ESP string protection apparatus

What is claimed is: 1. A system for protecting an Electrical Submersible Pump (ESP) string having a pump and a motor, the system comprising: an intake tube having a first and second end; wherein the intake tube is coupled to and extends below an inverted shroud through a gas pocket and into a liquid from a hydrocarbon reservoir; wherein the first end opens below the inverted shroud and within the liquid; wherein the second end opens within the inverted shroud and to the ESP; wherein the intake tube serves as the only fluid opening within the inverted shroud; and the inverted shroud coupled to the intake tube; wherein the intake tube is not directly coupled to the pump and the motor; wherein a casing is adjacent to the inverted shroud to form an annulus; wherein the inverted shroud and casing are arranged in close proximity to one another such that the gas pocket accumulates below the inverted shroud; wherein the accumulated gas temporarily halts the flow of the liquid past the gas and into the annulus between the inverted shroud and the casing; wherein the casing portion adjacent to the inverted shroud is not perforated. 2. The system of claim 1 wherein the inverted shroud is coupled with the first end of the intake tube. 3. The system of claim 2 wherein the inverted shroud is coupled with a section of production tubing downstream from the pump and the motor. 4. The system of claim 2 wherein the inverted shroud forms a bypass path within a casing annulus. 5. The system of claim 1 wherein another inverted shroud is coupled to the second end of the intake tube. 6. An apparatus for protecting an Electrical Submersible Pump (ESP) system having a pump and a motor, the apparatus comprising: an intake tube having a first and second end; wherein the intake tube is coupled to and extends below an inverted shroud through a gas pocket and into a liquid from a hydrocarbon reservoir; wherein the first end opens below the inverted shroud and within the liquid; wherein the second end opens within the inverted shroud and to the ESP; wherein the intake tube serves as the only fluid opening within the inverted shroud; and a bypass channel extending above the pump; wherein the intake tube is not directly coupled to the pump and the motor; wherein a casing is adjacent to the inverted shroud to form an annulus; wherein the inverted shroud and casing are arranged in close proximity to one another such that the gas pocket accumulates below the inverted shroud; wherein the accumulated gas temporarily halts the flow of the liquid past the gas and into the annulus between the inverted shroud and the casing; wherein the casing portion adjacent to the inverted shroud is not perforated. 7. The apparatus of claim 6 wherein the inverted shroud shields the pump and the motor from the gas pocket. 8. The apparatus of claim 7 wherein the inverted shroud is coupled with a section of production tubing above the pump and the motor. 9. The apparatus of claim 8 wherein the inverted shroud is coupled with the first end of the intake tube. 10. The apparatus of claim 6 , further comprising an inverted shroud coupled with the second end of the intake tube. 11. A method of operating an ESP system having a pump and a motor, the method comprising: pumping fluid from a downhole reservoir through a gas bypass assembly using the pump and the motor; wherein the gas bypass assembly comprises: an intake tube having a first and second end; wherein the intake tube is coupled to and extends below an inverted shroud through a gas pocket and into a liquid from the downhole reservoir; wherein the first end opens below the inverted shroud and within the liquid; wherein the second end opens within the inverted shroud and to the ESP; wherein the intake tube serves as the only fluid opening within the inverted shroud; wherein the intake tube is not directly coupled to the pump and the motor, wherein a casing is adjacent to the inverted shroud to form an annulus; wherein the inverted shroud and casing are arranged in close proximity to one another such that the gas pocket accumulates below the inverted shroud; wherein the accumulated gas temporarily halts the flow of the liquid past the gas and into the annulus between the inverted shroud and the casing; wherein the casing portion adjacent to the inverted shroud is not perforated.