Systems and methods for restraining exhaust gas ducts

What is claimed is: 1. A duct for directing a flow of exhaust gases, the duct comprising: a wall portion defining a passageway having an inlet portion adapted to receive the flow of exhaust gases and an outlet portion adapted to discharge the flow of exhaust gases; a plurality of flutes defined at the outlet portion, the plurality of flutes including a first flute and a second flute spaced from the first flute, the first flute having a first peak, a first trough, a first height dimension, and a first width dimension generally perpendicular to the first height dimension, the second flute having a second peak, a second trough, a second height dimension, and a second width dimension generally perpendicular to the second height dimension; and at least one retainer coupled to the first trough and the second trough and extending generally parallel to at least one of the first width dimension and the second width dimension, wherein the at least one retainer is configured to restrain relative movement between the first flute and the second flute and relative movement among the first flute, the second flute, and at least one of the inlet portion and the outlet portion during the flow of exhaust gases through the duct. 2. The duct of claim 1 , further comprising: a third flute generally opposed to the first flute; a fourth flute generally opposed to the second flute; and at least one flute tie; wherein the at least one flute tie comprises: a first flute tie coupled to the third flute and the first flute; and a second flute tie coupled to the fourth flute and the second flute; and wherein the at least one retainer is coupled to the first flute tie and the second flute tie. 3. The duct of claim 2 , wherein a first axis corresponds to the first height dimension, the third flute has a third height dimension, and a third axis corresponds to the third height dimension, and wherein the first axis and the third axis are generally collinear with respect to one another. 4. The duct of claim 2 , wherein the third flute has a third height dimension and a third axis corresponds to the third height dimension, and the fourth flute has a fourth height dimension and a fourth axis corresponds to the fourth height dimension, and wherein the third axis and the fourth axis are generally parallel to one another. 5. The duct of claim 2 , wherein: the first flute is adjacent the second flute; the third flute is adjacent the fourth flute; and the first flute tie is generally parallel to the second flute tie. 6. The duct of claim 1 , wherein a first axis corresponds to the first height dimension and a second axis corresponds to the second height dimension, and wherein the first axis and the second axis are generally parallel to one another. 7. The duct of claim 1 , wherein the outlet portion has a centerline, a first axis corresponds to the first height dimension, and a second axis corresponds to the second height dimension, and wherein the first axis and the second axis extend generally radially with respect to the centerline. 8. The duct of claim 1 , further comprising: a third flute generally opposed to the first flute; a fourth flute generally opposed to the second flute; a fifth flute between the first flute and the second flute; a sixth flute generally opposed to the fifth flute; and at least one flute tie; wherein the at least one flute tie comprises: a first flute tie coupled to the third flute and the first flute; and a second flute tie coupled to the fourth flute and the second flute. 9. The duct of claim 8 , wherein the at least one retainer is coupled to the first flute tie and the second flute tie, and wherein the third flute is configured to have freedom of movement with respect to at least one of the at least one retainer, the first flute, the second flute, and the fourth flute. 10. The duct of claim 8 , further comprising a third flute tie coupled to the fifth flute and the sixth flute. 11. The duct of claim 10 , wherein the at least one retainer is coupled to the first flute tie, the second flute tie, and the third flute tie. 12. The duct of claim 1 , further comprising: a third flute generally opposed to the first flute; a fourth flute generally opposed to the second flute; a fifth flute; a sixth flute generally opposed to the fifth flute; a seventh flute; an eighth flute generally opposed to the seventh flute; and at least one flute tie; wherein the at least one flute tie comprises: a first flute tie coupled to the third flute and the first flute; a second flute tie coupled to the fourth flute and the second flute. 13. The duct of claim 12 , further comprising: a third flute tie coupled to the fifth flute and the sixth flute; and a fourth flute tie coupled to the seventh flute and the eighth flute. 14. The duct of claim 13 , wherein the at least one retainer comprises a first retainer and a second retainer. 15. The duct of claim 13 , wherein the at least one retainer is coupled to the first flute tie, the second flute tie, the third flute tie, and the fourth flute tie. 16. The duct of claim 14 , wherein the first retainer is coupled to at least the first flute tie and the second flute tie, and wherein the second retainer is coupled to at least the third flute tie and the fourth flute tie. 17. The duct of claim 14 , wherein at least one of the plurality of flutes is configured to have freedom of movement with respect to at least one other of the plurality of flutes. 18. The duct of claim 1 , wherein the first height dimension is greater than the first width dimension, and wherein the second height dimension is greater than the second width dimension. 19. A stiffener mechanism for an exhaust duct, the exhaust duct including a first row of flutes and a second row of flutes generally opposite to the first row of flutes, each flute being elongated along a respective axis, the stiffener mechanism comprising: at least two flute ties coupling together at least two flutes from the first row of flutes to at least two flutes from the second row of flutes; and at least one retainer coupled to the at least two flute ties and extending generally perpendicularly to the axis of each of the at least two flutes from the first row of flutes and the at least two flutes from the second row of flutes; wherein the at least one retainer is configured to generally restrain relative movement between the at least two flutes from the first row of flutes and the at least two flutes from the second row of flutes. 20. A method of increasing a resonant frequency of an exhaust system having at least one duct, the at least one duct including a plurality of flutes, each flute including a trough and an elongated portion with a respective axis and a lateral portion extending generally perpendicular to the respective axis, wherein a length of the elongated portion is greater than a width of the lateral portion, the method comprising: selecting a first flute from the plurality of flutes, the first flute having a first axis; selecting a second flute from the plurality of flutes, the second flute having a second axis generally parallel to the first axis; orienting a retainer to extend generally perpendicular to the first and second axes; and coupling a first portion of the retainer to the trough of the first flute and a second portion of the retainer to the trough of the second flute such that the retainer generally restrains movement between the first flute and the second flute.