助手标题  
全文文献 工具书 数字 学术定义 翻译助手 学术趋势 更多
查询帮助
意见反馈
   浓缩维生素 的翻译结果: 查询用时:0.015秒
图标索引 在分类学科中查询
所有学科
更多类别查询

图标索引 历史查询
 

浓缩维生素
相关语句
  “浓缩维生素”译为未确定词的双语例句
     To Assess the Therapeutic Efficacy of Vitamin AD Concentrate Drops Adding Pulvis Miconazoli Natrii Compared to Baby Prickly Heat Powder for Diaper Rash
     浓缩维生素AD滴剂加达克宁散与婴儿热痱粉治疗红臀的应用比较
短句来源
     Molecular distillation and enzymatic hydrolysis for concentrating vitamin E from rapeseed oil deodorizer distillate
     分子蒸馏和脂肪酶催化水解菜籽油脱臭馏出物浓缩维生素E的优化研究
短句来源
     To develop a supercritical CO 2 extraction method for vitamin E in rapeseed deodorized distillate sludge,orthogonal experiments about extraction temperature,separtation temperature and flow rate were done at a fixed extraction pressure.
     本文报导用超临界二氧化碳流体萃取从菜籽脱臭馏出物中浓缩维生素E的方法。 在对样品酯化方法、萃取压力、萃取分离温度、流量等参数进行初步试验的基础上 ,进行了正交实验。
短句来源
     Results: Combining skin ink with concentrated Vit. AD localization method had obv ious advantages compared with traditional localization method.
     结果 :联合应用皮肤墨水与浓缩维生素AD胶丸标记定位法较传统定位法的准确性具有明显的优势。
短句来源
     Objective To assess the therapeutic eff ic acy of vitamin AD concentrate drops adding Pulvis Miconazoli Natrii compared to baby prickly heat powder for diaper rash.
     目的:比较浓缩维生素AD滴剂加达克宁散与婴儿热痱粉对红臀治疗的效果。
短句来源
更多       
  相似匹配句对
     Study on the extraction of wheat germ oil and concentration of V_E
     小麦胚芽油的浸提和维生素E的浓缩研究
短句来源
     Strategies on vitamin E
     猪和维生素E
短句来源
     Naturals vitamin E
     天然维生素E
短句来源
     Freeze concentration
     冻结浓缩
短句来源
     concentrated in vacuum;
     真空浓缩 ;
短句来源
查询“浓缩维生素”译词为用户自定义的双语例句

    我想查看译文中含有:的双语例句
例句
为了更好的帮助您理解掌握查询词或其译词在地道英语中的实际用法,我们为您准备了出自英文原文的大量英语例句,供您参考。
  vitamin concentrate
Production of B-vitamin concentrate and oil by isopropanol extraction
      
Influence of liquid paraffin composition on protein-vitamin concentrate production technology and product quality
      
Investigation and isolation of a protein-vitamin concentrate from pine needles
      
The fractional and amino-acid compositions of needle proteins and of a protein-vitamin concentrate isolated from an extract have been determined.
      
Kinetics of hydrolysis of yeast protein-vitamin concentrate
      


Soybean deodorized sludge (SDS) contains rich tocopherols and large amounts of free fatty acids and is good resource to concentrate vitamin E, but free fatty acids and tocopherols have similar solubilities in supercritical CO 2, so it is very difficult to increase tocopherols concentration by supercritical CO 2 extraction. Urea inclusion can remove most of saturated fatty acids from SDS and provide better material for supercritical CO 2 extraction. The results showed that the molar ratios of SDS to urea and...

Soybean deodorized sludge (SDS) contains rich tocopherols and large amounts of free fatty acids and is good resource to concentrate vitamin E, but free fatty acids and tocopherols have similar solubilities in supercritical CO 2, so it is very difficult to increase tocopherols concentration by supercritical CO 2 extraction. Urea inclusion can remove most of saturated fatty acids from SDS and provide better material for supercritical CO 2 extraction. The results showed that the molar ratios of SDS to urea and water content in solvent had remarkable effect on compositions in inclusion part and filtrate, refluxing time and temperature had little influence on urea inclusion compositions in the two parts, methanol and ethanol showed similar action when they were used as urea solvent. The best inclusion conditions are as follows: the molar ratios of SDS to urea were 1∶15,95% ethanol as solvent to dissolve urea, refluxing for 10 min at 60 ℃ and then the solution was kept at 1~2 ℃ for 6~8 h.Through urea inclusion, α vitamin E could be increased from 0 57% in SDS to 1 62% in filtrate, while inclusion part contained large amounts of fatty acids with similar solubility in supercritical CO 2,and only 0 1%~0 2% α vitamin E. Using filtrate as material to reconcentrate α vitamin E by supercritical CO 2, the concentration of α vitamin E can be increased to 5 6%.

豆油脱臭馏出物含有丰富的维生素 E和大量的游离脂肪酸 ,是浓缩天然维生素 E的优质原料 ,但由于游离脂肪酸和维生素 E在超临界 CO2 中具有相似的溶解度 ,用超临界 CO2 萃取难以提高维生素 E的浓度。尿素包接可除去脱臭馏出物中的大部分饱和游离脂肪酸 ,为超临界 CO2 萃取提供良好原料。试验结果表明 ,尿素包接法预浓缩维生素 E的效能主要和脱臭馏出物与尿素的摩尔比、溶解尿素的甲醇或乙醇的浓度有关 ,两种试剂溶解尿素表现了相似的包接效果 ,回流时间和温度对包接效果基本无影响。包接的最佳条件为 ,豆油脱臭馏出物与尿素的摩尔比为 1∶ 15 ,溶剂为 95 %的乙醇 ,6 0℃回流 10 min,1~ 2℃静置 6~ 8h,过滤除去包接物。尿素包接可使剩余物中α-维生素 E的浓度从原料的 0 .5 7%上升到 1.6 2 % ,包接物中含有较多与维生素 E有相似溶解度的游离脂肪酸 ,而α-维生素 E的浓度仅为 0 .1%~ 0 .2 %。以剩余物为原料 ,利用超临界 CO2 萃取可将 α-维生素 E的浓度提高到5 .6 %以上。

To develop a supercritical CO 2 extraction method for vitamin E in rapeseed deodorized distillate sludge,orthogonal experiments about extraction temperature,separtation temperature and flow rate were done at a fixed extraction pressure.The following optimum technology parameters for the two steps extraction were obtained:extraction pressure 15MPa, extraction temperature 60℃,separate temperature 60℃-60℃-60℃-60℃,flow rate 15.0kg/h;then extraction pressure 20MPa,extraction temperature 40℃,separate temperature...

To develop a supercritical CO 2 extraction method for vitamin E in rapeseed deodorized distillate sludge,orthogonal experiments about extraction temperature,separtation temperature and flow rate were done at a fixed extraction pressure.The following optimum technology parameters for the two steps extraction were obtained:extraction pressure 15MPa, extraction temperature 60℃,separate temperature 60℃-60℃-60℃-60℃,flow rate 15.0kg/h;then extraction pressure 20MPa,extraction temperature 40℃,separate temperature 40℃-55℃-70℃-80℃,flow rate 25.0kg/h.The V E concentration of the extract was 17%.

本文报导用超临界二氧化碳流体萃取从菜籽脱臭馏出物中浓缩维生素E的方法。在对样品酯化方法、萃取压力、萃取分离温度、流量等参数进行初步试验的基础上 ,进行了正交实验。其优化参数为首先在15Mpa、萃取温度 6 0℃、分离温度场 6 0℃ - 6 0℃ - 6 0℃ - 6 0℃ ,流量 15kg/hr下萃取脂肪酸甲酯等物质 ,再升压至 2 0Mpa、萃取温度 4 0℃、分离温度场 4 0℃ - 5 5℃ - 70℃ - 80℃、流量 2 5 .0kg/h的条件下直接从菜籽脱臭馏出物中提取浓度达到 17%以上的维生素E。

Objective: to evaluate the applied value of comb ining skin ink with vi t.AD in MRI localization of spine vertebrae and myeleterosis. Methods: 145 cas es of spine vertebrae and myeleterosis were made MRI. These cases were divided i nto four groups at random and were used respectively four methods, i.e. traditio nal localization method, capsule localization method, combining localization met hod and X-ray localization method by two experienced doctors to see their accura cy by operation or acupuncture. The accuracy...

Objective: to evaluate the applied value of comb ining skin ink with vi t.AD in MRI localization of spine vertebrae and myeleterosis. Methods: 145 cas es of spine vertebrae and myeleterosis were made MRI. These cases were divided i nto four groups at random and were used respectively four methods, i.e. traditio nal localization method, capsule localization method, combining localization met hod and X-ray localization method by two experienced doctors to see their accura cy by operation or acupuncture. The accuracy of combining localization method wa s compared with those of the other three methods and was analyzed statistically. Results: Combining skin ink with concentrated Vit.AD localization method had obv ious advantages compared with traditional localization method. As far as accurac y is concerned, although combing localization method had not obvious differences with capsule localization method and X-ray localization method, it could be dir ectly used for clinical practice and had more advantages.Conclusion:Combing ski n ink with Vit.AD localization method has precise localization, simple use and h igh reliability. It can be directly used for clinical practice and its value is worth spreading.

目的 :探讨皮肤墨水与维生素AD胶丸联合标记在脊椎与脊髓病变MRI定位中的应用价值。方法 :选择14 5例脊椎和脊髓病变作MRI检查的患者 ,随机分为四组 :由二位有经验的影像科医师进行阅片 ,分别采用传统定位法、胶丸定位法、联合定位法及X线定位法定位 ,用手术或穿刺检验上述方法的准确性。联合法分别与传统法、胶丸法及X线法的定位准确性作比较 ,并进行统计学处理。结果 :联合应用皮肤墨水与浓缩维生素AD胶丸标记定位法较传统定位法的准确性具有明显的优势。联合定位法虽然较胶丸定位法、X线定位法定位准确性无显著差异 ,但联合定位法能被临床直接使用 ,具有很大优势。结论 :联合应用皮肤墨水与维生素AD胶丸标记在脊椎和脊髓病变MRI定位的方法 ,定位准确 ,简单方便 ,实用可靠 ,能直接供临床使用 ,具有普遍推广价值。

 
<< 更多相关文摘    
图标索引 相关查询

 


 
CNKI小工具
在英文学术搜索中查有关浓缩维生素的内容
在知识搜索中查有关浓缩维生素的内容
在数字搜索中查有关浓缩维生素的内容
在概念知识元中查有关浓缩维生素的内容
在学术趋势中查有关浓缩维生素的内容
 
 

CNKI主页设CNKI翻译助手为主页 | 收藏CNKI翻译助手 | 广告服务 | 英文学术搜索
版权图标  2008 CNKI-中国知网
京ICP证040431号 互联网出版许可证 新出网证(京)字008号
北京市公安局海淀分局 备案号:110 1081725
版权图标 2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社