甲乙类划分,Classification,在线英语词典,英文翻译,专业英语

1) Classification

甲乙类划分

2) Methyl ethyl ketone

甲乙酮

Characteristics and comparison of production process technology of methyl ethyl ketone;

甲乙酮生产工艺技术特点与比较

Tudy of a equipment that produce methyl ethyl ketone;

甲乙酮制备与分离实训装置的开发与研究

The application result showed that the recovery rates of methyl ethyl ketone and toluene were higher than 95% attributed to the advanced technique design and the good adsorption materials adopted.

综述了活性炭纤维的产品性能,采用甲苯及甲乙酮的活性炭纤维吸附回收装置处理含甲苯与甲乙酮的废气。

3) methyl ethyl ketoxime

甲乙酮肟

The influence of different modifier contents,n(—OH)∶n(—NCO),reaction temperature and reaction time on aliphatic aqueous dispersion of blocked polyisocyanate were discussed while using methyl ethyl ketoxime as blocker and monohydroxyl poly(ethylene oxide) as hydrophilic modifier.

以甲乙酮肟为封闭剂,以单羟基聚环氧乙烷为亲水改性剂,分别考察了不同改性剂用量、n(—OH)∶n(—NCO)、反应温度、反应时间对脂肪族水分散封闭型多异氰酸酯合成的影响。

The ammoxidation of methyl ethyl ketone (MEK) to methyl ethyl ketoxime (MEKO) over nano-scale TS-1 was studied with a three-neck glass reactor.

在最佳反应条件下,甲乙酮的转化率和甲乙酮肟的选择性可分别达到99。

Blocked polyisocyanates with low release temperature(110～120 ℃) were synthesized with methyl ethyl ketoxime as blocking agent.

以甲乙酮肟为封闭剂,制备了解封温度较低(110~120℃)的封闭型多异氰酸酯树脂;讨论了活性氢与异氰酸酯基团的摩尔比、反应温度、反应时间对封闭反应的影响;探讨了封闭的预聚体的解封反应,确定了其解封温度,并用红外光谱比较了封闭前后和加热解封后的预聚体。

4) Methyl-ethyl benzene

甲乙苯

5) MEK

甲乙酮

Improvment and application of process water treatment unit in mEK production;

甲乙酮生产中工艺水处理单元的改造与应用

STUDY ON THE PRODUCTION OF MICROCRYSTALLINE WAXBY MIBK-MEK SOLVENTS;

甲基异丁基酮-甲乙酮溶剂生产微晶蜡工艺研究

Application of Delta V System in the MEK Plant;

Delta V系统在甲乙酮装置中的应用

6) o-methylethylbenzene

邻甲乙苯

The effects of the content of o-methylethylbenzene in 1,2,3-trimethylbenzene as raw material on the yield and quality of the product,and the effects of using mixed trimethylben-zenes as supplement of raw material after simple seperation on the forme.

从 C_9芳烃分子结构方面探讨了邻甲乙苯在偏三甲苯异构化反应中优先反应机理;考察了偏三甲苯原料中邻甲乙苯含量对均三甲苯产品产量和质量的影响及塔底油经简单分离后的混合三甲苯作为原料补充料使用对反应生成油的影响。

The results show that o-methylethylbenzene could be separated from mesitylene successfully by fractionthi.

介绍了均三甲苯分离技术的新发展,研究开发了一种新工艺,以叔丁醇为烷基化剂,无水三氯化铝为催化剂,通过傅-克烷基化反应将邻甲乙苯转化成沸点较均三甲苯高的重组分,使二者能通过常规精馏的方法得以有效地分离。

参考词条

甲乙方甲乙寺甲乙煎甲乙酐甲乙哌酮甲乙双酮

补充资料：N,N-二(乙基-硫乙基-氨基甲酰氨基-氨基丙烷)甲胺

CAS：85638-86-4
中文名称：N,N-二(乙基-硫乙基-氨基甲酰氨基-氨基丙烷)甲胺
英文名称：N,N-di-(Ethyl thioethane aminocarbamoyl-aminopropane)aminomethane

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

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1) Classification 甲乙类划分 2) Methyl ethyl ketone 甲乙酮 1. Characteristics and comparison of production process technology of methyl ethyl ketone; 甲乙酮生产工艺技术特点与比较 2. Tudy of a equipment that produce methyl ethyl ketone; 甲乙酮制备与分离实训装置的开发与研究 3. The application result showed that the recovery rates of methyl ethyl ketone and toluene were higher than 95% attributed to the advanced technique design and the good adsorption materials adopted. 综述了活性炭纤维的产品性能,采用甲苯及甲乙酮的活性炭纤维吸附回收装置处理含甲苯与甲乙酮的废气。 3) methyl ethyl ketoxime 甲乙酮肟 1. The influence of different modifier contents,n(—OH)∶n(—NCO),reaction temperature and reaction time on aliphatic aqueous dispersion of blocked polyisocyanate were discussed while using methyl ethyl ketoxime as blocker and monohydroxyl poly(ethylene oxide) as hydrophilic modifier. 以甲乙酮肟为封闭剂,以单羟基聚环氧乙烷为亲水改性剂,分别考察了不同改性剂用量、n(—OH)∶n(—NCO)、反应温度、反应时间对脂肪族水分散封闭型多异氰酸酯合成的影响。 2. The ammoxidation of methyl ethyl ketone (MEK) to methyl ethyl ketoxime (MEKO) over nano-scale TS-1 was studied with a three-neck glass reactor. 在最佳反应条件下,甲乙酮的转化率和甲乙酮肟的选择性可分别达到99。 3. Blocked polyisocyanates with low release temperature(110～120 ℃) were synthesized with methyl ethyl ketoxime as blocking agent. 以甲乙酮肟为封闭剂,制备了解封温度较低(110~120℃)的封闭型多异氰酸酯树脂;讨论了活性氢与异氰酸酯基团的摩尔比、反应温度、反应时间对封闭反应的影响;探讨了封闭的预聚体的解封反应,确定了其解封温度,并用红外光谱比较了封闭前后和加热解封后的预聚体。 4) Methyl-ethyl benzene 甲乙苯 5) MEK 甲乙酮 1. Improvment and application of process water treatment unit in mEK production; 甲乙酮生产中工艺水处理单元的改造与应用 2. STUDY ON THE PRODUCTION OF MICROCRYSTALLINE WAXBY MIBK-MEK SOLVENTS; 甲基异丁基酮-甲乙酮溶剂生产微晶蜡工艺研究 3. Application of Delta V System in the MEK Plant; Delta V系统在甲乙酮装置中的应用 6) o-methylethylbenzene 邻甲乙苯 1. The effects of the content of o-methylethylbenzene in 1,2,3-trimethylbenzene as raw material on the yield and quality of the product,and the effects of using mixed trimethylben-zenes as supplement of raw material after simple seperation on the forme. 从 C_9芳烃分子结构方面探讨了邻甲乙苯在偏三甲苯异构化反应中优先反应机理;考察了偏三甲苯原料中邻甲乙苯含量对均三甲苯产品产量和质量的影响及塔底油经简单分离后的混合三甲苯作为原料补充料使用对反应生成油的影响。 2. The results show that o-methylethylbenzene could be separated from mesitylene successfully by fractionthi. 介绍了均三甲苯分离技术的新发展,研究开发了一种新工艺,以叔丁醇为烷基化剂,无水三氯化铝为催化剂,通过傅-克烷基化反应将邻甲乙苯转化成沸点较均三甲苯高的重组分,使二者能通过常规精馏的方法得以有效地分离。参考词条甲乙方甲乙寺甲乙煎甲乙酐甲乙哌酮甲乙双酮补充资料：N,N-二(乙基-硫乙基-氨基甲酰氨基-氨基丙烷)甲胺 CAS：85638-86-4 中文名称：N,N-二(乙基-硫乙基-氨基甲酰氨基-氨基丙烷)甲胺英文名称：N,N-di-(Ethyl thioethane aminocarbamoyl-aminopropane)aminomethane 说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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