OMEGA Technology

OMEGA Technology

OMEGA technology Enhancing propylene production with using olefinic C4/C5 cuts Overview Commercial operation The first OMEGA commercial unit is located at the Mizushima Works of developer Asahi Kasei OMEGA utilizes a unique high Corporation in Japan. It was started in 2006 with a capacity of 50 kta propylene using a C4 selectivity catalyst to maximize raffinate feedstock from a 450 kta steam cracker. The unit has demonstrated stable operation, with the same catalyst in use for more than propylene yield 6 years. The OMEGA process unit produces propylene by catalytic cracking of olefinic C4/C5 feeds. It can be integrated with either steam crackers or FCC/DCC units and can also be added as a revamp to an existing steam cracker. The production of propylene from these feeds through OMEGA increases the overall propylene to ethylene ratio of a project and requires a lower specific energy consumption than steam cracking alone. Developed and commercialized by Asahi Kasei Corporation the process is exclusively licensed by TechnipFMC. Mizushima OMEGA Asahi Kasei 2 OMEGA technology OMEGA technology 3 How the OMEGA OMEGA feedstocks and process works typical product yields C3- to CGC Other C2 and Lighter 0.6 wt% Depropaniser Depentaniser (option) ~530 to 600°C 0 to 5 barg Ethylene 8.0 wt% C4/C5 Feed C4 Rafnate Propylene 47.3 wt% 87% Olens Feed Omega Propane 2.1 wt% Heater Reactor Compressor C6+ C4s 29.4 wt% to GHU-2 C4+ recycle C4+ C5+ Gasoline 12.6wt% A schematic of the OMEGA process (BTX 3.4 wt%) The process uses a pair of single stage, A portion of the C4 and heavier stream is The OMEGA process can convert a wide range OMEGA catalyst adiabatic, fixed bed swing reactors with recycled to the reactor, to maximize the of olefinic steam cracker and FCC/DCC unit one reactor in operation while the other propylene yield. The remainder can pass to streams without consuming ethylene product. is regenerated. The reaction favors low the steam cracker furnaces or be exported. Developed and supplied by Asahi Kasei, In a steam cracker unit, this is typically pressures (0 to 5 barg) and high temperatures In addition, a Depentaniser column can the catalyst is a proprietary alumina selectively hydrogenated C4 and C5 streams (530 to 600°C). be incorporated into the flow scheme to silicate zeolite type, based on ZSM-5. It or raffinate streams from butadiene maximize the recovery of aromatics. has a high propylene selectivity and low The reactor effluent is separated into a C3 extraction or butene-1 production. C4 and coke formation. It is also highly resistant and lighter stream that passes to a steam lighter gasoline streams from an FCC/DCC unit to regeneration deactivation and coking cracker unit for recovery of the ethylene and can also be used as feedstocks. deactivation. propylene components. The ultimate yield of products from OMEGA using a C4 raffinate-1 stream after butadiene extraction is shown above. 4 OMEGA technology OMEGA technology 5 OMEGA integration C2- DCC Hydrowax/ Unit Re nery Btms Ethylene Butadiene Propylene Oil/Gasoline Naphtha Raw C4s C4 Raf nate-1 BD Unit DCC C4/C5 Furnaces Recovery Raw Pygas C6+ C6-C8 GHU-1 GHU-2 FO C6+ C9+ C5s OMEGA Unit C3- C4/C5 recycle Integration of OMEGA with a steam cracker or FCC/DCC unit The OMEGA unit can be integrated with a can be extracted. If the raw pygas stream steam cracker as a grassroots project. It can from a steam cracker unit passes to a gasoline also be part of a revamp using a C4/C5 cut hydrogenation unit, then a C5 stream from from a steam cracker alone or integrated the first stage can also feed the OMEGA unit. with a Deep Catalytic Cracking (DCC) or Fluid The production of propylene from C4/C5 feed Catalytic Cracking (FCC) unit. streams in the OMEGA process increases Olefins-rich FCC/DCC streams can feed the overall propylene to ethylene ratio and the OMEGA unit independently, or can be has a lower specific energy consumption combined with steam cracker feedstock. than steam cracking alone. To evaluate the economics for a specific project, a feasibility The raw C4 stream from a steam cracker can study is recommended. be selectively hydrogenated or the butadiene Mizushima OMEGA Asahi Kasei 6 OMEGA technology OMEGA technology 7 France Jean-Paul Laugier +33 1 47 78 34 96 [email protected] UK Nigel Lim +44 776 644 1273 [email protected] USA Tom Pickett +1 281 848 5216 [email protected] TechnipFMC.com © TechnipFMC plc 2018 .

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