Adjustable interference progressive cavity pump/motor for predictive wear

Therefore, at least the following is claimed: 1 . A progressive cavity pump, comprising: a stator having a hyperboloidal internal bore including a plurality of spiral lobes; and a rotor comprising a plurality of spiral lobes positioned within the hyperboloidal internal bore of the stator, where a longitudinal axis of the rotor is non-planar, non-parallel, and non-intersecting with a longitudinal axis of the stator. 2 . The progressive cavity pump of claim 1 , wherein the longitudinal axis of the rotor is offset from the longitudinal axis of the stator and rotated by a defined angle. 3 . The progressive cavity pump of claim 2 , wherein the defined angle is in a range from about 0.001 degree to about 10 degrees. 4 . The progressive cavity pump of claim 2 , wherein the longitudinal axis of the rotor is offset from the longitudinal axis of the stator by a defined distance. 5 . The progressive cavity pump of claim 4 , wherein the defined distance is in a range from about 0.01 inch to about 10 inches. 6 . The progressive cavity pump of claim 2 , wherein skew axes of the stator and rotor are non-planar, non-parallel, and non-intersecting. 7 . The progressive cavity pump of claim 1 , wherein the rotor is tapered from a larger end to a smaller end. 8 . The progressive cavity pump of claim 7 , wherein the taper of the rotor is hyperboloidal. 9 . The progressive cavity pump of claim 1 , wherein the stator comprises an elastomeric material coating the hyperboloidal internal bore of the stator. 10 . The progressive cavity pump of claim 9 , wherein the elastomeric material reduces the effect of friction and abrasion when operating under high temperature conditions. 11 . The progressive cavity pump of claim 10 , wherein the elastomeric material comprises a fluoropolymer. 12 . The progressive cavity pump of claim 11 , wherein the fluoropolymer is polytetrafluoroethylene (PTFE). 13 . The progressive cavity pump of claim 10 , wherein the elastomeric material further comprises a filler component. 14 . The progressive cavity pump of claim 13 , wherein the filler component comprises mullite, pyrophyllite, kyanite, dolomite, or a combination thereof. 15 . The progressive cavity pump of claim 10 , wherein the elastomeric material has a coefficient of friction in the range of about 0.2 to about 0.4 and a wear rate of about 1×10 −7 mm 3 /Nm or less. 16 . The progressive cavity pump of claim 1 , wherein the rotor is configured to allow for displacement to adjust an interference fit between the rotor and the stator. 17 . The progressive cavity pump of claim 16 , wherein the rotor can be displaced along the longitudinal axis of the rotor.