Abstract
The rotating machinery requires condition monitoring which its measurement without being intrusive operation, especially on the equipment needed to continue running. One such machinery is a centrifugal blower induction motor. Infrared thermography and vibration are important and effective technologies to diagnose of health condition it without destructive or disturb of operations. The diagnostics of induction motor are based on the analysis results data onto vibration and processing thermal image. This paper focused on thermography image processing based on color segmentation which it will produce ROI (region of interest) images. The ROI image is extracted based on HSV color and shape feature. Feature extraction is intended to determine value of mean, standard deviation, kurtosis, skewness and entropy HSV and shape features (area, perimeter, metric, and eccentricity). The highest RMS (root mean square) vibration data is used as reference to classify data into normal and abnormal. Parameters that can be used to classify normal and abnormal conditions based on data analysis are standard deviation Hue, kurtosis HS, skewness HSV, entropy HSV and metric.
Highlights
Centrifugal blower is one of the rotating machines used in power plant system
In this paper proposed condition monitoring and health diagnostics of induction motor of the centrifugal blower based on data analysis of thermal images and vibration
Collecting data in this study is conducted by measuring the induction motor centrifugal blower contained in the power generation unit
Summary
Centrifugal blower is one of the rotating machines used in power plant system It serves to blow air from outside which is used as cooling for exhaust frame and Gas Turbine shell. This centrifugal blower is driven an induction motor. These parts can cause a vibration and abnormal temperature in the system, and it can make the machine failure. To prevent such condition, it needs to have a condition based monitoring (CBM). Invasive and non-invasive methods of CBM are used to measure motor vibration, temperature, speed, torque variations and Motor current stator analysis (MCSA) for detection of motor abnormalities [1]
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