Methods and materials to universally fit duct liner insulation for oval HVAC duct systems

What is claimed is: 1. A duct liner insulation for a curvilinear duct, the duct liner insulation comprising: an insulation layer configured to line an interior surface of a curvilinear duct when installed within the curvilinear duct, the insulation layer having a density of between about 0.5 pcf and 1.4 pcf; and an elastically deformable layer that is positioned within the insulation layer both prior to installation and after installation, wherein the elastically deformable layer has a density of between about 1 pcf and 3 pcf so as to exhibit sufficient springiness to compress the insulation layer against the interior surface of the curvilinear duct when installed within the curvilinear duct such that the insulation layer extends substantially uniformly around an inner periphery of the curvilinear duct. 2. The duct liner insulation of claim 1 , wherein the insulation layer is installed within the curvilinear duct and the elastically deformable layer extends around an inner periphery of the insulation layer. 3. The duct liner insulation of claim 2 , wherein the curvilinear duct comprises an oval, round, or spiral cross sectional configuration. 4. The duct liner insulation of claim 3 , wherein the curvilinear duct comprises a flat oval cross sectional configuration. 5. The duct liner insulation of claim 1 , wherein the elastically deformable layer is constructed out of one or more of inorganic glass, PVC, plastic, or metal. 6. The duct liner insulation of claim 1 , wherein the elastically deformable layer is constructed out of nonwoven inorganic glass. 7. The duct liner insulation of claim 1 , wherein the insulation layer is constructed out of fiberglass, mineral wool, or cellulose. 8. The duct liner insulation of claim 1 , wherein the insulation layer and the elastically deformable layer are configured to have substantially same cross sectional configurations as the curvilinear duct when the insulation and elastically deformable layers are installed within the curvilinear duct. 9. The duct liner insulation of claim 1 , wherein the elastically deformable layer is movable between an expanded position and a collapsed position. 10. The duct liner insulation of claim 9 , wherein the elastically deformable layer is movable to the collapsed position for insertion into the curvilinear duct and to the expanded position to compress the insulation layer against the interior surface of the curvilinear duct when installed within the curvilinear duct. 11. The duct liner insulation of claim 10 , wherein the elastically deformable layer is movable to the collapsed position from the expanded position in response to a force applied upon the elastically deformable layer and wherein the elastically deformable layer is movable to the expanded position from the collapsed position when the force is released. 12. The duct liner insulation of claim 1 , wherein the insulation layer has a first thickness when installed within the curvilinear duct and a second thickness when compressed against the interior surface of the curvilinear duct by the elastically deformable layer, wherein the second thickness is less than the first thickness. 13. The duct liner insulation of claim 1 , wherein the insulation layer does not include one or more rows of kerfs. 14. The duct liner insulation of claim 1 , wherein the insulation layer does not include foam insulation material. 15. The duct liner insulation of claim 1 , wherein the insulation layer is configured to directly contact the interior surface of the curvilinear duct without any intermediary layers therebetween when the insulation layer is installed therein. 16. The duct liner insulation of claim 1 , wherein the insulation layer and elastically deformable layer are separate layers that are not coupled together prior to being installed within the curvilinear duct. 17. A duct liner insulation product consisting essentially of: an insulation layer configured to line an interior surface of a curvilinear duct when installed within the curvilinear duct, the insulation layer having a density of between about 0.5 pcf and 1.4 pcf; and an elastically deformable layer having a density of between about 1 pcf and 3 pcf so as to exhibit sufficient springiness to compress the insulation layer against the interior surface of the curvilinear duct when installed within the curvilinear duct such that the insulation layer extends substantially uniformly around an inner periphery of the curvilinear duct. 18. The duct liner insulation of claim 17 , wherein the insulation layer has a first thickness when installed within the curvilinear duct and a second thickness when compressed against the interior surface of the curvilinear duct by the elastically deformable layer, wherein the second thickness is less than the first thickness. 19. The duct liner insulation of claim 17 , wherein the insulation layer and elastically deformable layer have substantially uniform flat oval cross sectional configurations when installed within the curvilinear duct. 20. A duct liner insulation for a curvilinear duct, the duct liner insulation comprising: an insulation layer configured to line an interior surface of a curvilinear duct when installed within the curvilinear duct, the insulation layer having a density of between about 0.5 pcf and 1.4 pcf; and an elastically deformable layer having a density of between about 1 pcf and 3 pcf so as to exhibit sufficient springiness to compress the insulation layer against the interior surface of the curvilinear duct when installed within the curvilinear duct such that the insulation layer extends substantially uniformly around an inner periphery of the curvilinear duct, wherein: the elastically deformable layer is movable to a collapsed position from an expanded position in response to a force applied upon the elastically deformable layer; and the elastically deformable layer returns to the expanded position from the collapsed position upon the force being released.