Multistage catalyst injection system for an olefin polymerization reactor

What is claimed is: 1. An apparatus for the delivery of a multi-component olefin polymerization catalyst to a polymerization reactor, the apparatus comprising: a first catalyst component delivery conduit; a second catalyst component delivery conduit which is disposed within the first catalyst component delivery conduit; a first catalyst component mixing conduit; a third catalyst component delivery conduit which is disposed within the first catalyst component mixing conduit; a second catalyst component mixing conduit comprising an upstream section and a downstream section; and a diluent delivery conduit; the first and second catalyst component delivery conduits each being open ended and co-terminating at the first catalyst component mixing conduit, the first catalyst component mixing conduit and the third catalyst component delivery conduit each being open ended and co-terminating at the upstream section of the second catalyst component mixing conduit, the diluent delivery conduit being open ended and terminating at the downstream section of the second catalyst component mixing conduit, the downstream section of the second catalyst component mixing conduit being open ended and terminating within the polymerization reactor; wherein, at least one first catalyst component soluble in a first solvent is delivered under pressure along with the first solvent to the first catalyst component mixing conduit via the first catalyst component delivery conduit, at least one second catalyst component soluble in a second solvent is delivered under pressure along with the second solvent to the first catalyst component mixing conduit via the second catalyst component delivery conduit, at least one third catalyst component soluble in a third solvent is delivered under pressure along with the third solvent to the upstream section of the second catalyst component mixing conduit via the third catalyst component delivery conduit, and at least one diluent is delivered under pressure to the downstream section of the second catalyst component mixing conduit via the diluent delivery conduit; whereby, the at least one first catalyst component soluble in the first solvent comes into contact with the at least one second catalyst component soluble in the second solvent within the first catalyst component mixing conduit to form a catalyst support, the at least one third catalyst component soluble in the third solvent comes into contact with the catalyst support within the upstream section of the second catalyst component mixing conduit to form a pre-polymerization catalyst, and the at least one diluent comes into contact with the pre-polymerization catalyst within the downstream section of the second catalyst component mixing conduit before being expelled into the polymerization reactor. 2. The apparatus of claim 1 , wherein the second catalyst component delivery conduit is arranged substantially coaxially within the first catalyst component delivery conduit so that the open ends of the first and second catalyst component delivery conduits co-terminate in a substantially concentric arrangement at the first catalyst component mixing conduit. 3. The apparatus of claim 2 , wherein the third catalyst component delivery conduit is arranged substantially coaxially within the first catalyst component mixing conduit so that the open ends of the first catalyst component mixing conduit and the third catalyst component delivery conduit co-terminate in a substantially concentric arrangement at the upstream section of the second catalyst component mixing conduit. 4. The apparatus of claim 3 , wherein the downstream section of second catalyst component mixing conduit comprises a conical section in fluid communication with an open-ended tubular section which terminates within the polymerization reactor, the conical section tapering inwardly to meet the open ended tubular section. 5. The apparatus of claim 3 , wherein the upstream section and the downstream section of the second catalyst component mixing conduit are disposed substantially perpendicular to one another. 6. The apparatus of claim 1 , wherein the first catalyst component delivery conduit, the second catalyst component delivery conduit, the first catalyst component mixing conduit, the third catalyst component delivery conduit and the upstream section of the second catalyst component mixing conduit are coaxially arranged. 7. The apparatus of claim 6 , wherein the first catalyst component delivery conduit, the second catalyst component delivery conduit, the first catalyst component mixing conduit, the third catalyst component delivery conduit and the upstream section of the second catalyst component mixing conduit are disposed substantially vertically. 8. The apparatus of claim 1 , wherein the first catalyst component delivery conduit, the second catalyst component delivery conduit, and the third catalyst component delivery conduit are in fluid communication with at least one first catalyst component holding tank, at least one second catalyst component holding tank, and at least one third catalyst component holding tank, respectively. 9. The apparatus of claim 1 , wherein the diluent delivery conduit is in fluid communication with at least one diluent holding tank. 10. The apparatus of claim 1 , wherein the polymerization reactor is a solution phase polymerization reactor. 11. The apparatus of claim 10 , wherein the polymerization reactor is a stirred tank reactor. 12. The apparatus of claim 11 , wherein the stirred tank reactor comprises a bottom wall, a top wall, and a continuous side wall extending upwardly from the bottom wall to the top wall. 13. The apparatus of claim 12 , wherein the downstream section of the second catalyst component mixing conduit extends through the continuous side wall of the stirred tank reactor. 14. The apparatus of claim 12 , wherein the downstream section of the second catalyst component mixing conduit extends through the bottom wall of the stirred tank reactor. 15. The apparatus of claim 12 , wherein the downstream section of the second catalyst component mixing conduit extends through the top wall of the stirred tank reactor. 16. An apparatus for the delivery of a multi-component olefin polymerization catalyst to a polymerization reactor, the apparatus comprising: a first catalyst component delivery conduit; a second catalyst component delivery conduit which is disposed within the first catalyst component delivery conduit; a first catalyst component mixing conduit; a third catalyst component delivery conduit which is annularly disposed around the first catalyst component mixing conduit; a second catalyst component mixing conduit comprising an upstream section and a downstream section; and a diluent delivery conduit; the first and second catalyst component delivery conduits each being open ended and co-terminating at the first catalyst component mixing conduit, the first catalyst component mixing conduit and the third catalyst component delivery conduit each being open ended and co-terminating at the upstream section of the second catalyst component mixing conduit, the diluent delivery conduit being open ended and terminating at the downstream section of the second catalyst component mixing conduit, the downstream section of the second catalyst component mixing conduit being open ended and terminating within the polymerization reactor; wherein, at least one first catalyst component soluble in a first solvent is delivered under pressure along with the first solvent to the first catalyst component mixing conduit via the first catalyst component delive