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This invention is a method and apparatus for making a pressure-containing threaded tubular connection, suitable for remotely operated connection and separation, utilizing electrical heating to reduce the amount of makeup torque required to produce reliable preloading of the connection. One aspect of

This invention is a method and apparatus for making a pressure-containing threaded tubular connection, suitable for remotely operated connection and separation, utilizing electrical heating to reduce the amount of makeup torque required to produce reliable preloading of the connection. One aspect of the present invention comprises: 1) a first hub with male threads on its exterior and having a sealing face and axial flow passage, b) a second hub having an axial flow passage and carrying an annular seal which can be mated with the sealing face of the first hub and mounting a rotatable nut having female threads on its interior and integral nut heating means. After stabbing and initial make-up of the connection, the nut is heated and thereby expanded in a controlled manner and the connection retightened. Following cooling, the structural connection is fully preloaded and the annular seal fully compressed so that it seals. Reversing the procedure permits disconnection.

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1. A tubular connector comprising:a first hub having a through bore, an interior end and an external surface, wherein the first hub has a plurality of threads on a portion of the external surface;a second hub having a through bore and a first end and a second end;a coupling nut coaxially mounted on

1. A tubular connector comprising:a first hub having a through bore, an interior end and an external surface, wherein the first hub has a plurality of threads on a portion of the external surface;a second hub having a through bore and a first end and a second end;a coupling nut coaxially mounted on the second hub, wherein the coupling nut has a plurality of internal threads adapted to threadedly engage the threads on the external surface of the first hub, wherein tightening the coupling nut forces the interior end of the first hub towards the first end of the second hub;a keeper ring mounted on the second hub adjacent to the coupling nut to limit axial movement of the coupling nut along a length of the second hub toward the second end of the second hub;a seal having a through bore, wherein the seal is mounted on the first end of the second hub and prevents ingress or egress of fluid between the interior end of the first hub and the first end of the second hub when the coupling nut is tightened to sufficiently compress the seal between the interior end of the first hub and the first end of the second hub to sealingly engage the interior end of the first hub and the first end of the second hub; andheating means for heating the coupling nut;whereby when the coupling nut is heat-expanded less torque is required to tighten or loosen the coupling nut. 2. The tubular connector of claim 1, wherein the through bores of the first hub, the second hub, and the seal are coaxial and have substantially the same internal diameter. 3. The tubular connector of claim 2, wherein the first and second hubs are each connected to a length of tubing having substantially the same internal diameter as the through bore of the connected hub. 4. The tubular connector of claim 1, wherein the seal has a first external conical sealing face and a second external conical sealing face, the first sealing face sealingly comateable with a first conical recess at the interior end of the first hub and the second sealing face sealingly comateable with a second conical recess at the first end of the second hub. 5. The tubular connector of claim 4, wherein the first sealing face is pressure biased by pressures in the seal through bore against the first conical recess of the first hub and the second sealing face is pressure biased by pressures in the seal through bore against the second conical recess of the second hub. 6. The tubular connector of claim 4, wherein the first sealing face has at least one annular groove. 7. The tubular connector of claim 1, wherein the seal is constructed of an elastomeric or metal material. 8. The tubular connector of claim 1 further comprising torquing means for tightening or loosening the coupling nut. 9. The tubular connector of claim 1 further comprising double-acting hydraulic means for tightening or loosening the coupling nut. 10. The tubular connector of claim 9, wherein the hydraulic means is at least one hydraulic cylinder. 11. The tubular connector of claim 1 wherein the heating means is positioned on an external surface of the coupling nut distal to a section of the external surface directly opposed to the internal threads. 12. The tubular connector of claim 1 further comprising an insulative covering for the heating means. 13. The tubular connector of claim 1 further comprising heating control means for regulating the heating means. 14. The tubular connector of claim 1 further comprising heat sensing means for accurately determining the temperature of the heated nut for implementing control of the nut temperature. 15. The tubular connector of claim 14, wherein the heat sensing means is a thermocouple, thermistor or heat-resistance device. 16. The tubular connector of claim 1, wherein the threads on the first hub and the internal threads of the coupling nut are interrupted threads. 17. The tubular connector of claim 16, wherein there is an equal number of thread interrupts and thread starts, wherein the thread interrupts are a t least as long as the threads. 18. A tubular connector comprising:(a) a first hub having a through bore, a first end having a first conical recess, and an externally threaded exterior section proximal the first end;(b) a second hub having a through bore, an outer surface, an interior end having a second conical recess, and a shoulder opposed to the interior end;(c) a coupling nut havingan internally threaded proximal end adapted to threadedly engage the externally threaded exterior section of the first hub, andan internal shoulder distal to the threaded proximal end engaged with the shoulder of the second hub to provide axial position control for said coupling nut,wherein tightening the coupling nut forces the first end of the first hub towards the interior end of the second hub;(d) a seal mounted on the first end of the second hub, the seal having a through bore, a first external sealing face comateable with the first conical recess, and a second external sealing face comateable with the second conical recess;(e) a heating element attached to said coupling nut; and(f) a hydraulic torquing mechanism for transmitting torque to the coupling nut to tighten or loosen the nut;whereby when the heating element increases the temperature of the coupling nut sufficiently the coupling nut is expanded and less torque is needed to achieve a predetermined pretensioning of the tubular connector. 19. The tubular connector of claim 18, wherein the torquing means is a double-acting hydraulic cylinder. 20. The tubular connector of claim 18, wherein the torquing means comprises a first element attached to the coupling nut and a second element attached to the second hub. 21. The tubular connector of claim 18 wherein the heating element is positioned on an external surface of the coupling nut between the internally threaded proximal end and the internal shoulder. 22. The tubular connector of claim 18 further comprising an insulative covering for the heating element. 23. The tubular connector of claim 22, wherein the first length of tubing, the second length of tubing, and the through bore of the seal have substantially equal internal diameters. 24. The tubular connector of claim 18, wherein the heating element is electrically powered. 25. The tubular connector of claim 18, wherein the first hub has a second end attached to a first length of tubing and the second hub has an exterior end attached to a second length of tubing. 26. The tubular connector of claim 18 further comprising heating control means for regulating the heating element. 27. The tubular connector of claim 18 further comprising heat sensing means for accurately determining the temperature of the heated nut for implementing control of the nut temperature. 28. The connector of claim 27, wherein the heat sensing means is a thermocouple, thermistor or heat-resistance device. 29. The tubular connector of claim 18, wherein the threads on the first hub and the internal threads of the coupling nut are interrupted threads having an equal number of thread interrupts and thread starts with the thread interrupts at least as long as the threads. 30. A tubular connector comprising:(a) a first hub having a through bore, a first end having a sealing surface transverse to the through bore, and a plurality of external threads proximal to the sealing surface;(b) a second hub having a through bore, an outer surface, and an interior end having a sealing surface transverse to the through bore;(c) a coupling nut having a plurality of internal threads at a proximal end, the threads adapted to threadedly engage the external threads of the first hub;(d) mounting means for coaxially mounting said coupling nut onto the outer surface of the second hub, said mounting means for providing axial and radial position control for said coupling nut;(e) selectably controllable heating means for heating a length of said coupling nut, said heating means positioned distal to said proximal end;(f) seal means for sealingly e ngaging the sealing surfaces of said first and second hubs when said internal threads of the coupling nut sufficiently engage the external threads of the first hub; and(g) torquing means for transmitting torque to an external surface of said nut to tighten or loosen said nut, wherein said torquing means comprises two torquing elements, said torquing elements including a ring clamp and a pair of hydraulic cylinders, wherein one torquing element is mounted to the second hub and one torquing element is mounted to the coupling nut;whereby a pressure-containing connection is effectuated between the first and second hubs by a combination of applying torque to said nut and applying and then removing heat from said nut. 31. The tubular connector of claim 30, wherein the through bores of the first and second hubs are coaxial and have substantially the same internal diameter. 32. The tubular connector of claim 30, wherein the first and second hubs are each connected to a length of tubing having substantially the same internal diameter as the through bore of the connected hub. 33. The tubular connector of claim 30, wherein the sealing means is an elastomeric or metal seal. 34. The tubular connector of claim 30, wherein the heating means is positioned on an external surface of the coupling nut distal to the proximal end. 35. The tubular connector of claim 30 further comprising an insulative covering for the heating means. 36. The tubular connector of claim 30 further comprising heating control means for regulating the heating means. 37. The tubular connector of claim 30 further comprising heat sensing means for accurately determining the temperature of the heated nut for implementing control of the nut temperature. 38. The tubular connector of claim 37, wherein the heat sensing means is a thermocouple, thermistor or heat-resistance device. 39. The tubular connector of claim 30, wherein the threads on the first hub and the internal threads of the coupling nut are interrupted threads. 40. The tubular connector of claim 39, wherein the threads on the first nut and the coupling nut have an equal number of thread interrupts and thread starts. 41. A method of prestressing a threaded connection comprising:(a) attaching a tubular connector to two lengths of tubing, the connector comprising:a first hub having a through bore, an interior end and an external surface, wherein the first hub has a plurality of external threads on a portion of the external surface and is attached to a first tubing;a second hub having a through bore and a first end and is attached to a second tubing;a coupling nut coaxially mounted on the second hub to limit axial movement of the coupling nut along a length of the second hub, wherein the coupling nut has a plurality of internal threads adapted to threadedly engage the threads on the external surface of the first hub, wherein tightening the coupling nut forces the interior end of the first hub towards the first end of the second hub;a seal having a through bore, wherein the seal is mounted on the first end of the second hub;a hydraulic torquing mechanism connected to the coupling nut; anda heating element for heating the coupling nut;(b) aligning the internal threads of the coupling nut for engagement with the external threads of the first hub;(c) activating the torquing mechanism to apply an initial torque to the coupling nut to engage the external and internal threads to form a connection between the first hub and the coupling nut with a first level of tension on the connection;(d) heating the coupling nut to a set temperature;(e) activating the torquing mechanism to apply a secondary torque to the coupling nut to provide a second level of tension on the connection; and(f) allowing the coupling nut to achieve ambient temperature to achieve an increased third level of tension on the connection. 42. The method of claim 41, wherein a double-acting hydraulic means is used to apply torque to the coupling nut. 43. A method of establishing a pressure-containing threaded connection comprising:(a) connecting a tubular connector to two lengths of tubing, the connector comprising:a first hub having a through bore, a first end having a sealing surface coaxial with the through bore, a second end attached to a first length of tubing, and a plurality of interrupted external threads proximal to the sealing surface;a second hub having a through bore, an outer surface, an interior end having a sealing surface coaxial with the through bore, and an exterior end attached to a second length of tubing;a coupling nut having a plurality of interrupted internal threads at a proximal end, the threads adapted to threadedly engage the external threads of the first hub;mounting means for coaxially mounting said coupling nut onto the outer surface of the second hub, said mounting means for providing axial position control for said coupling nut;selectably controllable heating means for heating a length of said coupling nut;a seal having a through bore, the seal mounted on the sealing surface of the second hub; anda hydraulic torquing mechanism for transmitting torque to an external surface of said nut to tighten or loosen said nut;(b) inserting the internal threads of the coupling nut into the thread interrupts of the external threads of the first hub;(c) aligning the internal threads of the coupling nut with the external threads of the first hub;(d) activating the torquing mechanism to apply an initial torque to the coupling nut to engage the external and internal threads to form a connection between the first hub and the coupling nut with a first level of tension on the connection;(e) heating the coupling nut to a predetermined temperature;(f) activating the torquing mechanism to apply a secondary torque to the coupling nut to provide a second level of tension on the connection; and(f) allowing the coupling nut to achieve ambient temperature to achieve an increased third level of tension on the connection sufficient to force the seal means to engage the sealing surfaces of the first and second hubs and prevent the egress or ingress of fluid through the seal means. 44. A tubular connector comprising:a first hub having a through bore, an interior end, an external surface, a first counterbore having a first inner diameter, a conical abutment, a second counterbore opening to the interior end of the first hub and having a second inner diameter wherein the second inner diameter is larger than the first inner diameter, a sealing face, and a plurality of threads on a portion of the external surface;a second hub having a through bore, a first end, a second end, a cylindrical stabbing nose having an outer diameter sufficient to provide a slip fit into the first inner diameter of the first counterbore of the first hub, a sealing face, and a cylindrical inner section having an outer diameter sufficient to provide a slip fit into the second counterbore of the first hub;a coupling nut coaxially mounted on the second hub, wherein the coupling nut has a plurality of internal threads adapted to threadedly engage the threads on the external surface of the first hub, wherein tightening the coupling nut forces the interior end of the first hub towards the first end of the second hub;a keeper ring mounted on the second hub adjacent to the coupling nut to limit axial movement of the coupling nut along a length of the second hub toward the second end of the second hub;an annular seal having a through bore, wherein the seal is mounted on the first end of the second hub and prevents ingress or egress of fluid between the interior end of the first hub and the first end of the second hub when the coupling nut is tightened to sufficiently compress the seal between the interior end of the first hub and the first end of the second hub; andheating means for heating the coupling nut;whereby when the hubs of the connector are assembled the interaction of the counterbores and conical abutment of the firs t hub with the stabbing nose and the cylindrical inner section of the second hub coact to cause axial alignment of the connector and whereby when the coupling nut is heat-expanded less torque is required to tighten or loosen the coupling nut.