1) low-denatured cottonseed meal
低变性棉籽粕
1.
Production of low-denatured cottonseed meal;
浅谈低变性棉籽粕的制备
2) cottonseed meal
棉籽粕
1.
Production practice of edible cottonseed protein isolate from glandular cottonseed meal;
利用有腺体棉籽粕生产食用棉仁分离蛋白的实践
2.
Foaming properties of degossypoled cottonseed meal protein;
脱酚棉籽粕蛋白起泡性的研究
3.
Research and development of gossypol reduction of cottonseed meal;
棉籽粕脱毒方法的研究进展
3) cottonseed meal
棉籽饼粕
1.
Nutritive value,antinutritional factors and research progress about microbial solid fermentation of cottonseed meal were reviewed.
本文简述了棉籽饼粕的营养价值、抗营养因子及微生物固体发酵棉籽饼粕的研究进展。
2.
As a kind of high quality feed protein source, cottonseed meals must be detoxified to eliminate the contained harmful gossypol before application.
棉籽饼粕 (CottonSeedCake)可作为优质蛋白饲料饲喂给动物日粮 ,但由于其所含的棉酚对动物有毒害作用 ,故在使用前必须进行脱毒处理。
3.
58μmol/g; for cottonseed meal the crude protein was 32.
58μmol/g;棉籽饼粕粗蛋白32。
4) taking-off poisonous cottonseed-pancake
脱毒棉籽粕
5) nonpoisonous cotton power
棉籽粕脱毒
6) double low rapeseed meal
双低菜籽粕
1.
Application of double low rapeseed meals in Cherry Valley Duck diets;
双低菜籽粕在樱桃谷肉鸭日粮中的应用研究
2.
The plant protein resources in control diet(group 1) were supplied all by soybean meal, while the proportion of double low rapeseed meal in trial diets (group 2,3,4,5) were 8%,13%,16%,18% in first period respectively and 13%,16%,18%,21% in second period.
对照组 (第 1组 )为豆粕组 ,试验组 (第 2 ,3,4,5组 )日粮中双低菜籽粕的用量比例 ,前期分别为 8% ,10 % ,13% ,16 % ,后期分别为 13% ,16 % ,18% ,2 1% ,平衡日粮可消化赖氨酸。
3.
Nutrients and antinutritional agents contents in DL-RSM(double low rapeseed meal) were analysed and 500 layers were randomly divided into 5 groups and fed with 0, 10%,15%,17%,20% DL-RSM instead of soybean meal(SBM) in the diets from 21 to 56 week of age.
选21周龄罗曼蛋鸡500只随机均分为5组 ,分别饲喂全豆粕和10 %、15 %、17 %、20 %双低菜籽粕日粮 ,试期35周。
补充资料:棉籽油粕化学脱毒
分子式:
CAS号:
性质: 棉籽油饼(粕)含蛋白质约40%,其中含有毒物质游离棉酚,未能广泛利用。化学脱毒法是根据棉酚在不同条件下存在三种异构体(双醛式、双内醚式、双烯酮式),在加入某些化学品后,使棉酚形成双烯酮式异构体,使其容易热固束,并提高水的溶解度,从而达到脱毒目的。
CAS号:
性质: 棉籽油饼(粕)含蛋白质约40%,其中含有毒物质游离棉酚,未能广泛利用。化学脱毒法是根据棉酚在不同条件下存在三种异构体(双醛式、双内醚式、双烯酮式),在加入某些化学品后,使棉酚形成双烯酮式异构体,使其容易热固束,并提高水的溶解度,从而达到脱毒目的。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条