Transition support system for combustion transition ducts for turbine engines

We claim: 1. An adjustable transition duct support system for a transition duct that channels hot gases from a combustor exit to a gas turbine inlet of a turbine engine, comprising: a transition duct body formed from an outer wall that forms an internal passage extending between an inlet and an outlet of the transition duct body; an adjustable forward transition flexible support assembly in contact with the transition duct body, wherein the forward transition flexible support assembly is formed from a base extending toward the transition duct body, and a first side support arm and a second side support arm extending from the base to the transition duct body; wherein the first side support arm is formed from a plurality of first side flex plates spaced from each other with spacers, wherein the first side flex plates provide rigidity in circumferential and radial directions and flexibility in an axial direction; and wherein the second side support arm is formed from a plurality of second side flex plates spaced from each other with spacers, wherein the second side flex plates provide rigidity in circumferential and radial directions and flexibility in the axial direction. 2. The transition duct support system of claim 1 , wherein the first side flex plates are formed from between two and eighteen flex plates between 0.5 millimeters and 2.5 millimeters in thickness. 3. The transition duct support system of claim 2 , wherein the first side flex plates are formed from between eight and twelve flex plates between 1.0 millimeters and 2.0 millimeters in thickness. 4. The transition duct support system of claim 1 , wherein the second side flex plates are formed from between two and eighteen flex plates between 0.5 millimeters and 2.5 millimeters in thickness. 5. The transition duct support system of claim 4 , wherein the second side flex plates are formed from between eight and twelve flex plates between 1.0 millimeters and 2.0 millimeters in thickness. 6. The transition duct support system of claim 1 , wherein the base is formed from a top beam and a bottom beam that are coupled together via first and second outer columns separated by a middle column. 7. The transition duct support system of claim 6 , wherein the first and second columns have thicknesses less than a thickness of the middle column. 8. The transition duct support system of claim 1 , wherein the first side support arm includes a first outer bracket and a second outer bracket at an outer end adjacent the transition duct body, wherein the first and second outer brackets are subject to a compressive force towards each other, thereby placing outer ends of the first side flex plates under compression, and wherein the first side support arm includes a first inner bracket and a second inner bracket at an inner end adjacent the transition duct body, wherein the first and second inner brackets are subject to a compressive force towards each other, thereby placing inner ends of the first side flex plates under compression. 9. The transition duct support system of claim 8 , wherein the first and second outer brackets are placed under compression via one or more bolts and further comprising a first pin and a second pin extending from the first outer bracket, through the first side flex plates, to the second outer bracket to reduce loads other than compressive loads in the one or more bolts extending from the first outer bracket to the second outer bracket, and wherein the first and second inner brackets are placed under compression via one or more bolts and further comprising a first pin and a second pin extending from the first inner bracket, through the first side flex plates, to the second inner bracket to reduce loads other than compressive loads in the one or more bolts extending from the first inner bracket to the second inner bracket. 10. The transition duct support system of claim 1 , wherein the second side support arm includes a first outer bracket and a second outer bracket at an outer end adjacent the transition duct body, wherein the first and second outer brackets are subject to a compressive force towards each other, thereby placing outer ends of the second side flex plates under compression, and wherein the second side support arm includes a first inner bracket and a second inner bracket at an inner end adjacent the transition duct body, wherein the first and second inner brackets are subject to a compressive force towards each other, thereby placing inner ends of the second side flex plates under compression. 11. The transition duct support system of claim 10 , wherein the first and second outer brackets are placed under compression via one or more bolts and further comprising a first pin and a second pin extending from the first outer bracket, through the second side flex plates, to the second outer bracket to reduce loads other than compressive loads in the one or more bolts extending from the first outer bracket to the second outer bracket, and wherein the first and second inner brackets are placed under compression via one or more bolts and further comprising a first pin and a second pin extending from the first inner bracket, through the second side flex plates, to the second inner bracket to reduce loads other than compressive loads in the one or more bolts extending from the first inner bracket to the second outer bracket. 12. The transition duct support system of claim 1 , wherein the first side flex plates are formed from an outer attachment section and an inner attachment section separated by a transition section having linear sides that are nonlinear with sides forming the outer and inner attachment sections, thereby positioning the outer attachment section offset laterally from the inner attachment section. 13. The transition duct support system of claim 1 , wherein the second side flex plates are formed from an outer attachment section and an inner attachment section separated by a transition section having linear sides that are nonlinear with sides forming the outer and inner attachment sections, thereby positioning the outer attachment section offset laterally from the inner attachment section. 14. The transition duct support system of claim 1 , wherein first and second outer brackets of the first and second side support arms include at least one orifice with a racetrack configuration enabling axial adjustment; wherein first and second inner brackets of the first and second side support arms include at least one orifice with a racetrack configuration further enabling the axial adjustment; and further comprising at least one shim positioned between the first and second side support arms and the base for radial adjustment. 15. The transition duct support system of claim 1 , wherein the adjustable forward transition flexible support assembly has a natural frequency in the radial mode greater than 150 Hertz, in the circumferential mode greater than 100 Hertz, in the torsional mode greater than 150 Hertz and in the axial mode greater than 100 Hertz. 16. An adjustable transition duct support system for a transition duct that channels hot gases from a combustor exit to a gas turbine inlet of a turbine engine, comprising: a transition duct body formed from an outer wall that forms an internal passage extending between an inlet and an outlet of the transition duct body; an adjustable forward transition flexible support assembly in contact with the transition duct body, wherein the forward transition flexible support assembly is formed from a base extending toward the transition duct body, and a first side support arm and a second side support arm e