Improvements in Methyl Ethyl Ketone Production Through Intensified Processes

“…As a matter of fact, the remaining C4 mixture after the separation of 1-butene is rich in 2-butene, including cis -2-butene and trans -2-butene, which can be just used as a fuel. However, 2-butene can be utilized together with 1-butene to produce methyl ethyl ketone (MEK) via the hydration of 1-butene/2-butene 7 or isobutene via the skeletal isomerization of the linear butene 8 or propylene via butene cross-metathesis. 9 Recently, the conversion of 2-butene into 1-butene via double bond isomerization has also been paid much attention in both academia and industry.…”

UiO-66 derived ZrO₂@C catalysts for the double-bond isomerization reaction of 2-butene

“…As a matter of fact, the remaining C4 mixture after the separation of 1-butene is rich in 2-butene, including cis -2-butene and trans -2-butene, which can be just used as a fuel. However, 2-butene can be utilized together with 1-butene to produce methyl ethyl ketone (MEK) via the hydration of 1-butene/2-butene 7 or isobutene via the skeletal isomerization of the linear butene 8 or propylene via butene cross-metathesis. 9 Recently, the conversion of 2-butene into 1-butene via double bond isomerization has also been paid much attention in both academia and industry.…”

UiO-66 derived ZrO₂@C catalysts for the double-bond isomerization reaction of 2-butene

Synthesis of highly basic, low-cost iron oxides from tin can waste as valorization of municipal solid waste and study of their catalytic efficiency as potent catalysts for MEK production