Process for fluid catalytic cracking oligomerate

The invention claimed is: 1. A process for making propylene comprising: cracking a hydrocarbon feed stream and a distillate recycle stream comprising distillate hydrocarbons over an FCC catalyst in an FCC zone to produce a cracked product stream; recovering a propylene product stream from said cracked product stream; obtaining an oligomerization feed stream comprising C 4 olefins and between 15 to 70 wt % C 5 olefins from said cracked product stream; passing said oligomerization feed stream to an oligomerization zone to oligomerize said oligomerization feed stream over a zeolite catalyst having a uni-dimensional 10-membered ring pore structure to produce an oligomerate stream comprising less than about 80 wt % C 9+ hydrocarbons; separating said oligomerate stream in a distillate separator, having an overhead pressure of between about 10 and about 60 kPa (gauge) and a bottom temperature of between about 225° C. and about 275° C. to provide a gasoline stream and said distillate recycle stream comprising distillate hydrocarbons; and wherein said distillate recycle stream has a boiling point of between about 200° C. and about 400° C. 2. The process of claim 1 , wherein said zeolite catalyst has an MTT pore structure. 3. The process of claim 1 wherein a maximum temperature of a bed of said zeolite catalyst is between about 200 and about 250° C. 4. The process of claim 1 wherein a portion of said C 4 olefins oligomerize with a portion of said C 5 olefins in said oligomerization zone. 5. The process of claim 1 wherein said distillate recycle stream and said hydrocarbon feed stream are cracked in a riser in the FCC zone. 6. The process of claim 1 further comprising obtaining an intermediate stream comprising C 5 hydrocarbons from said oligomerate stream in a recovery zone and purging a portion of said intermediate stream as a purge stream and recycling a portion of said intermediate stream as a C 5 recycle stream to said oligomerization zone. 7. The process of claim 1 further comprising sending said gasoline stream to a gasoline tank or a gasoline blending line. 8. A process for making propylene comprising: cracking a hydrocarbon feed stream and a distillate recycle stream comprising distillate hydrocarbons over an FCC catalyst in an FCC zone to produce spent FCC catalyst and a cracked product stream; regenerating said spent FCC catalyst; recovering a propylene product stream from said cracked product stream; obtaining an oligomerization feed stream comprising C 4 olefins from said cracked product stream; passing said oligomerization feed stream to an oligomerization zone to oligomerize C 4 olefins in said oligomerization feed stream over a zeolite catalyst having a uni-dimensional 10-membered ring pore structure to produce an oligomerate stream comprising C 8+ olefins; separating said oligomerate stream in a distillate separator having an overhead pressure of between about 10 and about 60 kPa (gauge) and a bottom temperature of between about 225° C. and about 275° C. to provide a gasoline stream and said distillate recycle stream comprising distillate hydrocarbons; wherein said distillate recycle stream has a boiling point of between about 200° C. and about 400° C.; and wherein said zeolite catalyst is an MTT. 9. The process of claim 8 wherein the oligomerization feed stream also comprises C 5 olefins and wherein a portion of said C 4 olefins oligomerize with a portion of said C 5 olefins in said oligomerization zone. 10. The process of claim 8 wherein said distillate recycle stream comprises C 12 olefins. 11. The process of claim 8 wherein said distillate recycle stream and said hydrocarbon feed stream are cracked in a riser in the FCC zone. 12. The process of claim 8 further comprising sending said gasoline stream to a gasoline tank or a gasoline blending line. 13. A process for making propylene comprising: cracking a hydrocarbon feed stream and a distillate recycle stream comprising distillate hydrocarbons over an FCC catalyst in an FCC zone to produce spent FCC catalyst and a cracked product stream; regenerating said spent FCC catalyst; recovering a propylene product stream from said cracked product stream; obtaining an oligomerization feed stream comprising C 4 olefins from said cracked product stream; passing said oligomerization feed stream to an oligomerization zone to oligomerize C 4 olefins in said oligomerization feed stream to produce an oligomerate stream comprising greater than 30 wt % C 9+ olefins; separating the oligomerate stream in a distillate separator having an overhead pressure of between about 10 and about 60 kPa (gauge) and a bottom temperature of between about 225° C. and about 275° C. to provide a gasoline stream and said distillate recycle stream comprising distillate hydrocarbons; recycling a portion of the gasoline stream to the oligomerization zone; and wherein said distillate recycle stream consists essentially of C 11+ olefins and has a boiling point of between about 200° C. and about 400° C. 14. The process of claim 13 further comprising oligomerizing said C 4 olefins over an MTT zeolite. 15. The process of claim 13 wherein said distillate recycle stream and said hydrocarbon feed stream are cracked in a riser in the FCC zone.