Chemistry of Petrochemical Processes, 2nd Edition

The C 4 olefins produce fewer chemicals than either ethylene or propylene. However, C 4 olefins and diolefins are precursors for some significant big-volume chemicals and polymers such as methyl-ter-butyl ether, adiponitrile, 1,4-butanediol, and polybutadiene.
Butadiene is not only the most important monomer for synthetic rubber production, but also a chemical intermediate with a high potential for producing useful compounds such as sulfolane by reaction with SO2,1,4-hutanediol by acetoxylation-hydrogenation, and chloroprene by chlorination-dehydrochlorination.
The three isomers constituting n-butenes are 1-butene, cis-2-butene, and trans-2-butene. This gas mixture is usually obtained from the olefinic C 4 fraction of catalytic cracking and steam cracking processes after separation of isobutene (Chapter 2). The mixture of isomers may be used directly for reactions that are common for the three isomers and produce the same intermediates and hence the same products. Alternatively, the mixture may be separated into two streams, one constituted of 1-butene and the other of cis-and trans-2-butene mixture. Each stream produces specific chemicals. Approximately 70% of 1-butene is used as a comonomer with ethylene to produce linear low-density polyethylene (LLDPE). Another use of 1-butene is for the synthesis of butylene oxide. The rest is used with the 2-butenes to produce other chemicals. n-Butene could also be isomerized to isobutene.1
This section reviews important reactions leading to various chemicals from n-butenes.
The mixture of n-butenes (1- and 2-butenes) could be oxidized to different products depending on the reaction conditions and the catalyst. The three...