钙强化豆浆粉的制备及理化性质表征

    Preparation and physicochemical properties of calcium-fortified soymilk powder

    • 摘要: 豆浆的钙含量相对较低,且具有令人不愉快的豆腥味,限制了豆浆产品的消费需求。该研究以羟基磷灰石(hydroxyapatite, HA)为钙强化剂,研究了钙添加量和均质压力对豆浆粉理化性质、感官评价和挥发性风味物质组成的影响。结果表明:钙的添加会降低豆浆粉粉体的流动性,润湿和分散时间显著(P<0.05)增加;豆浆粉冲调后,剪切黏度增加,口腔摩擦系数明显提高,口感变得稠厚。在1.5%的钙添加量基础上,采用均质处理进一步改善豆浆粉的品质。低压均质(≤60 MPa)改善了豆浆粉的流动性、润湿和分散性。随着均质压力的升高,豆浆粉颗粒的表面变得光滑,坍塌减少,呈现接近球体的形态。当均质压力继续增大至80 MPa时,豆浆粉颗粒形貌略有破损。均质处理能使冲调后豆浆的黏度减小,口腔摩擦系数明显降低,口感变得顺滑。相比未加钙豆浆粉的风味物质种类(26种),钙强化豆浆粉的风味物质种类达35种。相比于未均质钙强化豆浆粉,20 MPa均质处理显著(P<0.05)降低关键性豆腥味物质(正己醛等)检测的含量,且关键性非豆腥味物质(正壬醛、反-2-辛烯醛、反-2-壬烯醛等)得到较好的保留,豆浆粉的色泽、风味、顺滑度和滋味显著(P<0.05)改善,感官评分最高。然而,过高的压力处理(80 MPa)使检测的正己醛含量略有上升,而正壬醛、反-2-壬烯醛的含量显著(P<0.05)下降,劣化了豆浆粉的感官品质,感官评分降低。该研究结果可为钙强化豆浆粉的加工及感官品质改善提供科学依据。

       

      Abstract: Soymilk products can be limited for the relatively low calcium content of soymilk and its unpleasant beany odor in the food industry. In this study, a systematic investigation was made to explore the effects of calcium addition and homogenization pressure on the physicochemical properties, sensory evaluation, and composition of volatile flavor compounds of soymilk powder. Hydroxyapatite (HA) was also taken as a calcium-fortifying agent. The results showed that the addition of calcium decreased the fluidity of soymilk powder, whereas, the wetting and dispersion time increased significantly (P<0.05). The shear viscosity and, the oral friction coefficient increased significantly. The texture was thicker after the soymilk powder was brewed. Homogenization treatment with the 1.5% calcium addition was used to further improve the quality of soymilk powder. Low-pressure homogenization (≤60 MPa) improved the fluidity, wetting, and dispersibility of soymilk powder. The surface of soymilk powder particles was much smoother and slumped less with the increase of homogenization pressure, indicating the spheric-like morphology. Meanwhile, the morphology of powder particles was slightly broken, when the homogenization pressure increased to 80 MPa. Homogenization treatment significantly reduced the viscosity of soymilk after brewing, and the coefficient of oral friction. The smoother taste improved the deterioration of soymilk powder properties and brewing properties caused by calcium fortification. A total of 41 volatile flavor compounds were detected by headspace-solid phase microextraction-gas chromatography-mass spectrometry, including 13 aldehydes, 11 alcohols, 7 ketones, 3 hydrocarbons, 4 esters, and 3 others. The total number of volatile flavor compounds decreased within 26 in the uncalcified soymilk after homogenization. Among them, the relative content of aldehydes significantly (P<0.05) decreased, whereas, the relative contents of alcohols, ketones, and esters significantly (P<0.05) increased. The number of total volatile flavor compounds increased up to 35 with the addition of HA after homogenization. Compared with the unhomogenized calcium-fortified soymilk powder, 20 MPa homogenization treatment significantly (P<0.05) reduced the amount of critical beany flavor compounds (n-Hexanal, etc). The critical non-beany flavor compounds (n-Nonenal, (E)-2-Octenal, and (E)-2-Nonenal) were better retained, where the color, flavor, smoothness, and taste of soymilk powder were significantly (P<0.05) improved with the highest sensory scores. However, the excessive pressure treatment (80 MPa) caused a slight increase in the n-Hexanal content and a significant (P<0.05) decrease in the n-Nonenal and (E)-2-Nonenal, which were deteriorated the sensory quality of the soymilk powder with the decrease in the sensory scores. The finding can provide a scientific basis for the processing and sensory quality improvement of calcium-fortified soymilk powder.

       

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