使用存储式温度记录仪记录发酵过程中酒醅温度变化规律,并比较季节及环境温度、地缸周边土壤对酒醅温度的影响。发现酒醅温度整体趋势符合发酵工艺要求。冬季地缸中同一位置酒醅温度发酵过程中温度变化较夏季小。地缸周边土壤对酒醅温度影响较大,越接近地缸壁酒醅温度越低。酒醅温度通过影响酒醅理化指标而直接影响白酒质量。测定地缸中不同测温点酒醅中还原糖、酒度、淀粉、酸度等理化指标值,发现酒醅温度高的地方还原糖、酸度、酒度越高,淀粉含量越低。该研究为设计白酒机械化发酵设备提供了借鉴。
This study aimed to understand temperature changes in the fermented grains during liquor fermentation in underground vats. The temperature variation of the fermented grains was recorded by in situ temperature recorders. The effects of season, ambient temperature, and soil around the tank were compared. It was found that the temperature waves in winter were less than that in summer. The influences of soil were significant, the closer the grains to the surface vats wall, the lower the temperature. Furthermore, the temperature directly affected the liquor quality by influencing the physiochemical indexes of fermented grains. The contents of reducing sugar, acidity and alcohol were higher, and starch level significantly decreased at high temperature. This study provides a reference for designing mechanized liquor fermentation equipment.
[1] 王雪山,杜海,徐岩.清香型白酒发酵过程中微生物种群空间分布[J].食品与发酵工业,2018,44(9): 1-8.
[2] 沈怡芳.白酒生产技术全书[M].北京:中国轻工业出版社,1998:332-343.
[3] 曹静,余有贵,曹智华,等.中国复合香型白酒研究进展[J]. 食品与机械,2017,33(7):200-204.
[4] 陈丙友,韩英,张鑫,等.酒醅温度调控对清香型白酒发酵过程的影响[J].食品与发酵工艺,2016,42(6): 44-49.
[5] 陈彬,何宏魁,刘国英,等.大小曲及发酵方式对清香型白酒风味的影响[J].食品与发酵工业,2018,44(8):166-171.
[6] 张鑫.大曲清香白酒地上控温发酵工艺探索[J].酿酒,2015,42(4): 48-53.
[7] 朱引保,赵迎路.人工控温酿造汾酒的理论与实践[J].酿酒,2001,28(6):37-40.
[8] 李泽霞,苏亚娜,张福艳,等.两种控温方式对衡水老白干机械化酒醅发酵的影响[J].酿酒,2017,44(5):39-42.
[9] 郭小燕.白酒酿造设备的机械化发展现状与展望[J].山东工业技术,2018(10):26.
[10] 周金虎.论传统白酒生产机械化智能化设备[J].酿酒,2017,44(4):21-23.
[11] 张贵宇,庹先国,陈林,等.自动化酿造工艺在白酒生产中的应用研究[J].食品工业,2018,39(9):143-148.
[12] 刘选成,张东跃,赵德义,等.数字化酿造工艺管理系统在浓香型白酒机械化、自动化和智能化酿造生产中的应用[J].酿酒科技,2018(11):61-65;70.
[13] 沈才萍,李喆,敖宗华,等.泸型酒生产中不同层糟醅微生物与白酒风味的关系[J].四川理工学院学报(自科科学版),2013,26(5):14-18.
[14] 汪江波,王炫,黄达刚,等.我国白酒机械化酿造技术回顾与展望[J].湖北工业大学学报,2011,26(5):50-54.
[15] 张健,李波,程平言,等.酱香型白酒制酒机械化生产试验的研究[J].中国酿造,2018,37(12):148-153.
[16] 李伟,相里加雄.清香型白酒发酵缸机械化的设想[J].酿酒科技,2010(11):68-69.
[17] 程伟,岳腾飞,孙露露,等.一种清香型白酒固态发酵箱及其翻箱装置的设计与应用[J].酿酒科技,2017(11):68-72.
[18] 马蓉,李德林,杨艳,等.不同发酵容器对大曲清香型白酒酿造的影响研究[J].酿酒科技,2017(7):42-45.
[19] 范伟国,张艳梅,乔新建,等.清香型白酒立式发酵设备的研制[J].酿酒科技,2013(7):78-80.
[20] 李大和,王超凯,李国红,等.白酒生产检验(十):固态酒醅和窖泥[J].酿酒科技,2014(2): 123-128.
[21] 王明洪.酒醅淀粉含量两种测定方法的比较[J]. 酿酒,2011,38(2): 72-73.
[22] 李竹赟,王莉,骆雨龙.气相色谱法测定酒醅中的乙醇[J].酿酒科技,2004(3): 85-86.
[23] WOLFE B E,BUTTON J E,SANTARELLI M,et al.Cheese rind communities provide tractable systems for in situ and in vitro studies of microbial diversity[J]. Cell,2014,158(2): 422-433.
[24] LI Pan,LIN Weifeng,LIU Xiong,et al.Environmental factors affecting microbiota dynamics during traditional solid-state fermentation of Chinese Daqu starter[J].Frontiers in Microbiology,2016,7: 1 237.
[25] XIAO Chen,LU Zhenming,ZHANG Xiaojuan,et al.Bio-heat is a key environmental driver shaping microbial community of medium-temperature Daqu[J].Appliedand Environmental Microbiology,2017,83 (23): e01550-17.
