Dynamic power optimization system and method for electric submersible motors

The invention claimed is: 1. A system to optimize operation of an electric submersible pump (ESP) motor comprising: the ESP motor electrically coupled to a variable speed drive (VSD) that outputs voltage to the ESP motor, the VSD controlled by a VSD controller comprising a computer with non-transitory memory storage; and wherein the non-transitory memory storage stores instructions which, when executed by the computer cause the following steps to be performed dynamically in a loop during operation of the VSD and ESP motor: obtaining a measurement of at least one pump performance variable and a motor current for a first period of time to establish a first data set; making a first adjustment to a voltage output from the VSD to the ESP motor, the first adjustment having a first adjustment type, wherein the first adjustment type is one of increasing or decreasing the voltage output; sensing the at least one pump performance variable and the motor current for a second period of time, after the first adjustment, to establish a second data set; differencing the first data set with the second data set to determine a change in the motor current from the first data set to the second data set; and making a second adjustment to the voltage output from the VSD to the ESP motor in response to the change in motor current and a change in the at least one pump performance variable, the second adjustment comprising one of: an adjustment of the first adjustment type if the change in current is a drop and the at least one pump performance variable in the second data set is maintained between an upper threshold and a lower threshold; or an adjustment opposite the first adjustment type if one of: the change in current is a rise and the at least one pump performance variable in the second data set is maintained between the upper threshold and the lower threshold; or if the change in current is a drop and the at least one pump performance variable in the second data set deviates one of above the upper threshold or below the lower threshold. 2. The system of claim 1 , wherein the at least one pump performance variable comprises one of ESP pump discharge pressure, ESP pump intake pressure, revolution rate of the ESP motor, or a combination thereof. 3. The system of claim 1 , wherein the ESP motor is downhole in a well, and the VSD is proximate to a surface of the well. 4. The system of claim 1 , wherein the motor current is measured using an ammeter one of at the ESP motor, at the output of the VSD, intermediately along an ESP power cable extending between the ESP motor and the VSD, or a combination thereof. 5. The system of claim 1 , wherein the voltage output from the VSD to the ESP motor is adjusted in a variable increment determined by the computer of the VSD controller, and wherein the increment of at least one of the first adjustment and the second adjustment is between 0.5 Volts and 20.0 Volts inclusive and a step size of the increment is dynamic. 6. The system of claim 1 , wherein the computer is a programmable logic controller comprising software in ladder-logic and comprises a user interface. 7. The system of claim 1 , wherein the loop continues iteratively until operation of the ESP motor ceases. 8. An electric submersible pump (ESP) motor and variable speed drive (VSD) in combination with a memory storage device storing program instructions operative, when implemented by a processor, to cause the processor to perform the steps of the loop of claim 1 . 9. A computer-implemented method of power optimization for an electric submersible pump (ESP) motor comprising: operating the ESP motor downhole in a well, the ESP motor electrically connected to a variable speed drive (VSD) proximate to the well, the VSD outputting voltage to the ESP motor and at least partially controlled by a programmable logic controller (PLC) with non-transitory memory storage, storing instructions which, when executed by a computer, cause following steps to be performed dynamically in a loop: obtaining a measurement of at least one pump performance variable and a motor current for a first period of time to establish a first data set; making a first adjustment to a voltage output from the VSD to the ESP motor, the first adjustment having a first adjustment type, wherein the first adjustment type is one of increasing or decreasing the voltage output; sensing the at least one pump performance variable and the motor current for a second period of time, after the first adjustment, to establish a second data set; differencing the first data set with the second data set to determine a change in the motor current from the first data set to the second data set; and making a second adjustment to the voltage output from the VSD to the ESP motor in response to the change in motor current and a change in the at least one pump performance variable, the second adjustment comprising one of: an adjustment of the first adjustment type if the change in current is a drop and the at least one pump performance variable in the second data set is maintained between an upper threshold and a lower threshold; or an adjustment opposite the first adjustment type if one of: the change in current is a rise and the at least one pump performance variable in the second data set is maintained between the upper threshold and the lower threshold; or if the change in current is a drop and the at least one pump performance variable in the second data set deviates one of above the upper threshold or below the lower threshold. 10. The computer-implemented method of claim 9 , wherein the at least one pump performance variable comprises one of ESP pump discharge pressure, ESP pump intake pressure, revolution rate of the ESP motor, or a combination thereof. 11. The computer-implemented method of claim 9 , wherein the ESP motor is downhole in a well, and the VSD is proximate to a surface of the well. 12. The computer-implemented method of claim 9 , wherein the motor current is measured using an ammeter one of at the ESP motor, at the output of the VSD, intermediately along an ESP power cable extending between the ESP motor and the VSD, or a combination thereof. 13. The computer-implemented method of claim 9 , wherein the voltage output from the VSD to the ESP motor is adjusted in a variable increment determined by the computer of the VSD controller, and wherein the increment of at least one of the first adjustment and the second adjustment is between 0.5 Volts and 20.0 Volts inclusive and a step size of the increment is dynamic. 14. The computer-implemented method of claim 9 , wherein the computer is a programmable logic controller comprising software in ladder-logic and comprises a user interface. 15. The computer-implemented method of claim 9 , wherein the loop continues iteratively until operation of the ESP motor ceases. 16. A computer-readable medium having instructions stored thereon that are executable by a processor to perform operations comprising: controlling a variable speed drive (VSD) that is electrically connected to an electric submersible pump (ESP) motor that is operating downhole in a well, wherein the controlling comprises, obtaining a measurement of at least one pump performance variable and a motor current for a first period of time to establish a first data set; making a first adjustment to a voltage output from the VSD to the ESP motor, the first adjustment having a first adjustment type, wherein the first adjustment type is one of increasing or decreasing the voltage output; sensing the at least one pump performance variable and