Axens Awarded Qatar Refinery Contracts

abarrelfullabarrelfull wrote on 07 Mar 2013 20:38
Tags:


APRIL 28 - 2008

Qatar Petroleum has awarded Axens basic engineering design contracts for the new 250,000 barrel per day (bpd) Al Shaheen refinery to be built in the Messaieed Industial City in Qatar. Axens will supply the following process technologies for the refinery:

Hyvahl™ - 51,000 bpd, fixed-bed, 100% vacuum residue desulfurization (VRDS) unit equipped with its proprietary PRSSM permutable guard-bed reactor system
R2R™ – 60,000 bpd residue fluidized catalytic cracker (RFCC) technology
Prime-G+™ - 30,000 bpd RFCC gasoline desulfurization unit.
The refinery units will be provided with the latest advanced technologies making this one of the most modern refinery complexes in the world. The facility is scheduled to be operational by Q1 2012.

The long cycle lengths obtained in the Hyvahl unit on the 11% asphalt containing Al Shaheen VR feed is made possible by the PRS system. The unit will also employ the latest ACT grading materials, HF 858 demetallization and HT 438 desulfurization catalysts, and EquiFlow™ reactor internals. The Hyvahl unit radically improves the feed quality to the R2R unit while co-producing a diesel cut that is subsequently upgraded.

The R2R RFCC is a highly reliable cold-wall construction adapted to maximize gasoline and propylene production. Some features of this technology are its MTCSM mixed temperature control, the advanced RS2SM riser termination device and KFBE™ structured stripper packing. The unit is also equipped with a catalyst cooler from Sinopec Engineering Inc. The basic engineering design of the R2R unit was completed by The Shaw Group, Inc’s, Energy and Chemicals Group. R2R is part of the Axens, Shaw, Total and IFP FCC Technology Alliance.

Finally, the world’s benchmark in FCC naphtha desulfurization technology, Prime-G+™, will ensure the production of ultra-low sulfur gasoline.


Unless otherwise stated, the content of this page is licensed under Creative Commons Attribution-ShareAlike 3.0 License