Determination of RPM based on vibration spectral plots and speed range

What is claimed is: 1. An apparatus for determining an estimated rotational speed of a rotating component of a machine in the absence of a reliable tachometer signal to indicate an actual rotational speed, the apparatus comprising: a vibration sensor attached to the machine that generates an analog vibration signal indicative of vibration of the machine; an analog-to-digital converter in electrical communication with the vibration sensor that converts the analog vibration signal to digital vibration data; a processor in electrical communication with the analog-to-digital converter that executes instructions to process the digital vibration data, including instructions to: determine a range of rotational speed for the machine based on historical data recorded for the machine; generate a vibration spectrum based on the digital vibration data, the vibration spectrum comprising vibration amplitude values associated with frequency values; identify a plurality of vibration peaks in the vibration spectrum, each having a peak amplitude value and a peak frequency value; determine a maximum peak amplitude of the peak amplitude values of the plurality of vibration peaks; determine a plurality of candidate frequency values in the vibration spectrum, wherein each candidate frequency value is within the range of rotational speed and is associated with a corresponding family of harmonics; for each harmonic of the corresponding family of harmonics of each candidate frequency value, identify a nearest peak that is within a spectral peak frequency tolerance of the harmonic, the nearest peak having a nearest peak frequency value and a nearest peak amplitude value; for each harmonic of the corresponding family of harmonics of each candidate frequency value, determine an error value based at least in part on a difference between the candidate frequency value and the nearest peak frequency value; for each candidate frequency value, determining an error sum value, which is an iterative sum of the error values determined for the harmonics of the corresponding family of harmonics; determine the estimated rotational speed of the machine based on the candidate frequency value having a largest error sum value; and analyze the digital vibration data using the estimated rotational speed of the machine to determine an operational characteristic of the machine. 2. The apparatus of claim 1 , wherein the spectral peak frequency tolerance is three times a bin width of the vibration spectrum. 3. The apparatus of claim 1 , wherein the error value is determined based at least in part on a ratio of A max /A p , where A max is the maximum peak amplitude of the peak amplitude values of the plurality of vibration peaks, and A p is the nearest peak amplitude value. 4. The apparatus of claim 1 , wherein contributions of higher-order harmonic peaks in the iterative sum of error values are successively reduced by a chosen reduction factor. 5. The apparatus of claim 4 , wherein the chosen reduction factor is 10 percent. 6. The apparatus of claim 1 , wherein the range of rotational speed is bounded by a lower limit and an upper limit that are based on a median speed of the machine over a period of operation, wherein the lower and upper limits are determined according to: lower limit=(median speed)/2 and upper limit=(median speed)×2.