Integral thermoelectric generator for wireless devices

The invention claimed is: 1. An apparatus comprising: a first process component having a transducer and configured to penetrate or replace a section of a vessel wall so as to directly contact a first process fluid, the first process component having a barrier wall configured to physically isolate the transducer from the first process fluid, the first process component having a first cavity located within the barrier wall of the first process component that contacts the first process fluid so that heat from the first process fluid is transferred through a portion of the barrier wall to the first cavity; a first heat pipe formed in part by the first cavity, the first heat pipe comprising a sealed cavity containing a first working fluid; and a thermoelectric generator assembly; wherein the first heat pipe has a first end located within the barrier wall and positioned to transfer heat from the first process fluid to the first working fluid and has a second end thermally coupled to a first side of the thermoelectric generator assembly to transfer heat from the first working fluid to the first side of the thermoelectric generator assembly; wherein a heat sink is thermally coupled to a second side of the thermoelectric generator assembly; and wherein the thermoelectric generator assembly produces electrical power. 2. The apparatus of claim 1 , wherein the first process component is one of a pipe flange, an orifice plate flange, an orifice plate, a thermowell, an averaging pitot tube, a stream trap, a flow tube, a flow straightening element, a control valve, a shut-off valve, a pressure relief valve, a pressure manifold, a valve manifold, a pump housing, a filter housing, a pressure sensor remote seal, a level switch, a contacting radar level gauge, a vortex flow meter, a coriolis meter, a magnetic flow meter, a turbine meter, and a flow restrictor. 3. The apparatus of claim 1 , wherein the heat sink is at least one of ambient air, water, a second process fluid, earth, a building, and an earthen berm. 4. The apparatus of claim 1 , wherein the first working fluid comprises at least one of water, ammonia, methanol, and ethanol. 5. The apparatus of claim 1 , wherein the first heat pipe is further formed in part by a flexible tube. 6. The apparatus of claim 1 , wherein the first heat pipe further comprises a wicking device. 7. The apparatus of claim 6 , wherein the wicking device is comprised of at least one of a sintered ceramic, metal mesh, metal felt, metal foam, and grooves on the interior surface of the heat pipe. 8. The apparatus of claim 1 , further comprising: a heat transfer device; and the thermoelectric generator assembly comprises: a first heat spreader; and a thermoelectric element, wherein the first heat spreader is attached to a first side of the thermoelectric element to thermally couple the first side of the thermoelectric generator assembly to the first heat pipe; and wherein the heat transfer device thermally couples the heat sink to the second side of the thermoelectric generator assembly. 9. The apparatus of claim 8 , further comprising thermal insulation between at least a portion of the first process component and the heat transfer device. 10. The apparatus of claim 8 , wherein the heat transfer device comprises at least one of a pin-fin heat exchanger and a finned heat exchanger. 11. The apparatus of claim 8 , wherein: the thermoelectric generator assembly further comprises a second heat spreader; the heat transfer device comprises a second heat pipe; and the second heat spreader is attached to a second side of the thermoelectric element to thermally couple the second side of the thermoelectric generator assembly to the second heat pipe. 12. A system comprising: a wireless field device network; a wireless device in wireless communication with the wireless field device network; and a first process component having a transducer and configured to penetrate or replace a section of a vessel wall so as to directly contact a first process fluid, the first process component having a barrier wall configured to physically isolate the transducer from the first process fluid, the first process component having a first cavity located within the barrier wall of the first process component that contacts the first process fluid so that heat from the first process fluid is transferred through a portion of the barrier wall to the first cavity; a first heat pipe formed in part by the first cavity, the first heat pipe comprising a sealed cavity containing a first working fluid; and a thermoelectric generator assembly, wherein the first heat pipe has a first end located within the barrier wall and positioned to transfer heat from the first process fluid to the first working fluid and has a second end thermally coupled to a first side of the thermoelectric generator assembly to transfer heat from the first working fluid to the first side of the thermoelectric generator assembly, and wherein a heat sink is thermally coupled to a second side of the thermoelectric generator assembly; wherein the thermoelectric generator assembly provides electrical power to the wireless device. 13. The system of claim 12 , wherein the process component is one of a pipe flange, an orifice plate flange, an orifice plate, a thermowell, an averaging pitot tube, a stream trap, a flow tube, a flow straightening element, a control valve, a shut-off valve, a pressure relief valve, a pressure manifold, a valve manifold, a pump housing, a filter housing, a pressure sensor remote seal, a level switch, a contacting radar level gauge, a vortex flow meter, a coriolis meter, a magnetic flow meter, a turbine meter, and a flow restrictor. 14. The system of claim 12 , wherein the first heat pipe further comprises a wicking device. 15. The system of claim 12 , further comprising: a heat transfer device; and the thermoelectric generator assembly comprises: a first heat spreader, and a thermoelectric element, wherein the first heat spreader is attached to a first side of the thermoelectric element to thermally couple the first side of the thermoelectric generator assembly to the first heat pipe; and wherein the heat transfer device thermally couples the heat sink to the second side of the thermoelectric generator assembly. 16. The apparatus of claim 15 , further comprising thermal insulation between at least a portion of the first process component and the heat sink.