Accessory support brackets with airflow passages

The invention claimed is: 1. A method of forming an internal combustion engine support bracket, the method comprising: forming a semi-permanent passage mold corresponding to a fluid passage configured to be in fluid receiving communication with an upstream aperture and in fluid providing communication with a downstream aperture; forming at least one cylindrical extension extending from the semi-permanent passage mold, the at least one cylindrical extension defining at least one mid-passage aperture; forming a bracket mold corresponding to a support bracket comprising at least one mounting platform configured to receive fasteners, the fasteners configured to removably engage an accessory device of the internal combustion engine; positioning the semi-permanent passage mold within the bracket mold; pouring casting fluid into the bracket mold; and removing the bracket mold and the semi-permanent passage mold, wherein the semi-permanent passage mold is broken down prior to removal. 2. The method of claim 1 , wherein the at least one mounting platform is configured to position a driven portion of the accessory device in an accessory drive. 3. The method of claim 1 , wherein the at least one mounting platform includes a first mounting platform configured to removably engage the accessory device and a second mounting platform configured to removably engage an idler pulley operatively coupled to an accessory drive. 4. The method of claim 1 , wherein the semi-permanent passage mold defines the fluid passage to have similar cross-sectional areas normal to an anticipated airflow within and along the fluid passage from the upstream aperture to the downstream aperture. 5. The method of claim 4 , wherein the cross-sectional areas of the fluid passage are similar to a cross-sectional area of the upstream aperture and a cross-sectional area of the downstream aperture. 6. The method of claim 4 , wherein the semi-permanent passage mold defines the fluid passage to have a flat configuration between the upstream aperture and the downstream aperture. 7. The method of claim 4 , wherein the semi-permanent passage mold defines an indent extending toward the fluid passage, and wherein a first cross-sectional area of the fluid passage that includes the indent is similar to a second cross-sectional area of the fluid passage that does not include the indent. 8. The method of claim 1 , wherein the semi-permanent passage mold is removed at least in part through the at least one mid-passage aperture. 9. The method of claim 8 , wherein the semi-permanent passage mold is positioned within the bracket mold by coupling a portion of the semi-permanent passage mold corresponding to the at least one mid-passage aperture to the bracket mold. 10. A method of forming an internal combustion engine support bracket, the method comprising: forming a semi-permanent passage mold corresponding to a fluid passage configured to be in fluid receiving communication with an upstream aperture and in fluid providing communication with a downstream aperture, the semi-permanent passage mold defining at least one mid-passage aperture; forming a bracket mold corresponding to a support bracket comprising at least one mounting platform configured to receive fasteners, the fasteners configured to removably engage an accessory device of the internal combustion engine; positioning the semi-permanent passage mold within the bracket mold by coupling a portion of the semi-permanent passage mold corresponding to the at least one mid-passage aperture to the bracket mold; pouring casting fluid into the bracket mold; and removing the bracket mold at least in part through the at least one mid-passage aperture; and removing the semi-permanent passage mold, wherein the semi-permanent passage mold is broken down prior to removal. 11. A method of forming an internal combustion engine support bracket, the method comprising: forming a semi-permanent passage mold corresponding to a fluid passage configured to be in fluid receiving communication with an upstream aperture and in fluid providing communication with a downstream aperture, wherein the semi-permanent passage mold defines the fluid passage to have similar cross-sectional areas normal to an anticipated airflow within and along the fluid passage from the upstream aperture to the downstream aperture; forming at least one cylindrical extension extending from the semi-permanent passage mold, the at least one cylindrical extension defining at least one mid-passage aperture; forming a bracket mold corresponding to a support bracket comprising at least one mounting platform configured to receive fasteners, the fasteners configured to removably engage an accessory device of the internal combustion engine; positioning the semi-permanent passage mold within the bracket mold, wherein the semi-permanent passage mold defines an indent extending toward the fluid passage, and wherein a first cross-sectional area of the fluid passage that includes the indent is similar to a second cross-sectional area of the fluid passage that does not include the indent; pouring casting fluid into the bracket mold; and removing the bracket mold and the semi-permanent passage mold, wherein the semi-permanent passage mold is broken down prior to removal.