Methyl Ethyl Ketone (MEK)
What is Methyl Ethyl Ketone (MEK)?
Methyl Ethyl Ketone is an organic compound often
abbreviated to MEK which is used in many industrial production processes. It is
a colorless liquid with a smell bit like mint mixed with acetone, and as a
ketone (it contains a carbonyl group bonded to two hydrocarbon groups). Its
vapors are heavier than air, it's non-reactive with water, and is a stable
organic compound under normal conditions. It is a natural solvent, making it a
key component in many different chemical mixes and surface treatments. It is an isomer of the tetrahydrofuran, which is a
popular solvent.
The other name of MEK butanone, 2-butanone, ethyl
methyl ketone, and methyl acetone.
Physical Property Of MEK: -
|
Butanone
Formula |
C4H8O |
|
Molecular
Weight |
72.107
g/mol |
|
Density
|
0.8050 g/ml |
|
Melting
Point |
-86°C (187K) |
|
Boiling
point |
79.64°C (352.79K) |
|
Acidity
(pka) |
14.7 |
|
Heat of
Combustion |
8084 Cal/g |
Production Of Methyl Ethyl Ketone: -
This process is in
two steps. Methyl ethyl ketone
manufacture by secondary-butyl alcohol dehydrogenation is a two- step process where the first step involves
the hydration of butanes to produce secondary-butyl alcohol.
The second step consists of the dehydrogenation of secondary-butyl alcohol yielding MEK and hydrogen gas. The dehydrogenation of 2-butanol takes place using a catalyst like copper, zinc, or bronze. It is maintained at temperature in between 400°C to 550°C. This method is used to produce approximately 700 million kilogram yearly.
Other Method: -
The other method that is
not much popular but can yield methyl acetone is Wacker oxidation of isobutyl
benzene and 2-butene. The modification of the Cumene process can lead to the
production phenol and a mixture of butanone and acetone. The liquid-phase
oxidation of Fischer-Tropsch and heavy Naphtha reaction can generate mixed
oxygenate streams, which can lead to the extraction of methyl ketone using
fractionation.
Hazards of Methyl Ethyl Ketone: -
MEK poses some hazards, including:
1. Flammability - Methyl ethyl ketone is highly flammable
and reacts with many oxidizing materials and is explosive, needing only a spark
or hot surface to cause a reaction. It's also possible for containers of MEK to
burst or explode when heated, due to excessive pressure build-up. Using
alcohol-resistant foam, carbon dioxide or dry powder will extinguish the fire.
2. Irritant - MEK causes serious irritation to
the eyes and nose. It is also a component of tobacco smoke
Uses of Methyl Ethyl Ketone: -
The primary use of methyl ethyl ketone is as a solvent. It is because of
this that it's one of the most important commercially-produced ketones, second
only to acetone - in fact, the two chemical compounds have much in common. Because methyl ethyl ketone is such a highly effective solvent, it is a common
ingredient in processing resins, coatings, and mixtures; as well as
manufacturing plastics, inks, and dyes. Methyl ethyl ketone is also used in the manufacture of paints, to clean
electronic components, as a flavouring agent in food, and to clean surgical
instruments as it can effectively kill bacteria.
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