摘要
为解决机采鲜叶品质等级参差不齐的问题,实现优质茶叶的机采机制,该文以新型鲜叶分级机为研究对象,比较了不同筛孔筛板组合、振动频率等对机采鲜叶的分级效果,系统分析了分级鲜叶分类加工茶产品的感官品质和综合效益。试验结果表明:鲜叶分级机的多块筛板组合采用椭圆孔筛板(a=1.8 cm,b=2.2 cm)+圆孔筛板(D=2.0 cm)+圆孔筛板(D=2.6cm)的方式较佳,能够较好分离出碎片、一芽一叶、一芽二叶、一芽三叶及以上等不同嫩度级别的鲜叶;振动频率采用50 HZ较为适宜,可获得较佳的作业流畅性和分级效果,且筛板共振现象较小;分级叶所制产品的感官品质与手采叶较为接近,较未分级样有较大提升,综合效益较机采叶直接加工每kg鲜叶可提高1.22元。
The mechanized picking of fresh tea leaves gains the advantages of high efficiency, low cost and laborsaving,which is favorable to large-scaled and mechanized tea production in the future. However, due to the limitations of existing picking equipment, machine-picked fresh leaves are often the mixtures of old and tender leaves with different grades, which seriously affects the sensory quality and economic benefits of tea products. Therefore, the classification of collected fresh leaves is required before processing. In order to avoid uneven quality of fresh leaves and thereby achieve mechanized plucking and processing for high quality tea leaves, the working settings of a novel fresh leaves classifier(ZL201320064553.4) were systematically investigated in this study. Using mechanically plucked fresh leaves of Longjing 43 tea variety as experimental material, we compared the classification efficiency using different combinations of grading sieve plates(i.e., a variety of hole types such as round and ellipse holes) and vibration frequency(40, 50 and 60 Hz). We applied the tea processing workflow including spreading out fresh leaves, fixation, cooling, rolling, initial baking, cooling resurgence, first frying, cooling, second frying, and baking sufficiently. Hand-picked leaves(tenderness from one bud with one leaf to one bud with 2 leaves), mechanically picked leaves and mechanically picked leaves with classification were processed to the coiled type green teas, respectively according to the steps described above. Then we systematically evaluated the sensory quality and comprehensive benefit of obtained tea products. The results showed that when the novel fresh leaves classifier was applied to classify the mechanically plucked fresh leaves of Longjing 43 tea variety, the sieve plate #1 with ellipse holes(the length of the short axis was 0.6cm, and the length of the long axis was 2.0 cm) resulted in better grading for small or elongated fresh leaves such as one leaf and debris, and the average propo
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2016年第6期276-282,共6页
Transactions of the Chinese Society of Agricultural Engineering
基金
中国农业科学院科技创新工程(CAAS-ASTIP-TRICAAS)
浙江省"十二五"农业重大成果转化工程(2012T202-03)
关键词
加工
机械化
农业机械
鲜叶分级
筛板
振动频率
效益
processing
mechanization
agricultural machinery
classification
sieve plate
vibration frequency
efficiency
