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Dow METEOR (Most Effective Technology for Ethylene Oxide Reactions) is an integrated technology for producing ethylene oxide and its subsequent hydrolysis into ethylene glycol. The glycol yield is 90–93%. The main advantage of the process is relative simplicity, using fewer stages and less equipment.
In organic chemistry, ethoxylation is a chemical reaction in which ethylene oxide (C 2 H 4 O) adds to a substrate. It is the most widely practiced alkoxylation, which involves the addition of epoxides to substrates. In the usual application, alcohols and phenols are converted into R(OC 2 H 4) n OH, where n ranges from 1 to 10. Such compounds ...
For example ethylene oxide polymerizes to give polyethylene glycol, also known as polyethylene oxide. The reaction of an alcohol or a phenol with ethylene oxide, ethoxylation, is widely used to produce surfactants: [28] ROH + n C 2 H 4 O → R(OC 2 H 4) n OH. With anhydrides, epoxides give polyesters. [29]
Ethylene glycol is produced from ethylene (ethene), via the intermediate ethylene oxide. Ethylene oxide reacts with water to produce ethylene glycol according to the chemical equation. C 2 H 4 O + H 2 O → HO−CH 2 CH 2 −OH. This reaction can be catalyzed by either acids or bases, or can occur at neutral pH under elevated temperatures. The ...
The OMEGA process ("Only MEG Advantage") [1] is a chemical process discovered by the Shell Global Solutions company that is used to produce ethylene glycol from ethylene.This process comprises two steps, the controlled oxidation of ethylene to ethylene oxide, and the net hydrolysis of ethylene oxide to monoethylene glycol (MEG). [2]
ethylene: epoxidation: mixed Ag oxides (heterogeneous) ethylene oxide: basic chemicals, surfactants cyclohexane: K-A process: Co and Mn salts (homogeneous) cyclohexanol cyclohexanone: nylon precursor ethylene: Wacker process: Pd and Cu salts (homogeneous) acetaldehyde: basic chemicals para-xylene: terephthalic acid synthesis: Mn and Co salts ...
Most of the reactions with ethylene are electrophilic addition. [citation needed] Main industrial uses of ethylene. Clockwise from the upper right: its conversions to ethylene oxide, precursor to ethylene glycol; to ethylbenzene, precursor to styrene; to various kinds of polyethylene; to ethylene dichloride, precursor to vinyl chloride.
Triethanolamine is produced from the reaction of ethylene oxide with aqueous ammonia, also produced are ethanolamine and diethanolamine. The ratio of the products can be controlled by changing the stoichiometry of the reactants. [4]