Shielded fluoropolymer wire for high temperature skin effect trace heating

The invention claimed is: 1. A skin effect heating system comprising: a ferromagnetic heat tube configured to apply heat to a carrier pipe; and a heater cable disposed in an interior of the ferromagnetic heat tube, the heater cable comprising: a conductor; an inner semiconductive layer surrounding the conductor; an electrical insulation layer surrounding the inner semiconductive layer, the electrical insulation layer associated with an incidence of partial discharge that, when the electrical insulation layer is unshielded and is subjected to a voltage greater than a first rated voltage, exceeds a specified maximum amount of partial discharge; and an outer semiconductive layer surrounding and shielding the electrical insulation layer and having an outer surface in electrical and direct physical contact with an inner surface of the ferromagnetic heat tube, the outer semiconductive layer having a resistivity that enables the heater cable to, in response to an alternating current being applied to the conductor at an applied voltage exceeding the first rated voltage: maintain an amount of partial discharge of the heater cable at or below the specified maximum amount of partial discharge; and allow no more than one percent of a return electric current flowing on the inner surface of the ferromagnetic heat tube in an opposite direction to the alternating current of the conductor to flow through the outer semiconductive layer. 2. The skin effect heating system of claim 1 , wherein the resistivity of the outer semiconductive layer is between 5 and 1000 ohm-cm inclusive. 3. The skin effect heating system of claim 1 , wherein the electrical insulation layer is perfluoroalkoxy polymer (PFA), the first rated voltage is between 2500 and 3000 volts, inclusive, and the applied voltage is between 3500 and 7500 volts, inclusive. 4. The skin effect heating system of claim 3 , wherein the outer semiconductive layer comprises an extruded layer of conductive PFA that is extruded onto the electrical insulation layer. 5. The skin effect heating system of claim 1 wherein the outer semiconductive layer comprises a semiconductive tape wrapped around the electrical insulation layer. 6. A skin effect heating system comprising: a ferromagnetic heat tube configured to apply heat to a carrier pipe; and a heater cable comprising: a conductor; an electrical insulation layer surrounding at least the conductor and having a first rated voltage; and an outer semiconductive layer surrounding the electrical insulation layer, the outer semiconductive layer in electrical and direct physical contact with an inner surface of the ferromagnetic heat tube so that the heater cable forms an electrical circuit with the heat tube and a power source applying an alternating current to the conductor at a voltage exceeding the first rated voltage, the electrical circuit causing skin effect heating of the heat tube. 7. The skin effect heating system of claim 6 , wherein the outer semiconductive layer has a resistivity that limits partial discharge of the heater cable at or below 1 nanocoulomb when an alternating voltage having a magnitude of up to 7500 volts is applied to the conductor. 8. The skin effect heating system of claim 6 , wherein the outer semiconductive layer has a resistivity that limits partial discharge of the heater cable to at most 10 picocoulombs when an alternating voltage having a magnitude of up to 7500 volts is applied to the conductor. 9. The skin effect heating system of claim 6 , wherein the outer semiconductive layer further prevents flow of an electric current having a magnitude of more than one percent of an electric current flowing on the inner surface of the heat tube from flowing through the outer semiconductive layer. 10. The skin effect heating system of claim 6 , wherein the outer semiconductive layer has a resistivity between 5 and 1000 ohm-cm inclusive. 11. The skin effect heating system of claim 10 , wherein the electrical insulation layer is perfluoroalkoxy polymer. 12. The skin effect heating system of claim 6 , wherein the outer semiconductive layer is affixed to the electrical insulation layer via an extrusion process. 13. The skin effect heating system of claim 6 , wherein the outer semiconductive layer comprises a length of semiconductive tape wrapped around the electrical insulation layer. 14. The skin effect heating system of claim 6 , wherein the heater cable further comprises an inner semiconductive layer between the conductor and the electrical insulation layer. 15. The skin effect heating system of claim 6 , wherein the electrical insulation layer comprises a first insulating material and the outer semiconductive layer comprises the first insulating material and a first conductive material. 16. The skin effect heating system of claim 15 , wherein the first insulating material is perfluoroalkoxy polymer. 17. The skin effect heating system of claim 16 , wherein the first conductive material is selected so that the outer semiconductive layer has a resistivity between 5 and 1000 ohm-cm inclusive. 18. The skin effect heating system of claim 6 , wherein the first rated voltage corresponds to a maximum unshielded operating voltage of between 2500 and 3000 volts.