Installation and Debugging of Auto-control System in Fruit Wine Production Line

[Objective] The aim was to test the controlling effect of cleaning steriliza- tion system, material conveying system, and fermentation jar cooling system with equip- ments of fruit wine production line introduced in this study and its auto-control sys- tem field assembled and debugged. [Method] Based on controlling equipment and setting parameters on the configuration interface, the operation state of the control equipments could be real-time monitored and controlled with the help of configura- tion software. [Result] The result showed that the equipment system could reduce the temperature into 12 ℃ with the error of ＋0.5 ℃within 110 minutes when the fermentation temperature is set at 12 ℃ in real production. [Conclusion] The auto- control system of fruit wine production line was easy to be assembled and de- bugged to meet demands of different fruit wine productions.

Catechin and Epicatechin Contents in Wines Obtained from Brazilian Exotic Tropical Fruits

Flavonoids constitute a diverse group of secondary metabolites which are present in both fruits and wines. The contents of some of the most prominent compounds such as catechin and epicatechin are little known in wines prepared from tropical fruits. In this context, this study was aimed to determine catechin and epicatechin contents in wines processed from 7 tropical fruits (cajá-umbu, cashew apple, mangaba, pineapple, siriguela, sugar apple and umbu), by HPLC-DAD system. Moreover the total phenolic compounds content was also determined in these wines and compared to those of the commercial wines obtained from grapes and cashew apple. The wines produced in this work contained higher total phenolic compounds contents when compared to that of the grape wines. The higher values of total phenolic compounds were found in wines elaborated from cajá-umbu (123.4 mg·mL-1 GAE) and from cashew (87.5 mg·mL-1 GAE). However, higher contents of catechin and epicatechin were found in wines obtained from mangaba (14.01 ± 0.37 mg·L-1, 22.66 ± 1.03 mg·L-1), siriguela (9.97 ± 0.28, 4.38 ± 0.45) and cashew apple (7.46 ± 0.18, 1.30 ± 0.17) fruits. The present work indicates that the use of exotic tropical fruits is feasible in developing wines which could serve as functional foods as these contain appreciable quantities of catechin and epicatechin.

Influence of Thermal Sterilization on the Characteristics of Cili(Rosa roxburghii)Wine

In order to investigate the effect of thermal sterilization on the characteristics of Cili(Rosa roxburghii)wine,Cili wine was treated at 60,65,and 70℃ for 15 min and then stored at room temperature with untreated Cili wine as the control(CK stored at 4℃).After six months,the sterilization effect,turbidity,pH value,alcohol content,volatile acidity,titratable acidity,total sugar,and vitamin C were determined.The volatile components in all the wine samples were extracted via head-space solid-phase microextraction(HS-SPME)and identified by gas chromatography-mass spectrometry(GC-MS).Thermal treatment at 60~70℃ completely eliminated the microorganisms in Cili wine and had no significant effect on turbidity,pH value,alcohol content,volatile acidity,or vitamin C.The treatment brought increment in titratable acidity and decrement in total sugar compared with the CK.In particular,the treatment at 70℃ increased the number of volatile compounds to 34 compared with the CK(30).The results suggested that Cili wine sterilized at 60~70℃ water bath can keep good quality without deterioration for 6months at room temperature.

Optimization of Blueberry Wine Fermentation Process

Blueberry was used as material for the optimization of fermentation process of fruit wine through single factor and orthogonal experiments with the contents of alcohol,total sugar,total acid and anthocyanin as indicators.The best recipe was concluded as follows:in combination with 19°Bx initial sugar level,0.35%yeast innoculation and 55 mg/L sodium metabisulfte,main fermentation was performed at room temperature for 8 d in summer,the alcohol content of the obtained blueberry fruit wine was 13%(volume fraction),the total sugar content was 2.54%,the total acid was 0.15 mol/L,the final anthocyanin content was 145.62 mg/L after its gradual decrease with the extension of brewing time;post-fermentation was carried out at 20℃for 20 d.Finally,sensory evaluation showed that the blueberry wine is clear and transparent in bright purple-red color,and enjoyable for its rich aroma,full mouthfeel,moderate sweet and sour taste.

Quanzi Wine

Quanzi wine, produced by Qixian Meiqi High-and New-tech Industries Company of Shanxi province, is a State patent product. It uses the finegrade fragrant liquor of Shanxi province as a base and is enriched with many pure natural plants including, the fruit of Chinese wolfberry, mulberry, fulin, date, pilose, American ginseng and agaliocheagle wood. With a rich content of amino acids, vitamins, and iron, calcium,

不同果酒的氨基酸营养价值对比评价

为评价4种水果汁(百香果、水蜜桃、杨梅和甜橙)发酵成果酒后氨基酸营养价值变化,该研究对果汁和果酒的氨基酸组成进行检测,用模糊识别分析法和氨基酸比值系数法对果酒氨基酸营养价值进行分析。结果表明,4种果汁及发酵后果酒均含16种氨基酸,果汁发酵后总氨基酸含量均有下降,百香果果酒下降幅度最小(约66%)。果汁发酵成果酒后,与联合国粮食与农业组织(FAO)/世界卫生组织(WHO)模式和全鸡蛋蛋白模式对比,百香果果酒必需氨基酸贴近度最大,分别为0.94或0.87;与FAO/WHO必需氨基酸模式对比,4种果酒必需氨基酸比值系数分(SRC)均提高,百香果果酒、蜜桃酒、杨梅酒、甜橙酒的SRC分值分别提升20.2%、8.3%、14.22%、4.1%,其中百香果果酒SRC分值最高,为82.02。百香果果酒和甜橙酒的呈味氨基酸总含量较高,分别为111.49 mg/100 mL和111.55 mg/100 mL,其中占比最大的甜味氨基酸含量分别为56.18 mg/100 mL和66.85 mg/100 mL,口感更佳。

贺兰山东麓葡萄园不同方位摘叶对赤霞珠果实品质的影响

酿酒葡萄转色后摘叶会改变微气候,从而影响葡萄果实糖、酸、酚类物质等品质因子的积累。以南北行向种植的赤霞珠酿酒葡萄为试验材料,在贺兰山东麓酿酒葡萄果园开展葡萄东面摘叶、西面摘叶和东西两面摘叶三种方式摘叶试验,以田间正常叶幕水平为对照,研究不同摘叶方位对成熟期果实品质的影响。结果表明:(1)与对照相比,赤霞珠酿酒葡萄果实转色后进行东面摘叶可使成熟果实中可溶性固形物、葡萄糖、果糖、总酸、糖酸比、苹果酸、柠檬酸、酒石酸和单宁含量不同程度增加,其中果糖、柠檬酸和酒石酸含量增加显著;果实还原糖、总酚、花青素含量比对照减少,但差异不显著。(2)西面摘叶处理下成熟葡萄果实可溶性固形物、还原糖、总酚和花青素含量略下降,果糖、苹果酸、柠檬酸和单宁显著上升,葡萄糖和酒石酸含量略上升。(3)双面摘叶葡萄果实的单宁含量显著增加,葡萄糖、果糖、柠檬酸和酒石酸含量略增加,可溶性固形物、还原糖、总酸、苹果酸、总酚和花青素含量都比对照要低。综合分析认为,摘叶后葡萄果实糖的含量整体呈不显著增加,但东面摘叶处理葡萄果实中酸含量均提高、单宁含量增加,总酚和花青素虽然略有减少,减少幅度相对最小。针对目前贺兰山东麓葡萄酒产区糖高酸低现状,建议在贺兰山东麓南北行向种植的葡萄园,采用东面摘叶为主的叶幕管理模式进行果实品质因子调控,从而达到平衡葡萄果实整体风味物质的作用。

UV-B照射时长对酿酒葡萄果实品质及类黄酮代谢产物的影响

为探明UV-B照射时长对赤霞珠酿酒葡萄果实品质及类黄酮物质的影响,试验设立UV-B每天分别照射2、4、6、8 h共4个梯度,以不进行UV-B照射为对照(CK),对不同UV-B照射时长葡萄果实品质及类黄酮物质进行检测分析。结果表明,短时间的UV-B照射会增加果实中可溶性糖含量,UV-B不同照射时长处理的总酚、单宁、总类黄酮、黄烷-3-醇和总花色苷含量均增加;UV-B不同照射时长对酿酒葡萄果皮中的类黄酮代谢产物影响显著,筛选出差异代谢物13个,其中5种物质显著上调、8种物质显著下调;在类黄酮和次生代谢产物合成通路上分别富集了7个差异代谢物,占代谢物总数的77.78%。利用主成分对果实品质和果皮类黄酮产物测定值进行综合评价,得分从高到低依次为UV-B照射2 h>UV-B照射8 h>UV-B照射4 h>UV-B照射6 h>CK。UV-B照射酿酒葡萄赤霞珠2 h时,果实品质和类黄酮代谢产物表现最佳。

4个品种柑橘果酒品质差异性分析

柑橘种类丰富,不同种类间理化性状差异明显.为探究不同柑橘品种酿制成果酒后的品质差异,本研究以梁平柚、大雅柑、长叶晚橙、沃柑果实为原料发酵果酒,测定其基本理化指标、有机酸、氨基酸、总酚、总黄酮以及挥发性成分等,对4种果酒进行品质差异分析.结果表明,4个品种的果酒在色泽、风味、营养、功能等方面都呈现差异性特征;4种果酒基本理化品质差异有统计学意义(p<0.05),梁平柚果酒呈现较高的酒精度;乙酸、柠檬酸、苹果酸是4种果酒共有的主要有机酸种类,梁平柚果酒乙酸质量浓度最低,与其他3种酒差异性有统计学意义(p<0.05);4种果酒均检出≥16种氨基酸,其中大雅柑果酒的氨基酸总量和甜味氨基酸最高;4种果酒总酚差异无统计学意义(p>0.05);长叶晚橙果酒总黄酮高于其他品种且差异有统计学意义(p<0.05);果酒中共鉴定出46种挥发性成分,2, 4-二叔丁基苯酚、 2-辛酮、(-)-4-萜品醇、 5-甲基-2-庚醇是4种果酒共有且含量较高.

桑葚果实、桑葚干酒和桑葚利口酒中酚类化合物的高效液相色谱串联电喷雾二级质谱分析及其抗氧化活性比较

为了解桑葚果酒和桑葚果实在酚类化合物的种类、含量及抗氧化活性之间的差异,该研究以桑葚果实、桑葚干酒和桑葚利口酒为试材,采用高效液相色谱串联电喷雾二级质谱(high performance liquid chromatography-electron spray ionization-mass spectrometry/mass spectrometry,HPLC-ESI-MS/MS)对酚类化合物进行定性定量分析。HPLC-ESI-MS/MS分析结果表明,在桑葚果实、桑葚干酒和桑葚利口酒中均检测到花青素-3-葡萄糖苷和花青素-3-芸香糖苷,而花葵素-3-芸香糖苷和4-丙酮酸-花青素-3-葡萄糖苷分别只在桑葚干酒和桑葚利口酒中被检测到。同时,桑葚干酒和桑葚利口酒中花青素-3-葡萄糖苷和花青素-3-芸香糖苷的含量均显著低于桑葚果实。此外,在桑葚果实中鉴定的8种非花色苷多酚中,仅有4种存在于桑葚干酒和桑葚利口酒中。相较于桑葚果实,桑葚干酒和利口酒中原儿茶素、二氢槲皮素和槲皮素的含量显著升高。桑葚果实DPPH自由基清除能力介于桑葚干酒和利口酒之间。综上,桑葚果酒和桑葚果实中酚类化合物的种类、含量及抗氧化活性之间差异显著。

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。

玫瑰桑葚酒酿造工艺优化

以玫瑰花、桑葚为原料,在单因素试验的基础上,采用响应面法优化玫瑰桑葚酒的酿造工艺。结果表明,玫瑰桑葚酒的最佳酿造工艺条件为料液比3∶10(g/mL)、发酵时间为8 d、发酵温度为24℃、发酵初始pH值为3.8。此条件下发酵出的玫瑰桑葚酒酒体清亮,香气醇正,具有玫瑰花和桑葚独特的风味,感官评分为90,酒精度为10.9%vol;未检测出沙门氏菌、金黄色葡萄球菌,符合GB 2758—2012《食品安全国家标准发酵酒及其配制酒》要求。

银杏果对花露烧酒风味的影响研究

目的通过风味分析确定花露烧酒新品中银杏果的最佳添加量。方法采用固相微萃取-气相色谱-质谱法(solid phase microexteaction-gas chromatography-mass spectrometry,SPME-GC-MS)和感官评价技术测定比较了不同银杏果添加量的花露烧酒的挥发性风味成分。结果共鉴定出52种挥发性风味成分,各样品中香气成分的种类和含量有明显差异;经与糯米混合发酵后,银杏果中青草风味成分如壬醛、正己醛等显著下降或未检出;采用主成分分析法得出银杏花露烧酒香气与苯乙醇、正己酸乙酯、乙酸异戊酯、庚酸乙酯、戊酸乙酯等风味成分有关。由感官分析可知银杏果添加量为25%的花露烧酒样品C整体感官品质最佳,尤其是香气方面,产生了令人愉悦的正己酸乙酯、乙酸异戊酯等风味成分。结论添加25%银杏果的花露烧酒的风味较好,为传统特色产品花露烧酒的创新提供了新思路,对银杏花露烧酒的风味控制提供了理论依据。

酸枣果酒发酵的工艺优化

以酒精度和感官评价为指标,研究发酵温度、酵母菌接种量、发酵液pH值、发酵液初始糖量对酸枣果酒品质的影响,在此基础上进行正交试验,确定酸枣果酒的最佳发酵工艺参数。正交试验得到的最佳发酵条件为发酵温度26℃,酵母菌接种量4%,发酵初始糖量18%,pH值4.0。采用最佳工艺参数进行发酵,使得酸枣果酒的酒精度达到7.9%Vol,感官评分为90分,制得的果酒颜色为红棕色,澄清透明有光泽,果香酒香、浓郁协调,品尝后口留余香。

脆李果酒发酵过程氨基酸差异分析

以重庆市万州区青脆李为研究对象,添加LA-Ba果酒酵母,采用清汁发酵工艺,定时取样检测发酵汁中氨基酸含量变化,结合主成分与聚类分析法。结果表明,脆李发酵汁中共检测16种氨基酸,其中苦味氨基酸5种,甜味氨基酸3种,芳香族氨基酸4种,鲜味氨基酸4种,含量最高的是脯氨酸,含量最低的是蛋氨酸。发酵期间,除脯氨酸以外,其他氨基酸均在第2天或第3天呈现快递降低趋势,之后含量变化趋于平缓。发酵期间,除脯氨酸外,其他氨基酸之间均存在一定高度正相关,主成分分别表明样品中精氨酸、脯氨酸及天冬氨酸的滋味和含量与其他氨基酸差异较大,聚类分析表明未发酵的样品氨基酸与发酵后的样品含量存在差异,其中发酵第2天和第3天,第4天和第5天的样品相似度较高。

菠萝百香果复合低醇果酒发酵工艺及香气成分分析

为探讨菠萝和百香果的复配比例对菠萝百香果复合低醇果酒香气成分的影响,采用CY3079为酿酒酵母,将菠萝和百香果汁以不同比例复配后发酵,采用气相色谱法测定发酵酒样的香气成分,结合感官品评,筛选最佳果汁复配比例。结果显示,菠萝百香果复合果酒中共检测出20种左右香气成分,包括酯类、醇类、酸类、醛类等物质。结合感官评价可知,菠萝与百香果复配比为8∶1时酿造的复合低醇果酒口感更柔顺,果香更浓郁,并伴随有发酵产品的典型风味。该研究分析了菠萝百香果复合低醇果酒的特征风味,为其产业化开发提供理论参考。

香梨油桃果酒的生产及质量标准

以库尔勒香梨与油桃为原料,经过发酵制备香梨油桃果酒。以果酒酵母接种量、初始糖度、发酵温度和发酵时间作为单因素,通过四因素三水平正交试验得知最佳工艺参数为果酒酵母接种量0.4%,初始糖度22°Bx,发酵温度23~24℃,发酵时间7 d。成品酒精度为8.5%Vol,总糖质量浓度40.2 g/L,总酸质量浓度5.9 g/L。

百香果发酵型果酒制备及其风味品质分析

为了探究发酵型百香果果酒品质特征,本研究利用高效液相色谱法、气相色谱-质谱(gas chromatography-mass spectrometry,GC-MS)和电子鼻技术,结合感官评价方法,通过检测有机酸含量、氨基酸含量、挥发性物质及感官特性等指标综合分析发酵型百香果果酒的风味与品质。结果表明,酒精发酵后,百香果果酒柠檬酸含量最高,总游离氨基酸含量为22.08 mg/100 g,样品色泽强度显著(P<0.05)降低。感官评价表明,酒体整体感觉柔爽、酒香浓郁。在风味方面,百香果果酒中共检测出88种挥发性物质,主要为酯、醇和酮。其中,主要呈香物质(OAV>1)为丁酸乙酯、苯乙醇、己酸乙酯等。综上,经酵母发酵后的百香果果酒风味与原果汁区别较大,果酒的香气更丰富。

果酒生产中腐败微生物及其防控研究进展

我国果酒种类丰富、发展迅速。果酒酿造过程是酵母、细菌、丝状真菌等多种微生物动态演替进化的变化过程,微生物在发酵中的代谢活动是影响果酒产品质量的关键因素。然而,腐败微生物不仅会降低果酒的感官品质和商业价值,还会威胁到消费者的身体健康。监测和控制果酒中腐败微生物是保障果酒高质量发展的重要手段。因此,该文综述了不同类型果酒中主要腐败微生物的类群、来源及其不良产物,探讨了检测和避免微生物污染的主要方法及其优缺点,旨在为预防和规避果酒生产中腐败微生物带来的危害提供技术参考。

百香果-香蕉复合果酒工艺研究及其品质分析

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