The Machine Vibration Measurement Handbook is a comprehensive guide that explains the principles and techniques used to assess and analyze vibrations in industrial machinery. It covers sensor selection, data acquisition, signal analysis, and maintenance strategies, enabling professionals to diagnose and prevent equipment failures, ensuring operational efficiency.
Unlike most process measurements, the measurement of a rotating machine’s vibration is primarily for the benefit of the process equipment rather than the process itself. Vibration monitoring on an ammonia vapor compressor, for instance, may very well be useful in extending the operating life of the compressor, but it offers little benefit to the control of the ammonia vapor.
Nevertheless, the prevalence of machine vibration measurement technology is so widespread in the process industries that it cannot be overlooked by the instrument technician. Rotating machinery equipped with vibration sensors are often controlled by protection equipment designed to automatically shut down the machine in the event of excessive vibration. Th e configuration and maintenance of this protection equipment, and the sensors feeding vibration data to it, is often the domain of instrument technicians.