Deep-catalytic cracking (DCC) is a catalytic conversion technology that uses heavy hydrocarbon feedstocks, such as vacuum gasoil (VGO), vacuum resid (VR) or VGO blended with…
The UOP/HYDRO Methanol-to-Olefins (MTO) Process produces ethylene and propylene from methanol derived from raw materials such as natural gas, coal, petroleum coke or biomass. This…
The Oleflex process is used to produce polymer-grade propylene from propane. The complex consists of a reactor section, continuous catalyst regeneration (CCR) section, product separation…
The Total Petrochemicals/UOP Olefin Cracking Process (OCP) is used to primarily produce propylene from C4 to C8 olefins supplied by steam crackers, refineries and/or methanol-to-olefins…
Technology for dehydrogenation of propane to make highpurity propylene. The CATOFIN process uses specially formulated proprietary catalyst from Süd-Chemie. Description: The CATOFIN reaction system consists…
To produce propylene and ethylene from low-value, light (C4 to C10) hydrocarbon olefins-containing streams from ethylene plants and refineries. Suitable feeds include C4/C5 streams from…
When the process objective is maximum propylene production, specific technology features must be added to the fluid catalytic cracking (FCC)/resid FCC (RFCC) unit. The challenge…
The worldwide demand for gasoline, diesel and petrochemicals is shifting toward a greater emphasis on diesel and propylene, and flexibility to meet changing demands will…
To produce a wide range of high-impact polystyrene (HIPS) with well-balanced mechanical properties and processability via the continuous bulk polymerization process using Toyo Engineering Corp.…
To produce a wide range of general purpose polystyrene (GPPS) with excellent high clarity and suitable properties to process PS foam via direct injection extrusion…