The S-TDT process can produce mixed xylenes and benzene in an aromatics complex through disproportionation of toluene and transalkylation of toluene and C9+ aromatics (C9+…
Category: Petrochemical
Application: The UOP Isomar process isomerizes C8 aromatics to mixed xylenes, to maximize the recovery of paraxylene in a UOP aromatics complex. Depending on the…
GT-IsomPX is GTC’s xylene isomerization technology available in two versions: ethylbenzene (EB) isomerization and EB dealkylation. Both versions gain high ethylbenzene conversion rates while producing…
To selectively isomerize a paraxylene-depleted C8 aromatics mixture to greater than equilibrium paraxylene (PX) concentration using ExxonMobil Chemical’s XyMax and Advanced MHAI processes. Simultaneously, ethylbenzene…
To oxidize sodium sulfide (Na2S) component in the caustic scrubber effluent of olefin plants with air using wet air oxidation (WAO) process developed by JX…
To produce urea from ammonia (NH3) and carbon dioxide (CO2) using the Stamicarbon CO2 stripping urea technology. Urea finds its application for 90% as fertilizer;…
To produce urea from ammonia (NH3) and carbon dioxide (CO2) using the Stamicarbon CO2 stripping urea technology. Urea finds its application for 90% as fertilizer;…
To produce urea from ammonia (NH3) and carbon dioxide (CO2) using the Stamicarbon CO2 stripping urea technology. Urea finds its application for 90% as fertilizer;…
To produce urea from ammonia (NH3) and carbon dioxide (CO2) using the CO2 stripping process. Ammonia and carbon dioxide react at 155 bar to synthesize…
To produce urea from ammonia and carbon dioxide using an ammonia-stripping process. Ammonia (NH3) and carbon dioxide (CO2) react at 150 bar to yield urea…