Self-orienting gas evading intake for submersible pumps

What is claimed is: 1. A pumping system, comprising: a pump; an intake section coupled to the pump, wherein the intake section comprises: an external housing, wherein the external housing comprises one or more ports; a self-orienting eccentric intake positioned within the external housing comprising at least a first portion of a first thickness and a second portion of a second thickness, wherein the eccentric intake orients based on the first portion and the second portion, and wherein the first portion comprises one or more openings; a blocker sleeve slidably positioned between the external housing and the eccentric intake; and a flow path between the blocker sleeve and the eccentric intake; a motor section coupled to the intake section; and wherein the blocker sleeve blocks at least a first port of the one or more ports and exposes at least a second port of the one or more ports, and wherein the exposed second port is in fluid communication with the flow path and the one or more openings. 2. The pumping system of claim 1 , wherein the electrical submersible pump is suspended in a borehole via a production tubular. 3. The pumping system of claim 1 , wherein the external housing comprises a carbon steel. 4. The pumping system of claim 1 , wherein the eccentric intake comprises a Ni-Resist cast iron or a Ni-Resist alloy. 5. The pumping system of claim 1 , wherein the flow path comprises a groove. 6. The pumping system of claim 1 , wherein the intake section further comprises an eccentric intake inner housing support disposed within the external housing, and wherein the eccentric intake is disposed between the flow path and the eccentric intake inner housing support. 7. The pumping system of claim 1 , further comprising: a drive shaft; and wherein the intake section further comprises: a drive shaft support disposed about the drive shaft; and one or more bearing supports coupled to the eccentric intake inner housing support and the drive shaft support. 8. A method of operating an electrical submersible pumping system, comprising: disposing the electrical submersible pumping system in a borehole; self-orienting an intake section of the electrical submersible pumping system; actuating a blocker sleeve of the intake section of the electrical submersible pumping system; exposing a port of an external housing of the intake section based on the actuation of the blocker sleeve; and drawing a fluid from the borehole through the exposed port into the intake section, comprising drawing the fluid from the exposed port into a fluid path between the blocker sleeve and an eccentric intake. 9. The method of claim 8 , further comprising drawing the fluid from the fluid path through one or more openings of the eccentric intake, wherein the blocker sleeve is disposed about the eccentric intake. 10. The method of claim 8 , further comprising drawing the fluid into a pump coupled to the intake section. 11. The method of claim 8 , wherein self-orienting the intake section comprises aligning the intake section for a toe-down position within the borehole. 12. The method of claim 8 , wherein self-orienting the intake section comprises aligning the intake section for a toe-up position within the borehole. 13. A gas avoidance system for an electrical submersible pump, comprising: an external housing, wherein the external housing comprises one or more ports; an eccentric intake positioned within the external housing, wherein the eccentric intake comprises one or more openings; a blocker sleeve slidably positioned between the external housing and the eccentric intake; a flow path between the blocker sleeve and the eccentric intake; a motor section coupled to the intake section; and wherein the blocker sleeve blocks at least a first port of the one or more ports and exposes at least a second port of the one or more ports, and wherein the exposed first port is in fluid communication with the flow path and the one or more openings. 14. The gas avoidance system for the electrical submersible pump of claim 13 , wherein the electrical submersible pump is suspended in a borehole via a production tubular. 15. The gas avoidance system for the electrical submersible pump of claim 13 , wherein the external housing comprises a carbon steel. 16. The gas avoidance system for the electrical submersible pump of claim 13 , wherein the eccentric intake comprises a Ni-Resist cast iron or a Ni-Resist alloy. 17. The gas avoidance system for the electrical submersible pump of claim 13 , wherein the flow path comprises a groove. 18. The gas avoidance system for the electrical submersible pump of claim 13 , wherein the intake section further comprises an eccentric intake inner housing support disposed within the external housing, and wherein the eccentric intake is disposed between the flow path and the eccentric intake inner housing support. 19. The gas avoidance system for the electrical submersible pump of claim 13 , further comprising: a drive shaft; and wherein the intake section further comprises: a drive shaft support disposed about the drive shaft; and one or more bearing supports coupled to the eccentric intake inner housing support and the drive shaft support.