%0 Journal Article
%T 黑糯玉米花青素饮料的研制
Development of Zea mays L. Anthocyanin Beverage
%A 王欣雨
%A 范娜
%A 周永春
%A 王大伟
%A 陈佳瑶
%A 邱虹月
%A 戴佳锟
%J Hans Journal of Agricultural Sciences
%P 801-811
%@ 2164-5523
%D 2025
%I Hans Publishing
%R 10.12677/hjas.2025.156099
%X 本研究以黑糯玉米芯为原料,通过提取、冻干工艺制备花青素提取物粉末,并以此为功能性基料开发具有花青素的特色饮料。采用单因素试验结合响应面法优化配方,构建数学模型确定最佳配方。结果表明:当黑糯玉米花青素提取物添加量0.067%、柠檬酸1.5 g/L、木糖醇12%、CMC-Na 0.3%时,制得的饮料呈现紫红色澄清液体,酸甜适口,感官品质最佳。通过贮藏试验发现,4˚C低温条件下花青素保存率最高,35 d时花青素保留率为85.2% ± 1.53%,衰减速率比25℃时减缓23.5%、比37˚C时减缓59.5%。低温较其他条件更有利于维持饮料理化稳定性及功能成分活性。
This study utilized Zea mays L. cob as raw material to prepare anthocyanin extract powder through extraction and freeze-drying processes, subsequently developing a characteristic anthocyanin-rich beverage using this powder as a functional base. Single-factor experiments combined with response surface methodology were employed to optimize the formulation, establishing a mathematical model to determine the optimal recipe. The results demonstrated that when adding 0.067% Zea mays L. anthocyanin extract, 1.5 g/L citric acid, 12% xylitol, and 0.3% CMC-Na, the beverage presented as a purplish-red clarified liquid with pleasant sweet-sour taste and optimal sensory quality. Storage experiments revealed that anthocyanin preservation reached maximum efficiency at 4˚C, showing 85.2% ± 1.53% retention after 35 days. The degradation rate was reduced by 23.5% compared with 25˚C storage and 59.5% compared with 37˚C storage. Low-temperature storage demonstrated superior capability in maintaining physicochemical stability and functional component activity compared to other conditions.
%K 黑糯玉米,
%K 花青素,
%K 饮料,
%K 响应面分析
Zea mays L.
%K Anthocyanin
%K Beverage
%K Response Surface Analysis
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=117664