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1)  Methyl Isobutyl Ketone
甲基异丁基酮
1.
Measurement and correlation of liquid-liquid equilibrium data for methyl isobutyl ketone-water-phenol ternary system;
甲基异丁基酮-水-苯酚三元物系液液相平衡数据的测定与关联
2.
Study on rectification system in the methyl isobutyl ketone production by one step synthesis from acetone;
丙酮一步法合成甲基异丁基酮过程中精镏系统的研究
3.
New bimetallic catalyst used for synthesis of methyl isobutyl ketone from acetone;
丙酮一步法合成甲基异丁基酮的双金属新型催化剂的研制
2)  MIBK
甲基异丁基酮
1.
Optimization of Separation System of One-Step MIBK Synthesis from Isopropanol;
异丙醇一步法生产甲基异丁基酮分离过程的研究
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.
Technology economy analyse of Synthesis of Methyl-isobutyl Ketone (MIBK);
合成甲基异丁基酮工艺的技术经济分析
3)  MIBK
甲基异丁酮
1.
MIBK is employed to extract the complex from aqueous solution,which separates Fe~(2+) from Fe~(3+) and reduces speciation transformation between the two oxidation states.
显色剂PAN与铁(Ⅱ)在pH1的介质中络合显色,Fe(Ⅲ)在此酸度下不显色,以甲基异丁酮为萃取剂,将Fe2+-PAN萃取到有机相,实现铁(Ⅱ)和Fe(Ⅲ)的分离。
2.
6 meanwhile Cr3+was hardly extracted when chromium in waste water was extracted by the mixing solvent extrations of MIBK and TBP on condition that PH was less than 1.
在pH<1的溶液中,用甲基异丁酮(MIBK)与磷酸三丁酯(TBP)混合作为萃取剂,萃取废水中的铬时,六价铬的分配比为108。
4)  methyl isobutyl ketone
甲基异丁酮
1.
The ammonium pyrrolidinyldithiocarboxylate (APDC) was used as a chelate reagent, and then the Pb2+-APDC complex was extracted by methyl isobutyl ketone from an aqueous phase to an organic phase.
利用吡咯烷二硫代氨基甲酸铵作为螯合剂,甲基异丁酮作为萃取剂,将水相中的Pb2+萃取到有机相中,利用经典的三电极系统研究该有机相在液/液界面的伏安特性。
2.
Iodine equi-volume extracted with methyl isobutyl ketone from aqueous solution,and then 20~40 μL of an organic solution containing iodine was injected into a pipette using a microsyringe,and the combine electrode was set just on the surface of the aqueous solution.
利用甲基异丁酮(MIBK)作为萃取剂,等体积法将水中的碘萃取到有机相中,微量进样器将20~40μL有机溶液注入玻璃微管中,使它处于界面上。
3.
Slaking the sample of human hair by nitric acid and perchloric acid, then extracting trace cadmium from it by potassium iodide and methyl isobutyl ketone, then spraying the organic phase and mensurating the content of cadmium, and making a comparision between direct method standard addition method and atomic absorption spectrophotometry, the result showed that c.
以硝酸—高氯酸为消化液,消解人发试样,采用碘化钾—甲基异丁酮萃取发样中的镉,采用原子吸收分光光度法,将有机相喷雾测定。
5)  Methyl isobutyl ketone
甲基异丁基甲酮
1.
Indirect determination of trace phosphorus in steel by flame atomic absorption spectrometric determination of molybdenum after extraction of heterphosphomolybdic acid with methyl isobutyl ketone;
甲基异丁基甲酮萃取磷钼杂多酸-钼火焰原子吸收光谱法间接测定钢中磷
2.
Preparation of methyl isobutyl carbinol(MIBC)was studied by catalytic hydrogenation of methyl isobutyl ketone(MIBK)in liquid phase on Raney nickel catalyst.
实验结果表明,在最佳工艺条件下,甲基异丁基甲酮的转化率达到100。
3.
The nano ferric oxide powder was prepared by using methyl isobutyl ketone as extractant.
以轧钢皮粉为原料,利用甲基异丁基甲酮对铁的高萃取性采用萃取法制取高纯氧化铁红,探讨了萃取工艺对氧化铁收率的影响。
6)  MIBK
甲基异丁基甲酮
1.
Effects of MIBK on ICP Emission Spectral Analysis;
甲基异丁基甲酮对电感耦合等离子体发射光谱分析的影响
2.
An extraction process of the phenol hydroxylation mixture with MIBK and DIPE as extraction solvents,and at different solvent-solute ratios was studied.
针对甲基异丁基甲酮(MIBK)和异丙醚(DIPE)两种萃取剂以及在不同剂溶比时萃取苯酚羟化液的萃取效果进行了比较;并进一步采用磷酸三丁酯(TBP)为配合剂、甲基异丁基甲酮(MIBK)为稀释剂研究了苯酚羟化液的配合萃取。
3.
The distribution coefficients of MIBK to phenol and polyhydric phenols are greater than those of DIPE.
而萃取溶剂甲基异丁基甲酮(MIBK)相比二异丙醚(DIPE)对污水中单元酚和多元酚有更高的分配系数,MIBK的萃取应用将从污水中回收更多的酚类成分,从而在煤气化污水生化处理前COD能进一步降低。
补充资料:甲基异丁基酮
分子式:C6H12O
分子量:100.16
CAS号:108-10-1

性质:无色稳定可燃液体,有愉快气味。凝固点-84℃(-80.4℃),沸点116.8℃,相对密度0.8020(20/4℃),折射率1.3962,闪点22.78℃,自然点460℃。能与醇、苯、乙醚及多数有机溶剂混溶,微溶于水。蒸气与空气形成爆炸性混合物,爆炸极限1.4%-7.5%(体积)。

制备方法:由异丙叉丙酮经催化选择加氢而得。1t产品消耗异丙叉丙酮约1220kg,氢气550m3。另一种生产工艺是丙酮一步法。液体丙酮经预热,在KON-AL2O3-Pb、Mg-SiO-Pb、阳离子交换树脂-钯、磷酸锆-巴和铜铬等双功能催化剂作用下,在一个固定床反应器中缩合、脱水和加氢反应,生成MIBK。该法流程短,投资小,转化率高,成本低。国内最大的MIBK装置,由金陵石化化肥厂与天津大学合作,采用丙酮一步法,在95年2月投产,产品纯度达到99%。也可由异丙醇在常压下缩合而得。

用途:该品是优良的中沸点溶剂。用作选矿剂、油品脱蜡用溶剂、彩色影片的成色剂,也用作四环素和除虫菊酯类和DDT的溶剂、粘合剂、橡胶胶水、飞机和模型的蒙布漆。对一些无机盐也是有效的分离剂,可从铀中分出钚,从钽分出铌,从铪分出锆。它的过氧化物是聚酯类树脂聚合反应中非常重要的引发剂。也用于有机合成工业。还可用作乙烯型树脂的抗凝剂和稀释剂。

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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