共查询到20条相似文献,搜索用时 171 毫秒
1.
分析研究了橙汁在储藏过程中香气成分变化及其对橙汁风味的影响。采用顶空固相微萃取、气相色谱-质谱联用技术对橙汁香气成分进行提取与分析,并结合感官评定确定橙汁风味变化。结果表明:从橙汁中共鉴定出58种香气成分,包括醇类、酯类、萜烯烃类、醛类、酮类和羧酸类等物质,其中主要香气化合物为柠檬烯、己醛、芳樟醇、桧烯、β-月桂烯、松油醇、癸醛、丁酸乙酯、瓦伦西亚橘烯、辛醛和圆柚酮等物质。揭示了橙汁在贮藏过程中主要风味物质的变化规律,即随着贮藏时间的延长,其主要香气成分含量呈下降趋势,风味品质也随之变差。 相似文献
2.
采用固相微萃取-气质联用法对鲜榨锦橙汁的香气成分进行分析,并比较不同萃取头对鲜榨橙汁香气成分的萃取差异。结果表明:从鲜榨橙汁中共鉴定出53种香气成分,包括烯烃类、酯类、醇类、醛类和酮类,其中的主要香气化合物为柠檬烯、β-月桂烯、芳樟醇、α-松油醇、4-松油烯醇、丁酸乙酯、辛醛、α-蒎烯、β-水芹烯等物质。 相似文献
3.
4.
基于电子鼻分析夏橙汁在贮藏过程中香气的变化 总被引:2,自引:0,他引:2
目的:研究了夏橙汁在不同贮藏温度和不同贮藏时间情况下橙汁的香气的变化情况.方法:电子鼻采集到夏橙汁的香气成分,并得到电子鼻传感器的响应值.利用PCA与DFA分析方法鉴别出夏橙汁在贮藏过程中香气的变化,以及在不同贮藏温度香气变化.结果:DFA的区分效果优于PCA的区分效果;在-18℃与4℃的低温贮藏条件下,橙汁的香气变化幅度较小,25℃贮藏的条件下香气成分的损失较多,并且三种贮藏温度下,第一、二周香气的响应值变化显著,第三、四周香气的响应值变化小,响应值接近. 相似文献
5.
6.
7.
本文通过提高果汁含量和选用效果良好的复配增稠剂对柑橘为原料制成的果汁型橙汁囊胞饮料的悬浮稳定性进行了研究,同时采用SPME-GC-MS技术对其几种主要香气物质进行了鉴定分析,并研究了其流变特性。实验结果表明,0.2%黄原胶+0.25%果胶,0.15%CMC+0.2%黄原胶+0.1%果胶,0.1%CMC+0.05%黄原胶+0.1%琼脂和0.1%黄原胶+0.1%果胶+0.1%琼脂等4种不同组成的复合稳定剂对果汁型橙汁囊胞饮料的悬浮效果良好;添加了增稠剂的果汁更加稳定,且为非牛顿流体,呈典型的假塑性流体特征,且添加增稠剂对橙汁囊胞饮料中的几种主要香气物质的释放造成了一定影响,不同组成的增稠剂对其影响也不太相同,其中3-蒈烯、d-柠檬烯、β-香叶烯、γ-萜品烯和紫苏醛被检出的含量均出现明显降低,但饮料的表观粘度与香气释放没有直接的关系。 相似文献
8.
9.
目的:建立双重实时荧光定量PCR检测橙汁饮料中橙与橘成分的方法。方法:通过设计和筛选橙、橘成分的引物和探针,检测水果寻找橙和橘的荧光扩增规律,利用橙和橘在FAM/VIC两个荧光通道上的比值差异来判定橙、橘成分。采用模拟橙汁掺杂柑橘汁试验验证方法检测的最低掺杂比例,对市售橙汁饮料进行检验来验证方法可行性。结果:纯橙水果在FAM和VIC两通道均有荧光扩增曲线,FAM/VIC通道荧光比值在0.5±0.2的范围内,而纯橘水果仅在FAM通道有很强的荧光扩增曲线。模拟掺杂试验中,可以检测出橙汁中掺有10%及以上的柑橘汁。结论:该方法能够检测橙汁饮料中的橙和橘成分,可用于市售橙汁饮料的鉴伪。 相似文献
10.
以塔罗科血橙汁为研究对象,对手榨汁、精滤汁、杀菌汁和还原汁采用顶空固相微萃取-气相色谱-质谱联用法测定了橙汁香气成分。结果表明,4 种血橙汁分别检出47、55、51 种和14 种香气成分,总含量分别为459.21、1 436.16、1 194.25、118.72 mg/kg,精滤汁比手榨汁多检出莰烯、丁酸甲酯、壬醇、癸醛等物质,杀菌后果汁多检出壬醛,压榨过滤和加热有助于香气的形成,但要控制副作用物质如α-松油醇等的增加,浓缩还原后橙汁香气最差,在生产中可利用回填方式提高产品品质。 相似文献
11.
BACKGROUND: Orange flavour is the results of a natural combination of volatile compounds in a well‐balanced system including sugars, acids and phenolic compounds. This paper reports the results of the first determination of aroma, organic acids, sugars, and phenolic components in Dortyol yerli orange juices. RESULTS: A total of 58 volatile components, including esters (nine), terpenes (19), terpenols (13), aldehydes (two), ketones (three), alcohols (four) and acids (eight) were identified and quantified in Dortyol yerli orange juice by GC‐FID and GC‐MS. Organic acids, sugars and phenolic compositions were also determined by HPLC methods. The major organic acid and sugar found were citric acid and sucrose, respectively. With regard to phenolics, 14 compounds were identified and quantified in the orange juice. CONCLUSION: Terpenes and terpenols were found as the main types of volatile components in Dortyol yerli orange juice. In terms of aroma contribution to orange juice, 12 compounds were prominent based on the odour activity values (OAVs). The highest OAV values were recorded for ethyl butanoate, nootkatone, linalool and DL ‐limonene. When we compare the obtained results of cv. Dortyol orange juice with the other orange juice varieties, the composition of Dortyol orange juice was similar to Valencia and Navel orange juices. Copyright © 2011 Society of Chemical Industry 相似文献
12.
以脐橙全果为原料酿造脐橙全果酒,采用单因素试验和Box-Behnken试验设计,分析酵母接种量、发酵温度、发酵时间对脐橙全果酒发酵的影响。结果表明其最佳条件为:酵母接种量6.4%、发酵温度28 ℃、发酵14d。同时,采用顶空固相微萃取法、利用气相色谱-质谱联用技术对脐橙全果酒和脐橙果汁酒风味物质进行分析。结果表明:在脐橙全果酒和脐橙果汁酒中分别检出25 种和11 种挥发性香气物质,且脐橙全果酒的香气活性成分主要为萜烯类,占香气成分的66.00%,而脐橙果汁酒的主要香气成分为醇类,所占比例为91.95%。 相似文献
13.
以橙汁为研究对象,选取市售100%橙汁及橙汁饮料各3种,采用CTAB法、SDS-CTAB法以及改良CTAB法提取其DNA,对所提取的DNA的浓度、纯度及扩增效率进行比较;同时选取橙UDP-葡糖基转移酶蛋白基因设计柑橘属植物特异性扩增引物,通过定性PCR检测其特异性和灵敏度,并应用于果汁中柑橘属植物的检测。实验结果证明,由改良CTAB法获得的DNA模板质量较高,适用于果汁中DNA的提取。UGT基因引物可对柑橘属植物产生特异性扩增,最低检测限为10pg/μL。将该引用物用于市售橙汁的检测,其检测结果为阳性,从而证明UGT基因特异性引物可用于果汁中的柑橘属植物成分的检测及鉴伪研究。 相似文献
14.
USE OF AN ELECTRONIC NOSE TO STUDY THE CONTRIBUTION OF VOLATILES TO ORANGE JUICE FLAVOR 总被引:3,自引:0,他引:3
EDWARD R. FARNWORTH ROBIN C. MCKELLAR DENISE CHABOT STÉPHANE LAPOINTE MARTIN CHICOINE KELLEY P. KNIGHT 《Journal of food quality》2002,25(6):569-576
Ideal orange juice and orange juice from which the volatile compounds had been stripped were analyzed using an electronic nose. In the ideal juice, dlimonene was the volatile in highest concentration. The stripped orange juice contained less than 1% of the original d‐limonene and all other volatiles were reduced to below levels of detection as measured by gas‐chromatography analysis. The electronic nose was able to distinguish between the two orange juices, ideal and volatile stripped. Four commercial orange juice essences were added to the stripped orange juice at concentrations up to 2%. The differences, as measured by the electronic nose, between the original orange juice and the volatile stripped orange juice were reduced when orange essence was added to the volatile stripped juice. In orange juice flavor, α‐pinene, sabinene, β‐myrcene, and d‐limonene appear to play an important role. 相似文献
15.
以大蒜、胡萝卜、甜橙为主要原料,制成复合保健果蔬饮料.对大蒜的脱臭效果、果蔬汁用量以及影响饮料风味的因素进行了分析研究.结果表明,按大蒜汁6%、胡萝卜汁10%、甜橙汁25%、白砂糖10%的比例进行调配,复合保健饮料风味最佳. 相似文献
16.
果汁的分类及其果汁含量检测的研究现状 总被引:1,自引:0,他引:1
<正>果汁由于其营养价值高,易于吸收利用,为消费者所喜爱。随着人们对天然果汁的需求量越来越大,各种各样的天然或经加工的果汁更应运而生。由于果汁品种的多样化,其果汁含量也各不相同。某些生产厂家受经济因素的诱惑,在果汁含量标示上作假,使消费者的利益和身体健康受到危害。对果汁含量的检测已成为政府监督部门和食品工作者面临的一个十分严峻的问题。虽然我 相似文献
17.
18.
19.
为了对不同成熟度椰子(椰青、嫩椰子、成熟椰子)的椰汁及椰子水饮料中挥发性风味物质组分和含量进行分析,采用蒸馏萃取装置提取样品中的挥发性成分,并用气相色谱-质谱(GC-MS)联用分析技术进行分离鉴定。结果表明,共检测出67种香气成分,分为7大类化合物,包括酯类32种,有机酸11种,醇类7种,醛类3种,酮类3种,酚类4种,其他类7种。在检出的香气物质中,确定主体风味组分主要是醇类、酯类和酸类3类物质,相同的挥发性成分是2,3-丁二醇。不同样品中,这些微量香气成分的种类含量有较大差别,成熟椰子原汁中风味物质的种类和含量较多。因此,椰子水原汁的挥发性成分直接影响椰子水饮料的感官质量。本试验研究为椰子水及其饮料感官品质的深入研究提供了一定的理论依据。 相似文献
20.
ORAC and TEAC assays comparison to measure the antioxidant capacity of food products 总被引:3,自引:0,他引:3
Oxygen radical antioxidant capacity (ORAC) and trolox equivalent antioxidant capacity (TEAC) assays were compared to estimate the total antioxidant capacity (TAC) of orange juice, milk, and an orange juice-milk beverage. When the TEAC method was used with this beverage, an increase in the concentration of orange juice corresponded to an increase in TAC, but increasing the percentage of milk did not increase the TAC value. When the ORAC method was applied, it was seen that increased concentrations of juice or milk corresponded to greater antioxidant capacity. An evaluation was also made of the influence of certain compounds (ascorbic acid, gallic acid, β-carotene, lutein, zeaxanthin and albumin) with antioxidant capacity that were present in the samples studied. 相似文献