Electrical submersible pump monitoring and failure prediction

What is claimed is: 1. An apparatus for monitoring and operating an electrical submersible pump motor disposed in a hydrocarbon well in situ to prolong operation of the pump motor and pumping of well fluids based on behavior and performance of the pump motor during pumping of the well fluids identified from an analysis of a pump motor electrical current providing operating electrical power to the pump motor, the apparatus comprising: a logging system recording pump motor electrical current logs of the operating electrical power provided by the pump motor electrical current to the pump motor during pumping of the well fluids; a conditioning circuit receiving the pump motor electrical current logs and converting the pump motor electrical current logs to a format for processing; a frequency spectrum analyzer receiving the pump motor electrical current logs from the conditioning circuit and providing measures of energy density present during pumping of the well fluids in individual frequency ranges of a frequency spectrum of the pump motor electrical current; a wavelet analyzer receiving the pump motor electrical current logs from the conditioning circuit and providing measures of variations in signal time shift and frequency characteristics of the pump motor electrical current during pumping of the well fluids to identify variations of the pump motor dynamic behavior as function of time, the wavelet analyzer applying an adjustable wavelet to a pump motor electrical current waveform to identify additional load on the pump motor during pumping of the well fluids; a dynamic behavior analyzer module, comprising: a signal embedding module receiving the pump motor electrical current logs from the conditioning circuit and superimposing a set of added time series signals of different characteristic frequencies into the pump motor electrical current logs to identify dynamic behavior performance changes of the pump motor during pumping of the well fluids from changes in the pump motor electrical current logs; and a phase diagram reconstruction module comprising an analyzer receiving the pump motor electrical current with the superimposed time series signals from the signal embedding module, the phase diagram reconstruction module sampling the received pump motor electrical current with the superimposed time series signals at different time intervals and forming a measure of the identified dynamic behavior performance changes of the pump motor based on fluctuations in the pump motor electrical current during pumping of the well fluids; and a graphical interface forming an output display of pump motor diagnostic information for monitoring the behavior and performance of the pump motor to detect disturbances in performance of the pump motor during pumping of the well fluids, the pump motor diagnostic information comprising: (a) characteristic frequencies and amplitude peaks as a function of frequency in the frequency spectrum of the pump motor electrical current measures provided by the frequency spectrum analyzer; (b) variations of signal time shift and frequency characteristics of the pump motor electrical current identifying variations of the pump motor dynamic behavior from the measures provided by the wavelet analyzer; and (c) phase diagrams of dynamic behavior performance changes of the pump motor from the phase diagram reconstruction module; and a diagnostic system configured to: predict, based on the pump motor diagnostic information, a failure of the pump motor; and reduce, in response to predicting the failure of the pump motor, an operating speed of the pump motor. 2. The apparatus of claim 1 , wherein the frequency spectrum analyzer comprises a Fast Fourier Transform analyzer. 3. The apparatus of claim 1 , wherein the dynamic behavior analyzer module further forms an identification of attractors based on the dynamic behavior of the pump motor. 4. The apparatus of claim 3 , wherein the phase diagram reconstruction module forms an indication in a phase space diagram of the identified attractors furnished by the dynamic behavior analyzer module. 5. The apparatus of claim 1 , wherein the wavelet analyzer applies the adjustable wavelet to the pump motor electrical current waveform and performs dilation and translation of the applied wavelet to identify variations in the pump motor electrical current. 6. The apparatus of claim 1 , wherein the additional load on the pump motor comprises scale build-up on a pump. 7. The apparatus of claim 1 , wherein the dynamic performance changes of the pump motor are pump motor electrical current fluctuations at low frequencies representative of gradual scale build-up in a pump.