Olefin conversion technology
Olefin Conversion Technology, also called the Phillips Triolefin Process, is the industrial process that interconverts propylene with ethylene and 2-butenes.[1] The process is also called the ethylene to propylene (ETP) process. In ETP, ethylene is dimerized to 1-butene, which is isomerized to 2-butenes. The 2-butenes are then subjected to metathesis with ethylene.
Rhenium- and molybdenum-containing heterogeneous catalysis are used. Nowadays, only the reverse reaction is practiced, i.e., the conversion of ethylene and 2-butene to propylene:[2]
- CH2=CH2 + CH3CH=CHCH3 → 2 CH2=CHCH3
The technology is founded on an olefin metathesis reaction discovered at Phillips Petroleum Company.[3] The originally described process employed catalysts molybdenum hexacarbonyl, tungsten hexacarbonyl, and molybdenum oxide supported on alumina.
References
- ^ Blay, Vincent; Epelde, Eva; Miravalles, Rubén; Perea, Leo Alvarado (2018). "Converting Olefins to Propene: Ethene to Propene and Olefin Cracking". Catalysis Reviews Science and Engineering. 60: 278. doi:10.1080/01614940.2018.1432017.
- ^ Ghashghaee, Mohammad (2018). "Heterogeneous catalysts for gas-phase conversion of ethylene to higher olefins". Rev. Chem. Eng. 34: 595-655. doi:10.1515/revce-2017-0003.
- ^ Banks, R. L.; Bailey, G. C. (1964). "Olefin Disproportionation. A New Catalytic Process". Industrial & Engineering Chemistry Product Research and Development. 3 (3): 170–173. doi:10.1021/i360011a002.
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- Crystal field theory
- Ligand field theory
- 18-electron rule
- d electron count
- Polyhedral skeletal electron pair theory
- Isolobal principle
- π backbonding
- Dewar–Chatt–Duncanson model
- Hapticity
- spin states
- Agostic interaction
- Metal–ligand multiple bond
- Gilman reagents
- Grignard reagents
- Cyclopentadienyl complexes
- Transition metal indenyl complexes
- Transition metal fullerene complexes
- Metallocenes
- Metal tetranorbornyls
- Sandwich compounds
- Half sandwich compounds
- Transition metal acyl complexes
- Transition metal carbene complexes
- Transition metal carbyne complexes
- Transition metal alkene complexes
- Transition metal alkyne complexes
- Transition-metal allyl complexes
- Transition metal carbides
- Arene complexes of univalent gallium, indium, and thallium