SINOPEC diesel hydroupgrading-isodewaxing technology (FHI), aiming at the production of diesel for the cold seasons and regions, is designed to process a variety of middle distillate feedstocks includ...
RMC developed by SINOPEC is a hydrocracking technology under medium pressure. The feedstock of RMC can be VGO or mixture of VGO and CGO or LCO. RMC is applied in producing heavy naphtha with high pote...
Inferior diesels are of high sulfur, nitrogen, aromatics and olefin content, low cetane number, poor stability, thus it cannot be used profitably. SINOPEC has developed a medium-pressure hydro-u...
RHC-U Hydrocracking Technology developed by SINOPEC can be applied in the production of unconverted oil, which is adapted for producing more ethylene cracking feedstock or lubricant base oil feedstock...
CFHL technology is employed to produce maximum diesel from synthetic oil. Low-temperature Fischer-Tropsch synthesis (LTFT) process produces high quality feedstock for ethylene cracking, non-aromatic s...
Benefiting from accumulated experiences in R&D of high pressure and medium pressure hydrotreating and hydrocracking technologies, SINOPEC single-stage hydrocracking technology (SHC) mainly aims at...
On the basis of accumulated experiences in R&D of high pressure and medium pressure hydrotreating and hydrocracking technologies for many years, SINOPEC single-stage, double-catalyst hydrocracking...
SINOPEC single-stage in series hydrocracking technology is used to convert a wide variety of heavy feedstocks including VGO or the blends of VGO, CGO and DAO into low molecular weight products for pet...
SINOPEC has been engaged in the R&D of hyrotreating and hytrocracking processes under middle or high pressure conditions for many years. SINOPEC’s FMD1 and RHC-M technologies are used to convert ...
SINOPEC has been engaged in the R&D on hyrotreating and hytrocracking processes under medium or high pressure conditions for many years. FHC technology is one of the many hydrotreating and hytrocr...
FCC light cycle oil (LCO) are characterized by its high content of sulfur, nitrogen and aromatics, high density, poor color, low cetane number (CN) or cetane index (CI) and low stability. In order to ...
