑剂，胱氨酸作为交联剂制备具有一定力学性能和良好抗湿性能的大豆分离蛋白复合膜。将膜放在25℃，相对湿度为50%的干燥器中平衡两天，用质构仪测定膜的抗拉强度(TS),延伸率(E(%))。在水分活度a_w为0.10～0.90的范围内研究了复合膜在25℃的吸湿特性。吸湿速率和吸湿等温线数据分别拟合到Peleg's 方程和GAB(Guggenheim-Anderson-de Boer)模型。结果表明：大豆蛋白复合膜的TS、延伸率E(%)以及吸湿速率随着硬脂酸和胱氨酸的添加比率显著地变化。硬脂酸和胱氨酸的最佳添加比率为40∶60(w/w)(每升蛋白质溶液中加入10 g混合添加剂)，此时，大豆蛋白膜的强度比原来提高2倍，并且有最佳的吸湿速率。吸湿数据和GAB 模型有很高的拟合度，拟合系数最高达0.99。     

Properties of cast films from hemp (Cannabis sativa L.) and soy protein isolates. A comparative study

The properties of cast films from hemp protein isolate (HPI) including moisture content (MC) and total soluble mass (TSM), tensile strength (TS) and elongation at the break (EAB), and surface hydrophobicity were investigated and compared to those from soy protein isolate (SPI). The plasticizer (glycerol) level effect on these properties and the interactive force pattern for the film network formation were also evaluated. At some specific glycerol levels, HPI films had similar MC, much less TSM and EAB, and higher TS and surface hydrophobicity (support matrix side), as compared to SPI films. The TS of HPI and SPI films as a function of plasticizer level (in the range of 0.3-0.6 g/g of protein) were well fitted with the exponential equation with coefficient factors of 0.991 and 0.969, respectively. Unexpectedly, the surface hydrophobicity of HPI films (including air and support matrix sides) increased with increasing the glycerol level (from 0.3 to 0.6 g/g of protein). The analyses of protein solubility of film in various solvents and free sulfydryl group content showed that the disulfide bonds are the prominent interactive force in the HPI film network formation, while in the SPI case, besides the disulfide bonds, hydrogen bonds and hydrophobic interactions are also to a similar extent involved. The results suggest that hemp protein isolates have good potential to be applied to prepare protein film with some superior characteristics, e.g., low solubility and high surface hydrophobicity.     

喷液包埋技术提高微波泡沫干燥后树莓浆果品质

为了在微波泡沫干燥浆果果浆后期喷施大豆分离蛋白和麦芽糊精混合液,使浆果干品表面形成可以降低活性成分降解的包埋层,研究了喷液包埋条件对果浆的干燥特性影响规律,分析了喷液包埋技术对浆果干品中活性成分的保护原因。选择树莓果浆为研究物料,采用微波泡沫干燥工艺,以微波强度、保护液成分质量比和起泡果浆与保护液质量比为影响因素,以物料含水率、干燥温度、活性成分降解率为目标因素,应用电镜对树莓果浆干品微观结构进行观察分析,应用高效液相色谱技术测定干品花青素成分。结果表明浆果微波泡沫干燥中的起泡剂与喷液包埋中保护液成分相近,工艺步骤衔接密切,不影响果浆干燥速度与温度;保护液可使干燥后干品表层形成致密包埋层,有效削弱氧气、光照对活性成分的降解作用,提高矢车菊色素与天竺葵色素2种花青素成分保存量(保存率75%);在微波强度14 W/g,大豆分离蛋白与麦芽糊精质量比3∶7,起泡果浆与保护液质量比4∶1的工艺条件下,可获得花青素和维生素C保留率高的树莓干品(提高20%)。在微波泡沫干燥过程中实施包埋技术可保护干燥后果浆中的活性物质,保证浆果制品营养价值。     

大豆分离蛋白成膜性研究

该文通过单因素试验和正交试验对大豆分离蛋白的成膜性进行研究。结果表明，大豆分离蛋白浓度、增塑剂(甘油)、还原剂(Na₂SO)、交联剂(谷氨酰胺转胺酶)对膜的性能有较大影响，最佳处理条件为：大豆分离蛋白5.0%、甘油1.5%、Na₂SO₃ 0.1%、TG酶0.2%，大豆分离蛋白浓度对膜性能影响最大，其次是甘油含量，Na₂SO₃和TG酶的浓度对膜性能影响较小。     

Degradation behavior of soy protein-wheat gluten films in simulated soil conditions

Films containing soy protein and wheat gluten were exposed to simulated farmland soil mix over a period of 30 days and monitored for degradation. The simulated farmland soil mix (topsoil/sand/Sunshine compost/vermiculite, 59:6:25:10, wt %) was mixed and stored at ambient humidity (48-55%) and temperature (20-24 degrees C); the soil mix was constantly maintained at 15% moisture by weight. Research focused on evaluating the effectiveness of gluten and cysteine additions on biodegradable behavior in the simulated farmland soil conditions. The four types of films, soy protein (S:G 1:0); soy protein with cysteine addition (S:G 1:0 + CYS); soy protein-wheat gluten (S:G 4:1); and soy protein-wheat gluten with cysteine addition (S:G 4:1 + CYS), were prepared at pH 7. 0 for degradation studies. Soy protein-gluten film rapidly degraded with 50% weight loss in about 10 days and with up to 95% weight loss in 30 days. Tensile strength and elongation of all soy protein-gluten films significantly decreased in 3 days. However, cysteine addition delayed the degradation rate of soy protein-gluten films. Soy protein-wheat gluten film disintegrated after 20 days in the simulated farmland soil environment. These results suggest that wheat gluten and cysteine addition to soy protein-based films could delay degradation rates due to their high disulfide contents.     

Rheological characterization of a novel functional food: tomato juice with soy germ

The rheological properties of tomato juice containing 1.5% soy germ were compared to plain tomato juice with and without soy protein isolate. This novel product was developed to provide a delivery system of carotenoids, soy protein, and significant isoflavone content without compromising the perceived juice characteristics of tomato product. Rheological tests depicted physical gel characteristics for all three products. Dynamic tests as a function of temperature showed that the stability and the compatibility between tomato juice and soy germ were higher as compared to soy protein isolate. The hydrophobic and electrostatic interactions between pectin and protein in the tomato soy protein isolate system were weakened as the temperature was increased. In the case of tomato juice with soy germ, the viscosity did not change during heating. The addition of soy germ increased the viscosity of tomato juice reinforcing the entire system without major qualitative effects on the rheological properties of plain tomato juice.     

预处理对微波联合气流膨化干燥黑毛豆仁品质的影响

通过对黑毛豆仁的水分含量、硬度、脆度、花色苷含量以及色泽等指标的测定,研究烫漂、冷冻、NaCl浸渍以及辐照4种不同的预处理方式对微波联合气流膨化干燥黑毛豆仁品质的影响。结果表明,适度的烫漂预处理可以钝化过氧化物酶,减少豆腥味的产生,降低膨化产品的水分含量,有利于保持产品色泽;冷冻预处理可使膨化产品的硬度降低,酥脆性提高...     

Lateral phase separation in adsorbed binary protein films at the air-water interface.

Lateral phase separation in two-dimensional mixed films of soy 11S/beta-casein, acidic subunits of soy 11 (AS11S)/beta-casein, and alpha-lactalbumin/beta-casein adsorbed at the air-water interface has been studied using an epifluorescence microscopy method. No distinct lateral phase separation was observed in the mixed protein films when they were examined after 24 h of adsorption from the bulk phase. However, when the soy 11S/beta-casein and AS11S/beta-casein films were aged at the air-water interface for 96 h, phase-separated regions of the constituent proteins were evident, indicating that the phase separation process was kinetically limited by a viscosity barrier against lateral diffusion. In these films, beta-casein always formed the continuous phase and the other globular protein the dispersed phase. The morphology of the dispersed patches was affected by the protein composition in the film. In contrast with soy 11S/beta-casein and AS11S/beta-casein films, no lateral phase separation was observed in the alpha-lactalbumin/beta-casein film at both low and high concentration ratios in the film. The results of these studies proved that proteins in adsorbed binary films exhibit limited miscibility, and the deviation of competitive adsorption behavior of proteins at the air-water interface from that predicted by the ideal Langmuir model (Razumovsky, L.; Damodaran, S. J. Agric. Food Chem. 2001, 49, 3080-3086) is in fact due to thermodynamic incompatibility of mixing of the proteins in the binary film. It is hypothesized that phase separation in adsorbed mixed protein films at the air-water and possibly oil-water interfaces of foams and emulsions might be a source of instability in these dispersed systems.     

Effects of Gelatinization and Moisture Content of Extruded Starch Pellets on Morphology and Physical Properties of Microwave‐Expanded Products

Extruded pellets were prepared from normal corn starch using a corotating twin‐screw extruder (25:1 L/D ratio, 31 mm diameter screw), and then expanded by heating in a conventional microwave oven for 70 sec. The effects of gelatinization level and moisture content of the extruded pellets on the morphology and physical properties of the microwave‐expanded products such as puffing efficiency, expansion bulk volume, and bulk density were investigated. The expanded shape and air cell structure differed according to the degree of gelatinization of the pellets. Maximum puffing efficiency and expansion volume with the pellets containing 11% moisture were achieved at 52% gelatinization. For this level of gelatinization, starch was extruded at 90°C barrel temperature. In addition, the moisture content of the pellets critically affected the expansion behavior. The maximum puffing efficiency and expansion volume were achieved in a moisture range of 10~13%. For optimum product shape and uniform air cell distribution, the pellets should undergo sudden release of the superheated vapor during the microwave‐heating. The expansion by microwave‐heating was optimized at ≈50% gelatinization.