Extraction of Total Phenolic Compounds, Flavonoids, Anthocyanins and Tannins from Grape Byproducts by Response Surface Methodology. Influence of Solid-Liquid Ratio, Particle Size, Time, Temperature and Solvent Mixtures on the Optimization Process

The current work concerns the optimization process of phenolic compounds solid liquid extraction from grape byproducts at high temperatures and short incubation times. The effect of five experimental parameters (solidliquid ratio, particle size, time, temperature and solvent mixture) mostly believed to affect the extraction process was undertaken. A first response surface methodology experimental design was used to optimize the solid-liquid ratio and milling time parameters. A second design was used for the optimization of the quantitative and qualitative parameters. The quantitative parameters studied are: total phenolic compounds, flavonoid content, total monomeric anthocyanin composition and tannin concentration. The qualitative parameters analyzed are: antiradical activity and antioxidant capacity. The second design was based on the use of time, temperature and solvent mixture as optimization parameters. The assays were first conducted separately revealing the best experimental conditions for the maximization of each response variable alone. A simultaneous response surface methodology of all the responses taken together was then conducted, showing the optimal extraction conditions to be: 93 minutes at 94?C and in 66% ethanol/water solvent. The maximal response values obtained for each parameter are: Total Phenolic Compounds yield (5.5 g GAE/100g DM), Flavonoid Content (5.4 g GAE/100g DM), Total Monomeric Anthocyanin yield (70.3 mg/100g DM), Tannin Concentration (12.3 g/L), Antiradical Activity (67.3%) and Total Antioxidant Capacity (393 mgAAE/L). All of the optimal values were acquired at 3 mL/g solid-liquid ratio and 6.8 min milling time. The obtained extracts could be used as natural bioactive compounds in several industrial applications.

Multiple Response Optimization of High Temperature, Low Time Aqueous Extraction Process of Phenolic Compounds from Grape Byproducts

In this study phenolic compounds extraction from grape byproducts was conducted using pure water as a solvent. High temperatures and low time incubation periods were used in the aim of reducing the cost of the process and heightening the phenolic compounds yield. Response surface methodology (RSM) was realized to study the effect of time and temperature on crushed and uncrushed grape pomace. The phenolic content was evaluated considering the quantity (total phenolics (TPC), flavonoids (FC), total monomeric anthocyanins (TMA) and tannins (TC)), and quality (antiradical activity (AA) and antioxidant capacity (AC)) of the extracts. High temperature low time extraction design used in this study was compared to the extraction process at moderate temperatures with relatively long periods of time. This was proved to ameliorate the quantitative extraction of phenolic compounds from grape pomace without affecting their bioactivity. Moreover, multiple response optimization showed the optimal extraction parameters to be 81?C and 140 minutes for the unmilled pomace samples, and 88?C and 5 minutes for the milled. TPC, FC, TMA, TC, AA and AC are almost the same for both optimums. Thus the possibility of replacing the milling process by the extraction time prolongation (for the unmilled pomace) of 135 minutes seems to be very plausible. HPLC analysis showed different quantity and diversity of extracted phenolics for the optimums. However this difference did not significantly affect the overall activity, showing that PC in the different extracts act in complete synergy all together leading to important biological properties. The obtained results using the extraction strategy adopted in this work could lead to several industrial applications.

桑葚葡萄复合果酒发酵工艺响应面法优化

以桑葚为主要原料,复配葡萄发酵制备桑葚葡萄复合果酒,以感官评分和酒精度为评价指标,通过单因素试验及响应面试验优化其发酵工艺,并对其发酵前后的理化指标及抗氧化活性进行测定。结果表明,与桑葚混合发酵的最适葡萄品种为玫瑰香葡萄,最佳发酵工艺条件为:桑葚汁与玫瑰香葡萄质量比9:1,发酵温度20℃,初始pH为4.4,初始糖度22°Bx。在此优化条件下,桑葚葡萄复合果酒的酒精度为7.86%vol,感官评分为87.3分。发酵60 h后,总糖、pH分别从219.60 g/L、4.40下降至60.70 g/L、4.26,DPPH和羟基自由基清除率分别提升了12.32%和24.03%,总酸、总酚和总黄酮含量分别上升了1.77 g/L、159.67 mg/L和34.46 mg/L。

响应面法优化红提黑布林复合果酒发酵工艺

为研究红提黑布林复合果酒发酵工艺,通过单因素试验探究红提与黑布林的质量比、果酒酵母添加量、初始糖度、发酵温度、发酵时间对复合果酒发酵品质的影响。以感官评分为响应值,采用响应面试验优化得到复合果酒的最佳发酵工艺参数。结果表明,复合果酒最佳发酵工艺条件:红提与黑布林的质量比1:1、果酒酵母添加量0.3%、初始糖度25%、发酵温度23℃、发酵时间5 d。在此优化条件下,所得果酒酒精度9.1%vol,残糖9.6%,感官评分91分,果酒呈橘红色,果香浓郁,口感醇厚。研究结果可为复合果酒发酵工艺提供参考。

Pectinases yeast production using grape skin as carbon source

Pectinases are used in Enology for some different utilities. Enzymatic preparations from moulds are a mixed of different enzymes with strong and unspe-cific activities. Some Saccharomyces cerevisiae pro-duce pectinases which can be used instead of com-mercial preparations. The objectives of this work were to study the enzyme secretion by one Saccharo-myces cerevisiae (CECT 11783) for growing on grape skin (industry oenological by-product) as carbon source. Preliminary experiments showed that the strain produced pectinases for growing on grape skin without any other carbon source. Statistical treat-ment (factorial design 25) was applied to evaluate the influences of related factors (agitation, temperature, presence of peptone and detergent in the medium and time of growth) Variables with the most significant interactions for pectinase production were agitation and nitrogen source concentration. Response surface methodology showed that a first order model was not adequate for results. Nevertheless, the built of a sec-ond order model offered a polynomial equation which surface predicted a maximum of activity (52.68 enzymatic units) for specific values of the studied variables (147.8 rpm of agitation and 15.9 g of pep-tone/ L culture medium).

桑椹葡萄复合果酒发酵工艺响应面法优化及其风味特征

以黑珍珠桑椹和赤霞珠葡萄为原料,进行桑椹葡萄复合果酒的研制,采用单因素试验及响应面试验对其发酵工艺进行优化,并通过气相色谱-质谱联用(GC-MS)技术分析其挥发性风味物质特征。结果表明,桑椹与葡萄混合发酵的最佳质量比为1∶4,最佳发酵工艺为:酵母接种量2.0%、发酵温度24℃和发酵时间9 d。在此最佳条件下,桑椹葡萄复合果酒酒精度为13.6%vol,感官评分为90分。GC-MS共鉴定出50种挥发性香气成分,包括醇类20种、酯类9种、酸类10种、醛类3种、酚类3种、酮类1种、醚类2种、烯烃类2种。桑椹葡萄复合果酒色泽暗紫、幽深沉稳,果香与酒香协调,是一款兼具桑椹和葡萄果酒特有风味和营养功能的美酒。

木纳格葡萄表皮蜡质提取工艺优化及其成分分析

表皮蜡质是影响果蔬耐贮性的重要因素之一,故本研究以木纳格葡萄为材料,采用响应面法对有机溶剂浸泡提取葡萄表皮蜡质的工艺进行优化分析,同时利用气相色谱-质谱联用技术(gas chromatography-mass spectrometry,GC-MS)对葡萄表皮蜡质成分及其含量进行鉴定分析。结果表明:在单因素基础上,响应面法优化蜡质提取最佳条件为二氯甲烷与正己烷混合比3:1 mL/mL,液料比2:1 mL/g,提取时间7.5 min,在该提取条件下,蜡质提取量为43.60±1.04 mg/100 g,这与响应面预测值相差0.98%。表皮蜡质经GC-MS检测,共鉴定出61种蜡质化合物,包括脂肪酸、烃类各13种,醇类10种,酯类9种,醛类5种,萜类4种,未分类化合物7种,其中脂肪酸的相对含量最高,占总蜡质含量的58.06%。这为深入研究葡萄表皮蜡质化学成分与果实采后品质之间的关系提供理论参考。

响应面法优化‘赤霞珠’葡萄皮可溶性膳食纤维的提取工艺

为探讨酶法提取葡萄皮渣可溶性膳食纤维的最佳工艺参数,以‘赤霞珠’葡萄酿造葡萄酒发酵结束后压榨分离得到的葡萄皮为原料,在pH值、酶用量、反应温度及反应时间等单因素试验基础上,采用响应面优化酶法提取工艺参数。经显著性及交互作用等分析方法结合验证试验得出,响应面回归方程与试验结果拟合性好,模型可靠;在本试验条件下酶法提取葡萄皮可溶性膳食纤维的最佳工艺参数为pH5.20、酶添加量507.00 U·g-1、活化温度44.50℃、活化时间5.00 h,此条件下葡萄皮可溶性膳食纤维提取率为31.20%。纤维素酶提取葡萄皮中可溶性膳食纤维方法可行,研究结果可为葡萄皮的利用提供参考。

响应面试验优化葡萄籽油提取工艺及其抗氧化性

目的:优化葡萄籽油的提取工艺,对葡萄籽油的抗氧化性进行研究。方法:通过响应面分析法,对葡萄籽油的提取工艺进行优化;比较不同物质的抗氧化性,以对超氧阴离子自由基、羟自由基、亚硝基的清除率和还原能力的大小为检测指标。结果:萄萄籽油最佳提取条件为提取温度58.136℃、提取时间1.703 h、料液比1∶5.627。优化后提取的萄萄籽油对超氧阴离子自由基的清除能力高于同等质量浓度的沙棘黄酮;对羟自由基的清除能力高于抗坏血酸;对亚硝基的清除能力显著高于抗坏血酸和沙棘黄酮;还原能力比较中,高于沙棘黄酮和抗坏血酸。结论:该工艺条件可行,葡萄籽油具有良好的抗氧化性。

葡萄皮渣多酚超声波辅助提取工艺响应面法优化及抗氧化活性研究

以酿酒葡萄皮渣为原料采用超声辅助法提取葡萄皮渣多酚,在单因素试验基础上固定超声功率100W、乙醇体积分数40%,采用三因素三水平的响应面试验优化设计方法,研究液料比、提取时间和超声温度对多酚得率的影响,依据回归分析得到最佳提取工艺条件为液料比16:1(mL/g)、超声提取时间57min、超声温度50℃。在此条件下葡萄皮渣多酚提取量为(42.51±1.21)mg/5g。以水溶性VE为对照物,通过DPPH法和铁氰化钾法对葡萄皮渣多酚的抗氧化活性进行体外评价,发现葡萄皮渣多酚具有较强的清除DPPH自由基能力和还原能力。由此可以得出,葡萄皮渣多酚具有一定的抗氧化活性,并在一定的范围内,其抗氧化活性与提取液的质量浓度具有较好的线性关系。

响应面法优化葡萄皮渣中可溶性膳食纤维的酸法提取工艺

目的:利用响应面法对葡萄皮渣中可溶性膳食纤维的酸法提取工艺进行优化。方法:在单因素试验基础上选取试验因素与水平,根据Box-Behnken试验设计原理采用四因素三水平的响应面分析法,依据回归分析确定各工艺条件的影响因素,以可溶性膳食纤维得率为响应值作响应面和等高线图。结果:在分析各个因素的显著性和交互作用后,得出葡萄皮渣可溶性膳食纤维提取的最佳工艺为盐酸的浓度0.40mol/L、提取温度75℃、提取时间90min、料液比1:12(g/mL),在此工艺条件下可溶性膳食纤维得率为47.56mg/g。结论:响应面回归方程与实验结果拟合性好,此模型合理可靠,可用于实际预测。

酿酒葡萄皮渣中白藜芦醇的提取及抗氧化、抗肿瘤活性研究

为了提高酿酒葡萄皮渣的综合利用价值,开发白藜芦醇新产品,对酿酒葡萄皮渣中白藜芦醇提取工艺进行研究。通过纤维素酶水解和乙酸乙酯萃取法提取自酿葡萄酒皮渣中的白藜芦醇,利用响应面分析法优化白藜芦醇提取的工艺条件并测定了白藜芦醇的抗氧化活性及对3种癌细胞(Hela、A549、PC-3)的生长抑制作用。结果表明,最佳提取工艺条件为酶添加量70 U/μL、体积分数95%乙醇与葡萄皮渣液固比20∶1(m L∶g)、酶解时间150 min、酶解温度40℃,在此优化条件下,提取得到白藜芦醇的提取率为144.13μg/g;抗氧化试验结果表明,白藜芦醇具有清除自由基的能力,当样品质量浓度为1.2 mg/m L时,对DPPH和超氧阴离子自由基的清除率分别为(65.12±3.88)%和(54.13±3.11)%;体外抗肿瘤活性显示,其对Hela、A549和PC-3细胞的生长均具有抑制作用,半抑制浓度(IC_(50))值分别为128.29μmol/L、108.35μmol/L和25.31μmol/L。

响应面法优化葡萄籽多酚提取工艺

目的:确定葡萄籽中多酚提取的最佳工艺。方法:以葡萄籽为原料,采用超声波辅助提取葡萄籽多酚。比较酒石酸亚铁法和Folin-Ciocalteau法测定多酚含量的不同,在单因素实验的基础上,应用Box-Behnken实验设计和响应面分析法,探讨液料比、超声时间、超声功率、浸提温度对多酚提取量的影响。结果:超声波辅助提取葡萄籽多酚的最佳工艺条件为液料比13∶1(mL/g)、时间100min、超声功率36W、浸提温度45℃,葡萄籽多酚提取量可达17.22mg/g,提取量较高。结论:这种方法可以避免多酚在较高温度下的分解,且优化后提取率较高,可以用于葡萄籽多酚的提取。

超声波辅助提取葡萄皮渣中白藜芦醇工艺的优化研究

为优化超声波辅助提取葡萄皮渣中白藜芦醇工艺,在二水平五因素试验基础上,采用响应曲面法研究了不同工艺参数(提取温度-提取时间-超声波功率组合)对葡萄皮渣中白藜芦醇提取量的影响。结果表明:当工艺参数为乙醇体积分数50%、液料比12∶1(mL/g)、提取温度35.6℃、提取时间34.8 min和超声波功率231 W时,白藜芦醇的最高提取量为48.72μg/gFW,且模型的预测精度较高(相对误差为0.73%)。这些结果为超声波辅助提取技术在葡萄皮渣白藜芦醇提取中的应用提供了依据。

响应曲面法优化葡萄籽油的超声波协同微波提取工艺研究

首先考查了提取剂种类、液料比、提取时间和微波功率对葡萄籽油得率的影响,然后通过响应曲面法优化出了超声波协同微波提取的最佳工艺参数,最后将超声波协同微波提取和其他提取方法进行了对比。实验结果表明,超声波协同微波提取葡萄籽油的最佳工艺参数为为液(乙酸乙脂)料比10mL/g,提取时间121s和微波功率187W,此时葡萄籽油得率为31.885%;与其他提取方法相比,超声波协同微波提取时间短,得率高。

水酶法提取葡萄籽中蛋白质工艺的研究

采用木瓜蛋白酶对脱脂葡萄籽进行酶解提取蛋白质。在单因素试验基础上,考察酶用量、酶解温度、p H值、反应时间和料液比对葡萄籽蛋白质提取率的影响,采用响应面法对葡萄籽蛋白质水酶法提取条件进行了优化。结果表明,葡萄籽蛋白质的最优提取条件为:酶解温度40℃,料液比1∶25(g∶m L),酶用量4%,酶解时间45 min。在此优化条件下,葡萄籽蛋白质提取率为67.85%。

葡萄籽原花青素的纤维素酶辅助提取工艺优化

本文首先在单因素试验的基础上,采用Box-Behnken设计对葡萄籽原花青素的纤维素酶辅助提取工艺中的pH、酶浓度和酶解温度3因子的最优化组合进行了定量研究,建立并分析了各因子与得率关系的数学模型;然后与传统提取方法进行了比较。结果表明:最佳的工艺条件为pH 4.4、酶浓度0.4%和酶解温度47.8℃。经试验验证,在此条件下,得率为3.37%,与理论计算值3.35%基本一致,说明回归模型能较好地预测葡萄籽中原花青素的提取得率;与传统提取方法相比,纤维素酶辅助提取时间短,得率高。

超声波提取葡萄籽油的工艺优化及其抗氧化性研究

通过单因素试验选择温度、提取时间、功率为影响超声波提取葡萄籽油效率的3个主要因素,运用响应曲面法进行超声波提取葡萄籽油的最佳工艺研究,分析各因素对提取效果的影响,并采用DPPH自由基实验以对其抗氧化性进行评价。结果表明:最佳工艺条件为温度54℃、提取时间37min、超声波功率456W,在此条件下进行验证实验,每5g葡萄籽的葡萄籽油提取量为0.63314g,提取率13.31%;葡萄籽油质量浓度为1～25mg/mL时,其质量浓度变化与自由基清除率呈正相关,在25mg/mL时,清除率达到80.7%,继续增大葡萄籽油质量浓度,对自由基清除率影响不大。

响应面法优化超声波辅助提取玫瑰香葡萄中芪化物的工艺条件

以玫瑰香葡萄为原料,采用超声波辅助提取工艺,对其中的芪化物提取条件进行优化。在单因素实验基础上,以白藜芦醇、白藜芦醇苷、紫檀芪化物提取量综合指标为响应值,通过响应面法得到最佳工艺条件。结果表明以乙酸乙酯为提取液,在提取温度57℃、提取时间32 min、料液比1∶15 g·m L-1条件下,玫瑰香葡萄中芪化物提取量理论值为105.30μg/g,实际提取量可达到104.97μg/g,相对误差为0.31%。最佳工艺条件可以应用于玫瑰香葡萄中芪化物的提取。

酿酒葡萄收获机输送装置试验

为探索酿酒葡萄收获机输送装置工作性能,采用Central Composite Design试验设计与响应曲面优化方法对输送性能进行优化研究,以输送成功率为响应指标,建立了输送成功率数学回归模型。利用残差对回归模型进行可靠性诊断,验证了输送成功率回归模型的可靠度高;对试验结果进行了显著性分析,表明影响输送成功率的因素依次为挡板间隙、输送速度、酿酒葡萄质量(喂入量),且驱动拨爪链主动轮转速及酿酒葡萄质量交互作用显著。应用Optimization(最优化)功能,以输送成功率最大化为优化目标,得到了最优参数组合。