Combustors and methods of assembling the same

What is claimed is: 1. A fuel nozzle assembly comprising a centerbody, the centerbody comprising an outer wall, said outer wall defining a plurality of fuel injection apertures and at least partially defining a swirl chamber, said swirl chamber coupled in flow communication with said plurality of fuel injection apertures, said plurality of fuel injection apertures defined in said outer wall sequentially and circumferentially to define a substantially circular configuration thereon, the fuel nozzle assembly comprising: a first portion of said plurality of fuel injection apertures configured to induce a first fuel flow rate radially outward, relative to a fuel nozzle assembly centerline, through said first portion of said plurality of fuel injection apertures; and a second portion of said plurality of fuel injection apertures configured to induce a second fuel flow rate radially outward, relative to the fuel nozzle assembly centerline, through said second portion of said plurality of fuel injection apertures, wherein the second fuel flow rate is less than the first fuel flow rate, wherein a first aperture, a second aperture, a third aperture, a fourth aperture, and a fifth aperture of said plurality of fuel injection apertures are arranged in sequence, wherein a first circumferential distance is defined between said first aperture and said second aperture, wherein a second circumferential distance is defined between said second aperture and said third aperture, wherein a third circumferential distance is defined between said third aperture and said fourth aperture, wherein a fourth circumferential distance is defined between said fourth aperture and said fifth aperture, wherein said first circumferential distance and said fourth circumferential distance are substantially equal, wherein said third circumferential distance is greater than said first circumferential distance, and wherein said second circumferential distance is less than said first circumferential distance. 2. The fuel nozzle assembly in accordance with claim 1 , wherein said first portion of said plurality of fuel injection apertures has a first configuration and said second portion of said plurality of fuel injection apertures has a second configuration. 3. The fuel nozzle assembly in accordance with claim 1 , wherein the fuel nozzle assembly comprises 10 fuel injection apertures disposed within the centerbody. 4. The fuel nozzle assembly in accordance with claim 1 , wherein said first portion of said plurality of fuel injection apertures are substantially circular and have a first diameter and said second portion of said plurality of fuel injection apertures are substantially circular and have a second diameter, wherein the second diameter is less than the first diameter, the fuel nozzle assembly further comprising: at least one plug; at least one fuel; at least one venturi; and at least one heat shield. 5. The fuel nozzle assembly in accordance with claim 4 , wherein each of the at least one plug, the centerbody, the at least one fuel delivery system, the at least one venturi, and the at least one heat shield are centered about the fuel nozzle assembly centerline. 6. The fuel nozzle assembly in accordance with claim 5 , wherein each fuel injection aperture of said plurality of fuel injection apertures is disposed in the centerbody upstream from an aft end of the centerbody. 7. The fuel nozzle assembly in accordance with claim 5 , wherein said first portion of said plurality of fuel injection apertures is configured to induce a first radial fuel exit stream therethrough and said second portion of said plurality of fuel injection apertures is configured to induce a second radial fuel exit stream therethrough, wherein said first portion of said plurality of fuel injection apertures comprising said first diameter comprises at least seven of said fuel injection apertures, and wherein said second portion of said plurality of fuel injection apertures comprising said second diameter comprises at least three of said fuel injection apertures. 8. The fuel nozzle assembly in accordance with claim 1 , wherein each fuel injection aperture of said plurality of fuel injection apertures comprises a different diameter than every other fuel injection aperture of said plurality of fuel injection apertures. 9. A combustor for a turbine engine assembly, said combustor comprising: a plurality of liners at least partially defining a combustion chamber; a fuel nozzle assembly communicatively coupled with said combustion chamber, said fuel nozzle assembly comprising a centerbody comprising an outer wall, said outer wall defining a plurality of fuel injection apertures and at least partially defining a swirl chamber, said swirl chamber coupled in flow communication with said plurality of fuel injection apertures, said plurality of fuel injection apertures defined in said outer wall sequentially and circumferentially to define a substantially circular configuration thereon, said fuel nozzle assembly comprising: a first portion of said plurality of fuel injection apertures configured to induce a first fuel flow rate radially outward therethrough relative to a fuel nozzle assembly centerline; and a second portion of said plurality of fuel injection apertures configured to induce a second fuel flow rate radially outward therethrough relative to the fuel nozzle assembly centerline, wherein the second fuel flow rate is less than the first fuel flow rate, wherein a first aperture, a second aperture, a third aperture, a fourth aperture, and a fifth aperture of said plurality of fuel injection apertures are arranged in sequence, wherein a first circumferential distance is defined between said first aperture and said second aperture, wherein a second circumferential distance is defined between said second aperture and said third aperture, wherein a third circumferential distance is defined between said third aperture and said fourth aperture, wherein a fourth circumferential distance is defined between said fourth aperture and said fifth aperture, wherein said first circumferential distance and said fourth circumferential distance are substantially equal, wherein said third circumferential distance is greater than said first circumferential distance, and wherein said second circumferential distance is less than said first circumferential distance. 10. The combustor in accordance with claim 9 , wherein said first portion of said plurality of fuel injection apertures has a first configuration and said second portion of said plurality of fuel injection apertures has a second configuration. 11. The combustor in accordance with claim 9 , wherein said first portion of said plurality of fuel injection apertures are substantially circular and have a first diameter and said second portion of said plurality of fuel injection apertures are substantially circular and have a second diameter, wherein the second diameter is less than the first diameter, and wherein said plurality of fuel injection apertures comprises at least one fuel injection aperture having an oval shaped aperture. 12. The combustor in accordance with claim 9 , wherein a configuration of said second portion of said plurality of fuel injection apertures is configured to reduce a thermal loading of at least one liner of said plurality of liners. 13. The combustor in accordance with claim 9 , wherein said first portion of said plurality of fuel injection apertures is configured to induce a first radial fuel exit stream therethrough and said second portion of said plurality of fuel injection apertures is configured to induce a second radial fuel exit stream therethro