Apparatus and methods for identifying defective pumps

What is claimed is: 1. A method, comprising: detecting pump defects in a pumping system comprising a plurality of pumps, wherein each of the plurality of pumps comprises a pump fluid outlet, wherein each of the pump fluid outlets is fluidly connected to a common manifold, and wherein detecting pump defects comprises: generating information related to fluid pressure fluctuations at each of the pump fluid outlets; and determining harmonic frequencies from the information related to fluid pressure fluctuations for each of the plurality of pumps, wherein the amplitude of the harmonic frequencies is indicative of a defective one of the plurality of pumps. 2. The method of claim 1 wherein relative amplitude of the harmonic frequencies of the plurality of pumps is indicative of the defective one of the plurality of pumps. 3. The method of claim 1 wherein greatest amplitude of the harmonic frequencies of the plurality of pumps is indicative of the defective one of the plurality of pumps. 4. The method of claim 1 wherein the amplitude of the harmonic frequencies associated with the defective one of the plurality of pumps is greater than the amplitude of the harmonic frequencies associated with another of the plurality of pumps. 5. The method of claim 1 wherein detecting pump defects further comprises: determining amplitude of harmonic frequencies for each of the plurality of pumps; and comparing the amplitudes of the harmonic frequencies for each of the plurality of pumps to determine the defective one of the plurality of pumps. 6. The method of claim 5 wherein determining the amplitude of the harmonic frequencies comprises determining the amplitude of first order harmonic frequency from the information related to fluid pressure fluctuations for each of the plurality of pumps, and wherein the amplitude of the first order harmonic frequency is indicative of the defective one of the plurality of pumps. 7. The method of claim 5 wherein at least one of the plurality of pumps comprises N fluid displacing members, wherein N is an integer equal to at least 2, wherein determining the amplitude of the harmonic frequencies comprises determining the amplitude of N−1 order harmonic frequency from the information related to fluid pressure fluctuations for each of the plurality of pumps, and wherein the amplitude of the N−1 order harmonic frequency is indicative of the defective one of the plurality of pumps. 8. The method of claim 1 wherein detecting pump defects further comprises: generating information related to phase of each of the plurality of pumps; and determining a relationship between phase of the harmonic frequency and the information related to phase for each of the plurality of pumps, wherein the relationship is indicative of the defective one of the plurality of pumps. 9. The method of claim 8 wherein a substantially close and/or continuous relationship between phase of the harmonic frequency and the information related to phase is indicative of the defective one of the plurality of pumps. 10. The method of claim 8 wherein the relationship comprises phase difference, phase relationship, and/or phase tracking. 11. The method of claim 8 wherein a substantially changing, fluctuating, and/or random nature of the relationship is indicative of a healthy one of the plurality of pumps. 12. The method of claim 1 wherein determining harmonic frequencies from the information related to fluid pressure fluctuations comprises converting the information related to fluid pressure fluctuations from time domain to frequency domain. 13. An apparatus, comprising: a monitoring system operable for detecting pump defects in a pumping system comprising a plurality of pumps, wherein each of the plurality of pumps comprises a pump fluid outlet, wherein each of the pump fluid outlets is fluidly connected to a common manifold, and wherein the monitoring system comprises: a plurality of pressure sensors each associated with a corresponding one of the plurality of pumps, wherein each of the plurality of pressure sensors is operable to generate information related to fluid pressure at each of the corresponding pump fluid outlets; and a monitoring device in communication with each of the plurality of pressure sensors, wherein the monitoring device is operable to determine harmonic frequencies from the information related to fluid pressure for each of the plurality of pumps, and wherein amplitude of the harmonic frequencies is indicative of a defective one of the plurality of pumps. 14. The apparatus of claim 13 wherein at least one of the plurality of pumps comprises N fluid displacing members, wherein N is an integer equal to at least 2, wherein the monitoring device is operable to determine the amplitude of N−1 order harmonic frequency from the information related to fluid pressure for each of the plurality of pumps, and wherein the amplitude of the N−1 order harmonic frequency is indicative of the defective one of the plurality of pumps. 15. The apparatus of claim 13 wherein: the monitoring system further comprises a plurality of position sensors each associated with a corresponding one of the plurality of pumps; each of the plurality of position sensors is operable to generate information related to phase of the corresponding one of the plurality of pumps; the monitoring device is further operable to determine a relationship between phase of the harmonic frequency and the information related to phase for each of the plurality of pumps; and the relationship is indicative of the defective one of the plurality of pumps. 16. A method, comprising: detecting pump defects in a pumping system comprising at least one two multiplex positive displacement pumps, wherein each of the pumps comprises a pump fluid outlet, and wherein detecting pump defects comprises: monitoring fluid pressure fluctuations at each of the pump fluid outlets; determining harmonics for at least one of the pumps based on fluid pressure fluctuations; and monitoring amplitude of the harmonics for at least one of the pumps to determine if at least one of the pumps is defective. 17. The method of claim 16 wherein at least one of the pumps comprises N fluid displacing members, wherein N is an integer equal to at least 2, and wherein monitoring the amplitude of the harmonics for at least one of the pumps comprises monitoring the amplitude of first order harmonics and/or N−1 order harmonics for at least one of the pumps. 18. The method of claim 16 wherein detecting pump defects further comprises: determining if the amplitude of the harmonics for at least one of the pumps is greater than a threshold value; if the amplitude of the harmonics is greater than the threshold value, identifying at least one of the pumps as defective; and if the amplitude of the harmonics is not greater than the threshold value, identifying at least one of the pumps as healthy. 19. The method of claim 18 wherein detecting pump defects further comprises: determining if the pumping system comprises a plurality of pumps operating at same or similar frequency; and if the pumping system comprises a plurality of pumps operating at the same or similar frequency: monitoring phase of the harmonics for each of the plurality of pumps; monitoring pump phase of each of the plurality of pumps; and comparing phase of the harmonics with respect to pump phase for each of the plurality of pumps to determine a defective one of the plurality of pumps. 20. The method of claim 19 wherein