High severity fluidized catalytic cracking systems and processes for producing olefins from petroleum feeds

What is claimed is: 1. A system for producing at least one petrochemical product from a hydrocarbon material, the system comprising: a first cracking reaction zone; a first separation zone downstream of the first cracking reaction zone; a first regeneration zone downstream of the first separation zone; a first stripping zone downstream of the first separation zone; a first riser positioned between the first stripping zone and the first regeneration zone; a second cracking reaction zone in parallel with the first cracking reaction zone; a second separation zone downstream of the second cracking reaction zone; a second regeneration zone downstream of the second separation zone, where the second regeneration zone is physically separated from the first regeneration zone; a second stripping zone downstream of the second separation zone; a second riser positioned between the second stripping zone and the second regeneration zone; and a flue gas flow path extending from the first regeneration zone to the second regeneration zone, the flue gas flow path comprising a particulate barrier for preventing a transfer of one or more spent catalysts between the first regeneration zone and the second regeneration zone. 2. The system of claim 1 further comprising a first mixing zone upstream of the first cracking reaction zone and in fluid communication with the first cracking reaction zone and a second mixing zone upstream of the second cracking reaction zone and in fluid communication with the second cracking reaction zone. 3. The system of claim 2 further comprising a first catalyst hopper disposed between and fluidly coupled with the first regeneration zone and the first mixing zone, and a second catalyst hopper disposed between and fluidly coupled with the second regeneration zone and the second mixing zone. 4. The system of claim 1 further comprising a feed separator having an inlet, a greater boiling point fraction outlet stream, and a lesser boiling point fraction outlet stream, where the greater boiling point fraction outlet stream is fluidly coupled to the first cracking reaction zone and the lesser boiling point fraction outlet stream is fluidly couple to the second cracking reaction zone. 5. The system of claim 1 , further comprising a product separator fluidly coupled to the first separation zone, the second separation zone, or both the first separation zone and the second separation zone. 6. The system of claim 1 , where the second regeneration zone is separated from the first regeneration zone by a porous separation zone. 7. The system of claim 1 , where the first regeneration zone and the second regeneration zone are disposed within a single regenerator.