Electric submersible pump (esp) assembly fluid intake extension

What is claimed is: 1 . An electric submersible pump (ESP) assembly, comprising: an electric motor; a seal section coupled to an uphole end of the electric motor; a fluid intake coupled to an uphole end of the seal section, wherein the fluid intake defines a plurality of inlet ports; a gas separator coupled to an uphole end of the fluid intake, wherein the gas separator has a plurality of gas phase discharge ports and at least one liquid phase discharge port; a pump assembly coupled to an uphole end of the gas separator, wherein the pump assembly has a fluid inlet fluidically coupled to the at least one liquid phase discharge port of the gas separator; and an intake extension tubular, wherein an uphole end of the intake extension tubular is coupled to the fluid intake uphole of the inlet ports, wherein the intake extension tubular encloses at least three quarters of the seal section, and wherein an annulus defined between an inside of the intake extension tubular and an outside of the seal section defines a fluid flow path from a downhole end of the intake extension tubular to the inlet ports of the fluid intake. 2 . The ESP assembly of claim 1 , wherein the gas separator comprises a separation chamber located within the gas separator downhole of the gas phase discharge ports and a fluid mover located downhole of the separation chamber. 3 . The ESP assembly of claim 1 , further comprising an inlet clamp that secures a downhole end of the intake extension tubular to an outside of the seal section wherein the inlet clamp defines a plurality of inlet ports that are fluidically coupled to the fluid flow path defined by the annulus defined between the inside of the intake extension tubular and an outside of the seal section. 4 . The ESP assembly of claim 3 , wherein the inlet clamp comprises two halves that bolt together. 5 . The ESP assembly of claim 1 , wherein the pump assembly is a centrifugal pump comprising a plurality of centrifugal pump stages, wherein each centrifugal pump stage comprises an impeller and a diffuser. 6 . The ESP assembly of claim 1 , further comprising an inverted shroud that is sealingly coupled at a downhole end to an outside of the gas separator at a point on the gas separator downhole of the gas phase discharge ports, wherein the inverted shroud extends up and over the outside of the pump assembly. 7 . The ESP assembly of claim 1 , wherein an electric power cable is located outside of the intake extension tubular and is coupled to an outside of the intake extension tubular and is connected to the electric motor. 8 . A method of lifting fluid in a wellbore, comprising: running an electric submersible pump (ESP) assembly into the wellbore, wherein the ESP assembly comprises an electric motor, a seal section coupled to an uphole end of the electric motor, a fluid intake coupled to an uphole end of the seal section, wherein the fluid intake defines a plurality of inlet ports, a gas separator coupled to an uphole end of the fluid intake, wherein the gas separator defines a plurality of gas phase discharge ports and at least one liquid phase discharge port, a pump assembly coupled to an uphole end of the gas separator and having an inlet fluidically coupled to the at least one liquid phase discharge port of the gas separator, and an intake extension tubular, wherein an uphole end of the intake extension tubular is coupled to the fluid intake uphole of the inlet ports and the intake extension tubular encloses at least three quarters of the seal section, and wherein a first annulus defined between an inside of the intake extension tubular and an outside of the seal section defines a fluid flow path from a downhole end of the intake extension tubular to the inlet ports of the fluid intake; providing electric power to the electric motor; receiving a fluid from downhole of the electric motor by the downhole end of the intake extension tubular; flowing the fluid uphole in the first annulus to the inlet ports of the fluid intake; separating the fluid by the gas separator into a first fluid portion and a second fluid portion, wherein the first fluid portion has a lower gas-to-liquid ratio than the second fluid portion; flowing the first fluid portion by the gas separator via the at least one liquid phase discharge port to the inlet of the pump assembly; flowing the second fluid portion by the gas separator via the gas phase discharge ports into a second annulus defined between an inside of the wellbore and an outside of the ESP assembly; separating the second fluid portion into a first free gas portion and a third fluid portion in the second annulus, wherein the third fluid portion has a lower gas-to-liquid ratio than the second fluid portion; flowing the first free gas portion uphole in the second annulus; flowing the third fluid portion downhole in the second annulus; bubbling gas out of the third fluid portion to form a second free gas portion and a fourth fluid portion, wherein the fourth fluid portion has a lower gas-to-liquid ratio than the third fluid portion; and receiving the fourth fluid portion by the downhole end of the intake extension tubular. 9 . The method of claim 8 , further comprising mixing the fluid from downhole of the electric motor with the fourth fluid portion at the downhole end of the intake extension tubular. 10 . The method of claim 9 , wherein the fluid from downhole of the electric motor comprises a transient gas slug and mixing the transient gas slug with the fourth fluid portion at the downhole end of the intake extension tubular provides a liquid fluid portion to the inlet ports of the fluid intake. 11 . The method of claim 8 , wherein the downhole end of the intake extension tubular is coupled to an outside of the seal section by an inlet clamp that defines inlet ports, wherein receiving the fluid from downhole of the electric motor by the downhole end of the intake extension tubular comprises receiving the fluid from downhole of the electric motor by the inlet ports of the inlet clamp, and wherein receiving the fourth fluid portion by the downhole end of the intake extension tubular comprises receiving the fourth fluid portion by the inlet ports of the inlet clamp. 12 . The method of claim 8 , wherein the ESP assembly further comprises an inverted shroud that is coupled at a downhole end to an outside of the gas separator below the gas phase discharge ports and is coupled at an uphole end to an outside of the pump assembly or to a production tubing that is coupled to an outlet of the pump assembly, wherein flowing the second fluid portion by the gas separator via the gas phase discharge ports into the second annulus comprises flowing the second fluid uphole within the inverted shroud and flowing into the second annulus by exiting the uphole end of the inverted shroud. 13 . The method of claim 8 , wherein an outside diameter of the intake extension tubular is about the same as an outside diameter of the gas separator. 14 . The method of claim 13 , wherein the ESP assembly comprises an electric cable that is coupled to an outside of the intake extension tubular and connects to the electric motor. 15 . A method of assembling an electric submersible pump (ESP) assembly, comprising: hanging an electric motor in a wellbore; coupling a downhole end of a seal section to an uphole end of the electric motor; coupling a downhole end of an intake extension tubular to an outside of the seal section; coupling a downhole end of a fluid intake to an uphole end of the seal section, wherein the fluid intake defines a plurality of inle