The cost of breakdown of rotating machines such as centrifugal pumps encouraged
the industrial sector to develop technics for early fault detection. Vibration analysis
is a powerful tool to diagnose the problem. It's used for fault diagnosis and
distinguishing the fault types at an early stage, where each faulty element has its
exciting frequencies. This paper focus on the shafts' misalignment. This fault is one
of the most common problems that can be found in pumping stations. Misalignment
is the condition where the two shafts of the drive and driven machine are not on the
same centerline. More vibration and excessive forces in the bearing area are
generated due to the misaligned rotors. Two cases were measured on a centrifugal
pump to predict the vibration signature due to shaft's misalignment. The studied
system consists of one stage centrifugal pump driven by a motor with rated power
55 kW @ 2980 rpm and flexible type coupling. FFT analyzer is used to analyze the
frequency spectrum of the vibration. Vibration data of the inspected pump is
collected in the normal and abnormal conditions. The vibration signature of both
cases is compared with ISO10816.It has been found that the shaft misalignment
causes high peaks at 1X, 2X, and 3X. The amplitude of the 2X vibration is higher
than that of the 1X, when misalignment is parallel and lower than 1X, when
misalignment is angular. The experimental results obtained from this study gave
more understanding on the effective role of vibration analysis in predicting and
diagnosing machine faults.