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HYBRID FFT-MCSA APPROACH FOR EARLY FAULT DETECTION IN PUMP ELECTRIC DRIVE SYSTEMS: A CASE STUDY FROM UZBEKISTAN IRRIGATION NETWORKS

Yuldasheva Odina Saydullo qiziDepartment of Electrical Engineering, Andijon State Technical Institute, 170100 Andijon, UzbekistanXaydarov Xumoyun Muxtor ugliDepartment of Electrical Engineering, Andijon State Technical Institute, 170100 Andijon, Uzbekistan
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Abstract

ABSTRACT. Uzbekistan operates 1,698 pumping stations that deliver 32.5 billion m³ of water yearly. These stations consume 7.2 billion kWh, representing 16-21% of the country’s total electricity. The problem? Most pumps are 50+ years old. Their efficiency dropped from 85-92% down to 50-70%. Water losses reach 30-40% in some systems. We looked at whether combining two diagnostic methods - Fast Fourier Transform for vibration and Motor Current Signature Analysis for electrical signals - could catch faults earlier than traditional methods. Using data from the Amu-Bukhara cascade where pumps handle sandy water (1.25 mg/m³) and extreme heat (+60°C), we built simulations that mirror real conditions. Our hybrid method detected bearing problems with 94.7% accuracy, rotor bar breaks at 91.2%, and eccentricity issues at 89.5%. That’s much better than using FFT alone (78.3%) or MCSA alone (72.6%). False alarms dropped 63% compared to standard threshold monitoring. If adopted across Uzbekistan’s network, this approach could cut energy use by 30-40% and reduce unexpected shutdowns by 70-80%. The system works without constant internet - important for remote pump stations. These factors matter because Presidential Decree PQ-265 mandates modernizing 518 aggregates by 2028, and 200 stations are transitioning to public-private partnerships requiring reliable monitoring. KEYWORDS: Condition monitoring, Electric drive, FFT analysis, MCSA, Pump diagnostics, Spectral methods.

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