METHOD FOR CONVERTING A HEAVY LOAD USING A CATALYTIC CRACKING UNIT AND A STEP FOR SELECTIVE HYDROGENATION OF GASOLINE FROM CATALYTIC CRACKING

METHOD FOR CONVERTING A HEAVY LOAD USING A CATALYTIC CRACKING UNIT AND A STEP FOR SELECTIVE HYDROGENATION OF GASOLINE FROM CATALYTIC CRACKING

The method comprises (a) catalytic cracking (FCC) of a heavy cut producing a cut petrol C5-220[deg] C when the FCC is directed towards the production of petrol and C5-150[deg] C when the FCC is directed towards the production of average distillate, (b) performing selective hydrogenation of the cut p...

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Bibliographische Detailangaben
Hauptverfasser: Touchais, Natacha, Pucci, Annick, Feugnet, Frederic, Dulot, Hugues, Hugues, François
Format: Patent
Sprache:hrv ; eng
Schlagworte:
ACYCLIC OR CARBOCYCLIC COMPOUNDS
CHEMISTRY
CRACKING HYDROCARBON OILS
FUELS
LUBRICANTS
METALLURGY
MINERAL WAXES
ORGANIC CHEMISTRY
PEAT
PETROLEUM, GAS OR COKE INDUSTRIES
PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVEHYDROGENATION, OLIGOMERISATION, POLYMERISATION
RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, ORGASES
REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS
REFORMING OF NAPHTHA
TECHNICAL GASES CONTAINING CARBON MONOXIDE
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Beschreibung
Zusammenfassung:The method comprises (a) catalytic cracking (FCC) of a heavy cut producing a cut petrol C5-220[deg] C when the FCC is directed towards the production of petrol and C5-150[deg] C when the FCC is directed towards the production of average distillate, (b) performing selective hydrogenation of the cut petrol output from a catalytic cracking unit (2), (c) separating the petrol output from of the step (b) by distillation to separate two cuts including a cut light petrol C5-pF and a cut heavy petrol pF-220[deg] C, and (d) purifying light petrol C5-pF output to reduce nitrogen to less than 0.2 ppm. The method comprises (a) catalytic cracking (FCC) of a heavy cut producing a cut petrol C5-220[deg] C when the FCC is directed towards the production of petrol and C5-150[deg] C when the FCC is directed towards the production of average distillate, (b) performing selective hydrogenation of the cut petrol output from a catalytic cracking unit (2) functioning at a pressure of 0.5-5 MPa, a temperature of 80-220[deg] C and liquid hourly space velocity (LHSV) of 1-10 hours -> 1>, where the LHSV is expressed in liters of load per liter of catalyst per hour, (c) separating the petrol output from of the step (b) by distillation to separate two cuts including a cut light petrol C5-pF and a cut heavy petrol pF-220[deg] C, where the temperature pF is a boundary between light petrol and heavy petrol and in a range of 50-80[deg] C, (d) purifying light petrol C5-pF output from of the step (c) to reduce nitrogen to less than 0.2 ppm, (e) performing oligomerization of light petrol C5-pF output from the step (d), and (f) separating oligomers obtained at the step (e) to release two cuts including a cut petrol C5-150[deg] C and a cut distillate 150[deg] C+. The operating conditions of the step (e) are: temperature of 120-250[deg] C; pressure of 3-6 MPa; and catalysts based on sulfonic resin type when the method functions in maximum mode propylene. The cut petrol C5-150[deg] C and the cut distillate 150[deg] C+ output from of the step (f) are recycled with the FCC when the method functions in the maximum mode propylene. The cut distillate 150[deg] C-360[deg] C output from the step (f) after the step (e) is recycled in the FCC to improve aggregate output of petrol such as selectivity of petrol compared to the average distillate when the method functions in a maximum mode petrol. The operating conditions of the step (e) are: temperature of 150-350[deg] C; pressure of 3-6 MPa; and catalyst ba