RU2004118402A - PUMP SYSTEM AND WELL PUMP INTENDED FOR OPERATION IN A MULTI-PHASE ENVIRONMENT, AND THE METHOD OF PROTECTION OF THE BEARINGS USED IN THEM - Google Patents

Claims (22)

1. A pump system designed for operation in a multiphase environment, which is a rotary pump system with self-lubricating ceramic bearings, resistant to abrasion. 2. The pump system according to claim 1, in which self-lubricating, abrasion-resistant ceramic bearings contain silicon carbide impregnated with graphite. 3. The pump system according to claim 1, in which self-lubricating, abrasion-resistant ceramic bearings are angular contact bearings. 4. The pump system according to claim 1, in which the self-lubricating, abrasion-resistant ceramic bearings are selected from thrust bearings, segment bearings, roller bearings, "lemon" bearings and threshold bearings. 5. A self-lubricating, abrasion-resistant ceramic bearing suitable for borehole pump systems designed to operate in a multiphase environment, containing a material consisting of silicon carbide impregnated with graphite. 6. The bearing according to claim 5, intended for use in a borehole centrifugal pump. 7. The bearing according to claim 5, intended for use in a borehole multistage pump. 8. The bearing according to claim 5, intended for use in a protective device of a borehole electric motor. 9. The bearing according to claim 5, which is an angular contact bearing. 10. The bearing according to claim 5, selected from thrust bearings, segment bearings, roller bearings, "lemon" bearings and threshold bearings. 11. A borehole pump designed for operation in a multiphase environment, which is an electric submersible pump having self-lubricating ceramic bearings resistant to abrasion. 12. The well pump of claim 11, wherein the electric submersible pump is a multi-stage pump. 13. The well pump of claim 11, wherein the self-lubricating, abrasion-resistant ceramic bearings comprise a material that is silicon carbide impregnated with graphite. 14. The well pump of claim 11, wherein the self-lubricating, abrasion-resistant ceramic bearings are angular contact bearings. 15. The well pump of claim 11, wherein the self-lubricating, abrasion-resistant ceramic bearings are selected from thrust bearings, segment bearings, lobed bearings, lemon bearings and threshold bearings. 16. Protective device for a borehole electric motor for use in an electric submersible pump system designed to operate in a multiphase environment, containing self-lubricating, abrasion-resistant ceramic bearings. 17. The protective device according to clause 16, in which self-lubricating, abrasion-resistant ceramic bearings contain a material that is a silicon carbide impregnated with graphite. 18. The protective device according to clause 16, in which self-lubricating, abrasion-resistant ceramic bearings are angular contact bearings. 19. The protective device according to clause 16, in which the self-lubricating, abrasion-resistant ceramic bearings are selected from thrust bearings, segment bearings, roller bearings, "lemon" bearings and threshold bearings. 20. A method of protecting bearings in a multiphase environment, which consists in the use of self-lubricating, abrasion-resistant ceramic bearings containing a material consisting of silicon carbide impregnated with graphite. 21. A submersible pump system designed for operation in a multiphase environment, comprising a submersible electric motor, a submersible pump provided with electric power from the electric motor, and a protective device of the electric motor, while the bearings of the submersible pump and the protective device of the electric motor are self-lubricating ceramic bearings that are resistant to abrasion. 22. The submersible pump system according to item 21, in which the bearings are bearings made of silicon carbide impregnated with graphite.