粒比对成粒能力和黑麦-小黑麦面粉产量的影响

Q Engineering
R. Kandrokov, Kerim Bekshokov
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引用次数: 0

摘要

本研究揭示了小黑麦与黑麦不同粉磨比对小黑麦-黑麦中间粉磨产品及小黑麦-黑麦面粉产量影响的研究结果。一个人在实验室研磨机(MLP-4)上用螺纹(用于破碎系统)和微粗化辊(用于还原系统)研磨小黑麦颗粒的初始样品。MLP-4型轧机螺纹辊的机械和运动学参数为:横槽布置为背对背,快转辊速度为5m /s,差速单位为1.5,每1厘米纵槽数为8,纵槽坡度为7%。一名男子透露,在提交的样品中,对照小黑麦籽粒显示出最高的中间地面材料产量,达87.9%,其中小黑麦粉占14.2%;而中间磨粒产量最小的对照黑麦占81.9%,其中黑麦粉占22.4%。研究表明,当黑麦-黑麦混合粉中添加50%的黑麦粒时,谷物粉产品形态的中间磨粒产量为83.1%,其中黑麦-黑麦粉产量为19.1%;黑麦-黑麦磨粉机中添加40%黑麦粒时,粗粉产品形态中间磨粒产量为85.0%,其中黑麦-黑麦粉产量为17.3%;黑麦-黑麦磨粉机中添加30%黑麦粒时,粗粉产品中中间磨粒产量达87.9%,其中黑麦-黑麦粉产量为14.2%。一个人发现,研磨初始对照小黑麦粒时,小黑麦粉得率为77.9%,研磨初始对照黑麦粒时,小黑麦粉得率为70.3%,比从小黑麦粒中少6.9%。在黑麦-黑麦粉磨机中引入50%黑麦粒时,黑麦-黑麦粉产量为72.9%;黑麦-黑麦混合磨时,黑麦-黑麦产量为72.9%;黑麦-黑麦混合磨时,黑麦-黑麦混合磨时,黑麦-黑麦混合磨产量为77.1%。作者将黑麦-黑麦面粉产量与黑麦颗粒含量之间的点联系起来。同时,他们发现黑麦谷物引入小黑麦-黑麦磨坊导致小黑麦-黑麦面粉产量下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Grain Millgrist Ratio Influence on the Grain-Forming Ability and Triticale-Rye Flour Yield
The research revealed the study results of the influence of the different millgrist ratios of triticale grain and rye on the triticale-rye intermediate grinding products and triticale-rye flour yield. A man grinds the initial samples of triticale grains on laboratory grinding mills (MLP-4) with threaded (for break systems) and microroughened rolls (for reduction systems). The mechanical and kinematic parameters of the MLP-4 mill threaded rolls are as follows: the flute layout is back to back, the fast-rotating roll speed is 5 m/s, the differential unit is 1.5, the number of flutes per 1 cm is 8, the flutes slope is 7 %. A man revealed that among the presented samples the control triticale grain demonstrated the highest intermediate ground materials yield, which amounted to 87.9 %, including 14.2 % of triticale flour; while the control rye grain – the smallest intermediate ground materials yield, accounted for 81.9 %, including 22.4 % rye flour. The study showed that when 50 % of rye grain was added to the triticale-rye grain millgrist, the intermediate ground materials yield in the cereal dusting products form was 83.1 %, including 19.1% of triticale-rye flour; when 40 % of rye grain was added to the triticale-rye grain millgrist, the intermediate ground materials yield in the сereal dusting products form was 85.0 %, including 17.3 % of triticale-rye flour; when 30 % of rye grain was added to the triticale-rye grain millgrist, the intermediate ground materials yield in the сereal dusting products form amounted to 87.9 %, including 14.2 % of triticale-rye flour. A man found that when grinding the initial control triticale grain, the triticale flour yield was 77.9 %, when grinding the initial control rye grain, the triticale flour yield flour was 70.3 %, which is 6.9 % less than from triticale grain. When introducing 50 % of rye grain to the triticale-rye grain millgrist, the triticale-rye flour yield was 72.9 %; when introducing 40 % of rye grain to the triticale-rye grain millgrist, the triticale-rye flour yield was 72.9 %, when introducing 30 % of rye grain to the triticale-rye grain millgrist, the triticale-rye flour yield was 77.1 %. The authors connected the dots between the triticale-rye flour yield and the rye grains content in the millgrist. At the same time, they found that the rye grain introduction to the triticale-rye millgrist led to a decrease in the triticale-rye flour yield.
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来源期刊
Agro Food Industry Hi-tech
Agro Food Industry Hi-tech 工程技术-生物工程与应用微生物
CiteScore
0.29
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0.00%
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审稿时长
6-12 weeks
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