Forward deployed sensing array for an electric submersible pump

What is claimed is: 1. An electric submersible pumping system comprising: an electric motor; a pump assembly driven by the electric motor; and a sensor module, wherein the sensor module comprises a detachable sensor array that can be selectively released from the sensor module and wherein the sensor module includes: a pass-through that carries electrical wiring to the motor; and a hatch, wherein the hatch is motorized and includes a pair of doors that can be controllably opened and closed. 2. The electric submersible pumping system of claim 1 , wherein the detachable sensor array comprises a sensor array vehicle, wherein the sensor array vehicle comprises: a drive motor; a drive mechanism driven by the drive motor; and a sensor array. 3. The electric submersible pumping system of claim 2 , wherein the sensor array includes one or more sensors selected from the group consisting of temperature sensors, visual sensors, cameras, position sensors, pressure sensors, vibration sensors, gas detection sensors and gas content analyzers. 4. The electric submersible pumping system of claim 2 , wherein the drive mechanism is selected from the group consisting of wheels, tracks and augers. 5. The electric submersible pumping system of claim 1 , wherein the sensor module further comprises: a control board; and an umbilical connected between the control board and the detachable sensor array. 6. The electric submersible pumping system of claim 5 , wherein the umbilical is stored on a powered reel within the sensor module. 7. The electric submersible pumping system of claim 1 , wherein the hatch is configured to be selectively opened to permit the deployment of the detachable sensor array. 8. The electric submersible pumping system of claim 1 , wherein the detachable sensor array is configured to measure wellbore conditions and output a signal representative of the measured wellbore condition. 9. The electric submersible pumping system of claim 8 , further comprising a variable speed drive that controls the operation of the electric motor and wherein the signal representative of the measured wellbore condition is provided to the variable speed drive. 10. A method for optimizing the performance of a pumping system, the method comprising the steps of: providing an electric motor to drive the pumping system; providing a sensor module that includes a pass-through that carriers electrical wiring to the motor and a motorized hatch that includes a pair of doors that can be controllably opened and closed; installing the sensor module into a wellbore; opening the motorized hatch; deploying a detachable sensor array from the sensor module to a remote location in the wellbore; measuring a wellbore condition at the remote location with the detachable sensor array; outputting a wellbore condition signal from the detachable sensor array; and adjusting an operating parameter of the pumping system in response to the wellbore condition signal. 11. The method of claim 10 , wherein the pumping system is an electric submersible pumping system and the method further comprises the step of connecting the sensor module to the electric submersible pumping system and the step of installing the sensor module further comprises installing the electric submersible pumping system and sensor module into a wellbore. 12. The method of claim 11 , wherein the step of adjusting an operating parameter further comprises adjusting the operating speed of an electric motor within the electric submersible pumping system in response to the wellbore condition signal. 13. The method of claim 10 , wherein the step of deploying a detachable sensor array further comprises releasing a sensor array vehicle into the wellbore. 14. The method of claim 13 , wherein the step of deploying a detachable sensor array further comprises: dropping the sensor array vehicle onto a surface of the wellbore; and driving the sensor array vehicle to a desired measurement point in the wellbore. 15. The method of claim 14 , wherein the step of driving the sensor array vehicle to a desired measurement point in the wellbore further comprises energizing a drive motor within the sensor array vehicle to activate a drive mechanism. 16. The method of claim 14 , further comprising a step of providing an umbilical between the sensor module and the sensor array vehicle. 17. The method of claim 10 , further comprising the step of outputting a wellbore condition signal from the detachable sensor array that provides a forecast prediction of changes in environmental conditions approaching the submersible pumping system. 18. The method of claim 10 , further comprising the steps of: retracting the detachable sensor array into the sensor module; and retrieving the sensor module from the well. 19. A submersible pumping system for use in a deviated wellbore having a vertical section and a lateral section, the pumping system comprising: a pump assembly positioned in the vertical section; a motor assembly positioned in the vertical section; wherein the motor assembly has a first end and a second end; a seal section connected between the pump and the first end of the motor assembly; a sensor module positioned in the vertical section; wherein the sensor module is connected to the second end of the motor assembly, and wherein the sensor module includes: a pass-through that carries electrical wiring to the motor assembly; and a hatch, wherein the hatch is motorized and includes a pair of doors that can be controllably opened and closed; and a detached sensor array positioned in the lateral section, wherein the detached sensor array provides a signal representative of a wellbore condition in the lateral section. 20. The submersible pumping system of claim 19 , wherein the detached sensor array comprises a self-propelled sensor array vehicle. 21. The submersible pumping system of claim 20 , wherein the self-propelled sensor array vehicle is connected to the sensor module by an umbilical.