Process and apparatus for a convection charge heater having a recycle gas distributor

The invention claimed is: 1. A process for controlling heating of a process fluid, the process comprising: passing a first portion of a first gas stream into a first duct from a first plurality of ducts; passing a second portion of the first gas stream into a second duct from the first plurality of ducts, the second duct adjacent to the first duct; passing the first portion of the first gas stream through a first duct outlet and into a convection section; passing the second portion of the first gas stream through a second duct outlet and into the convection section; mixing the first and second portions of the first gas stream in the convection section to heat a process fluid in a conduit in the convection section; and, passing a first cooling gas stream into at least one opening between the first duct outlet and the second duct outlet to allow for even mixing of the gases, wherein the at least one opening is located at a bottom of the convention section. 2. The process of claim 1 , wherein the first gas stream comprises a radiant flue gas. 3. The process of claim 1 , wherein the first gas stream is at a temperature of about 650-982° C. (1200-1800° F.). 4. The process of claim 1 , wherein the first gas stream is at a temperature of about 788-871° C. (1450-1600° F.). 5. The process of claim 1 , wherein the first cooling gas stream is at a temperature of about 10-260° C. (50-500° F.). 6. The process of claim 1 , wherein the first cooling gas stream is at a temperature of about 120-200° C. (250-400° F.). 7. The process of claim 1 , wherein the first and second portions of the first gas stream are passed into the first duct and the second duct, respectively, in a relatively vertical direction. 8. The process of claim 7 , wherein the first cooling gas stream is passed into the at least one opening at a relatively horizontal direction. 9. The process of claim 1 , wherein the at least one opening is located between the first duct and the second duct. 10. The process of claim 1 , further comprising: passing a first portion of a second gas stream into a first duct from a second plurality of ducts; passing a second portion of the second gas stream into a second duct from the second plurality of ducts, the second duct adjacent to the first duct; passing the second portion of the second gas stream through a third duct outlet and into a second convection section; passing the second portion of the second gas stream through a fourth duct outlet and into the second convection section; mixing the first and second portions of the second gas stream in the second convection section to heat a process fluid in a conduit in the second convection section; and, passing a second cooling gas stream into at least one opening between the third duct outlet and the fourth duct outlet to allow for even mixing of the gases, wherein the at least one opening in the second convention section is located at a bottom of the second convention section. 11. The process of claim 10 , wherein the second gas stream comprises a radiant flue gas. 12. The process of claim 10 , wherein a conduit extends between the first and the second convection sections, and wherein the cooling gas stream is passed through the conduit, and wherein the second cooling gas stream comprises a portion of the cooling gas stream. 13. A process for controlling heating of a process fluid, the process comprising: passing a first portion of a first radiant flue gas into a first duct from a first plurality of ducts; passing a second portion of the first radiant flue gas into a second duct from the first plurality of ducts, the second duct from the first plurality of ducts adjacent to the first duct from the first plurality of ducts; passing the first portion of the first radiant flue gas through a first duct outlet and into a first convection section; passing the second portion of the first radiant flue gas through a second duct outlet and into the first convection section; mixing the first and second portions of the first radiant flue gas in the first convection section to heat a process fluid in a conduit in the first convection section; passing a first portion of a second radiant flue gas into a first duct from a second plurality of ducts; passing a second portion of the second radiant flue gas into a second duct from the second plurality of ducts, the second duct from the second plurality of ducts adjacent to the first duct from the second plurality of ducts; passing the first portion of second first radiant flue gas through a third duct outlet and into a second convection section; passing the second portion of the second radiant flue gas through a fourth duct outlet and into the second convection section; mixing the first and second portions of the second radiant flue gas in the second convection section to heat a process fluid in a conduit in the second convection section; passing a first stream of a cooling gas into at least one opening between the first duct outlet and the second duct outlet; and, passing a second stream of the cooling gas into at least one opening between the third duct outlet and the fourth duct outlet, wherein the at least one opening of the first cooling gas stream, and the at least one opening of the second cooling gas stream are located at the bottom of the first and second convention sections, respectively wherein the at least one opening of the first cooling gas is between the first outlet and the second outlet, and wherein the at least one opening of the second cooling gas is between the third duct outlet and the fourth duct outlet. 14. The process of claim 13 , wherein the first and the second radiant flue gases are each at a temperature of about 650-982° C. (1200-1800° F.). 15. The process of claim 13 , wherein the first and the second radiant flue gases are each at a temperature of about 788-871° C. (1450-1600° F.). 16. The process of claim 13 , wherein the cooling gas is at a temperature of about 10-260° C. (50-500° F.). 17. The process of claim 13 , wherein the cooling gas is at a temperature of about 120-200° C. (250-400° F.). 18. The process of claim 13 , wherein the first and second portions of the first radiant flue gas are passed into the first duct from the first plurality of ducts and the second duct from the first plurality of ducts, respectively, in a relatively vertical direction; and, wherein the first and second portions of the second radiant flue gas are passed into the first duct from the second plurality of ducts and the second duct from the second plurality of ducts, respectively, in a relatively vertical direction. 19. The process of claim 18 , wherein the first stream of the cooling gas is passed into the at least one opening between the first duct from the first plurality of ducts and the second duct from the first plurality of ducts at a relatively horizontal direction, and wherein the second stream of the cooling gas is passed into the at least one opening between the first duct from the second plurality of ducts and the second duct from the second plurality of ducts at a relatively horizontal direction.