High power density insulated exhaust heating system

What is claimed is: 1. A heating apparatus for an exhaust gas system haying a container body, the heating apparatus comprising: at least one heater element within the container body, the at least one heater element including a resistance wire, a sheath, and an insulating material, the sheath having a cylindrical shape that extends along a tortuous path through the container body and circumferentially surrounds the resistance wire along the tortuous path, the insulating material disposed about the resistance wire radially between the resistance wire and the sheath; and a support member disposed inside the container body and configured for restricting movement of the at least one heater element in the container body, the support member defining a tortuous geometry that follows the tortuous path while contacting opposed sides of the sheath along a majority of a length of the sheath, wherein the insulating material electrically insulates the resistance wire from the sheath, wherein the support member increases heat transfer from the at least one heater element to an exhaust gas flowing through the container body, wherein the at least one heater element has a spiral shape and the support member includes a strip formed into a spiral shape conforming to the spiral shape of the at least one heater element. 2. The heating apparatus according to claim 1 , wherein the at least one heater element is sandwiched between portions of the strip that are located at different locations along the spiral shape of the strip. 3. The heating apparatus according to claim 1 , wherein the heating element has a power density greater than 84 watts/in 2 for the sheath. 4. The heating apparatus according to claim 1 , wherein the strip is a corrugated strip defining a plurality of ridges and grooves. 5. The heating apparatus according to claim 4 , wherein the corrugated strip further defines a plurality of indentations. 6. The heating apparatus according to claim 5 , wherein the indentations are disposed at the ridges and grooves of the corrugated strip and the sheath is received in the indentations. 7. The heating apparatus according to claim 1 , wherein the strip is fixed to the heater element at a plurality of contact points, the plurality of contact points being spaced at a spacing along a length of the strip, the spacing is less than ten times an outside diameter of the heater element. 8. The heating apparatus according to claim 7 , wherein a natural frequency of vibration for sections of the heater element between adjacent two of the contacts points is greater than 400 Hz. 9. The heating apparatus according to claim 7 , wherein the number of contact points is selected such that a temperature variation across the heating apparatus is less than 200° C. 10. The heating apparatus according to claim 1 , wherein the support member further includes an outer peripheral wall surrounding the strip. 11. The heating apparatus according to claim 10 , wherein the outer peripheral wall defines at least one annular groove. 12. The heating apparatus according to claim 10 , wherein the container body defines an exhaust gas channel and the outer peripheral wall is a part of the container body. 13. The heating apparatus according to claim 10 , wherein the container body defines an exhaust gas channel and the outer peripheral wall is a separate component from the container body and is disposed inside the container body. 14. The heating apparatus according to claim 10 , wherein the outer peripheral wall is fixed to the strip. 15. A heating apparatus for a fluid flow system having a fluid conduit, the heating apparatus comprising: at least one heater element within the fluid conduit, the at least one heater element including a resistance wire, a sheath, and an insulating material, the sheath having a cylindrical shape that extends along a tortuous path through the container body and circumferentially surrounds the resistance wire along the tortuous path, the insulating material disposed about the resistance wire radially between the resistance wire and the sheath; and a support member disposed within the fluid conduit and configured for restricting movement of the at least one heater element relative to the fluid conduit, the support member defining a corrugated geometry that follows the tortuous path while contacting opposed sides of the sheath along a majority of a length of the sheath, wherein the insulating material electrically insulates the resistance wire from the sheath, wherein the support member increases heat transfer from the at least one heater element to a fluid flowing through the fluid conduit. 16. A heating apparatus for a fluid flow system having a fluid conduit, the heating apparatus comprising: at least one heater element extending along a tortuous path within the fluid conduit, the at least one heater element including a resistance wire and an insulating material disposed about the resistance wire; and a continuous support member disposed within the fluid conduit and configured for restricting movement of the at least one heater element relative to the fluid conduit, the support member defining a tortuous geometry and following the tortuous path such that one side of a region of the heater element contacts a first location on the support member and an opposite side of the region of the heater element contacts a second location on the support member, the second location being further along the tortuous path than the first location, wherein the insulating material electrically insulates the resistance wire from the support member, wherein the support member increases heat transfer from the at least one heater element to a fluid flowing through the fluid conduit.