Electrical submersible pumping systems

What is claimed is: 1 . A system, comprising: an electric submersible pumping system having a fluid intake and a fluid discharge, the electric submersible pumping system comprising: a housing; a stator disposed within the housing; a plurality of non-magnetic diffusers disposed within the housing in a locked position with respect to the stator, each non-magnetic diffuser of the plurality of non-magnetic diffusers includes an inner bore; a plurality of magnetic impellers disposed within the housing in cooperation with the plurality of non-magnetic diffusers such that application of electric power to the stator causes rotation of the plurality of magnetic impellers, wherein each magnetic impeller of the plurality of magnetic impellers includes an impeller hub and a snap ring engaged with an outer surface of the impeller hub; a plurality of bearing stacks, each bearing stack including a radial bearing configured to support radial loads and a thrust runner configured to support axial loads, wherein each impeller hub is disposed within the inner bore of a respective non-magnetic diffuser, and wherein each bearing stack is disposed radially about each impeller hub and radially within the inner bore of the respective non-magnetic diffuser; and a tube disposed between the plurality of magnetic impellers and the stator to isolate the stator from fluid pumped via the plurality of magnetic impellers. 2 . The system according to claim 1 , wherein each magnetic impeller of the plurality of magnetic impellers comprises a body, a magnetic component disposed about the body, and a permanent magnet. 3 . The system according to claim 1 , wherein the stator comprises laminations sealed between the housing and the tube. 4 . The system according to claim 1 , wherein the plurality of magnetic impellers comprise a magnetic material. 5 . The system according to claim 1 , wherein each non-magnetic diffuser of the plurality of non-magnetic diffusers comprises a fluid conduit for transporting a fluid from a first side of the non-magnetic diffuser to a second side of the non-magnetic diffuser. 6 . The system according to claim 2 , wherein the permanent magnet has an annular shape. 7 . The system according to claim 1 , wherein the tube is formed as a single cylindrical section. 8 . The system according to claim 1 , wherein the plurality of magnetic impellers rotate in response to a flow of electricity through a magnet wire. 9 . A method, comprising: providing an electric submersible pumping system with an outer housing containing an integrated pump and motor within the outer housing, wherein the integrated pump and motor includes: a plurality of non-magnetic diffusers, each non-magnetic diffuser of the plurality of non-magnetic diffusers includes an inner bore; a plurality of magnetic impellers, each magnetic impeller of the plurality of magnetic impellers including an impeller hub and a snap ring engaged with an outer surface of the impeller hub; and a plurality of bearing stacks, each bearing stack including a radial bearing configured to support radial loads and a thrust runner configured to support axial loads, wherein each impeller hub is disposed within the inner bore of a respective non-magnetic diffuser, and wherein each bearing stack is disposed radially about each impeller hub and radially within the inner bore of the respective non-magnetic diffuser; conveying the electric submersible pumping system downhole into a borehole; using a tubing to sealingly isolate a stator of a motor of the integrated pump and motor; applying electrical power to the motor of the integrated pump and motor to establish a fluid pumping motion; and pumping a fluid through the integrated pump and motor within the outer housing without exposing the stator to the fluid. 10 . The method as recited in claim 9 , wherein the plurality of non-magnetic diffusers are mounted within the stator and the plurality of magnetic impellers rotatably mounted within the stator in cooperation with the plurality of non-magnetic diffusers. 11 . The method as recited in claim 9 , wherein the stator comprises laminations sealed between the outer housing and a tube. 12 . The method as recited in claim 9 , wherein a body of each magnetic impeller of the plurality of magnetic impellers comprises a magnetic material.