Impact of Maintenance     13

            On systems that use computer-based or processor logic control (PLC), the parameters
            or variables that define their operating envelopes are automatically acquired and then
            used by the control logic to operate the system. The type and number of variables vary
            from system to system but are based on the actual design and mode of operation for
            that specific type of production system. It is a relatively simple matter to acquire these
            data from the Level I control system and use it as part of the predictive diagnostic
            logic. In most cases, these data combined with traditional predictive technologies
            provide all of the data an analyst needs to fully understand the system’s performance.

            Manually operated systems should not be ignored. Although the process data is more
            difficult to obtain, the reliability or predictive analyst can usually acquire enough data
            to permit full diagnostics of the system’s performance or operating condition. Analog
            gauges, thermocouples, strip chart recorders, and other traditional plant instrumenta-
            tion can be used. If plant instrumentation includes an analog or digital output, most
            microprocessor-based vibration meters can be used for direct data acquisition. These
            instruments can directly acquire most proportional signal outputs and automate the
            data acquisition and management that is required for this expanded scope of predic-
            tive technology.

            Because most equipment used in domestic manufacturing, production, and process
            plants consists of electromechanical systems, our discussion begins with the best
            methods for this classification of equipment. Depending on the plant, these systems
            may range from simple machine-trains, such as drive couple pumps and electric
            motors, to complex continuous process lines. Regardless of the complexity, the
            methods that should be used are similar.

            In all programs, the primary focus of the predictive maintenance program must be on
            the critical process systems or machine-trains that constitute the primary production
            activities of the plant. Although auxiliary equipment is important, the program must
            first address those systems on which the plant relies to produce revenue. In many
            cases, this approach is a radical departure from the currently used methods in tradi-
            tional applications of predictive maintenance. In these programs, the focus is on simple
            rotating machinery and excludes the primary production processes.


            Electromechanical Systems
            Predictive maintenance for all electromechanical systems, regardless of their com-
            plexity, should use a combination of vibration monitoring, operating dynamics analy-
            sis, and infrared technologies. This combination is needed to ensure the ability to
            accurately determine the operating condition, to identify any deviation from accept-
            able operations, and to isolate the root-cause of these deviations.

            Vibration Analysis. Single-channel vibration analysis, using microprocessor-based,
            portable instruments, is acceptable for routine monitoring of these critical production
            systems; however, the methods used must provide an accurate representation of the
            operating condition of the machine or system. The biggest change that must be made
            is in the parameters that are used to acquire vibration data.