Analysis of Eccentric Faults of Induction Motor by Using Shannon Entropy

Yıl 2019, Cilt: 24 Sayı: 3, 199 - 210, 31.12.2019

ABDURRAHMAN Ünsal Selahattin Güçlü

https://doi.org/10.17482/uumfd.516620

Cited By: 1

Öz

One of the common faults of induction motors which are extensively used in industry and
commercial applications is the axial misalignment faults in the motor. In this study, axial misalignment
faults of a three-phase squirrel-cage induction motor was analyzed by Shannon entropy. The axial
misalignment fault was created by the enlarging of the bearing shell inside the two end-bells of the
induction motor. A special designed material manufactured by a 3D printer was placed inside the
enlarged bearing shell. In this way, a 0.20 mm offset was created. Induction motor was tested both
healthy and with axial misalignment fault under 25%, 50%, 75% and 100% loading conditions. The stator
current and vibration signals were recorded for each test case. The validity of the stator current and
vibration signals was checked by Fourier analysis. The axial offset effect was evaluated by calculating the
entropy values of the stator current and vibration signals of the motor. Then entropy values were
calculated for both the healthy and faulty motor. The results show that the axial misalignment faults cause
an increase in the entropy value of the vibration signal significantly. The change in the entropy value of
the stator current due to axial misalignment faults is not significant. Therefore it is shown that the entropy
analysis of vibration signals can be used in the analysis eccentric fault of induction motors. 

Anahtar Kelimeler

Induction Motor, Axial Misalignment Faults, Entropy Analysis, Shannon Entropy

ASENKRON MOTOR EKSENEL KAÇIKLIK ARIZALARININ SHANNON ENTROPİSİ İLE ANALİZİ

Öz

Sanayide ve işletmelerde yoğun bir şekilde kullanılan asenkron motorların yaygın arızalarından bir
tanesi de motorlarda meydana gelen eksenel kaçıklık arızalarıdır. Bu çalışmada üç fazlı sincap kafesli bir
asenkron motorun eksenel kaçıklık arızaları Shannon entropisi ile incelendi. Eksenel kaçıklık arızaları
asenkron motorun her iki kapağının iç kısmındaki rulman yatakları genişletilerek oluşturuldu.
Genişletilen rulman yataklarına üç boyutlu yazıcıdan elde edilen bir burç yerleştirilerek rotorun eksenden
0,20 mm kaçık olarak çalışması sağlandı. Asenkron motor hem sağlam olarak hem de eksenel kaçıklık
arızalı olarak %25, %50, %75 ve %100 yük altında çalıştırıldı. Her test durumu için stator akımı ve
titreşim sinyalleri kaydedildi. Stator akımı ve titreşim sinyallerinin doğruluğu Fourier analizi ile kontrol
edildi. Eksenel kaçıklık arızasının etkisi, motorun stator akımı ve titreşim sinyallerinin entropi değerleri
hesaplanarak incelendi. Sağlam ve eksenel kaçıklık arızalı motorun akım ve titreşim sinyallerinin entropi
değerleri karşılaştırıldı. Elde edilen sonuçlar; eksenel kaçıklık arızalarının titreşim sinyali entropi
değerinde ciddi bir artışa sebep olduğu ancak stator akımı entropi değerinde anlamlı bir değişim
göstermediğini göstermektedir. Elde edilen sonuçlardan titreşim sinyalleri entropi analizinin eksenel
kaçıklık arızalarının tespitinde kullanılabileceği görülmektedir.

Anahtar Kelimeler

Asenkron Motor, Eksenel Kaçıklık Arızaları, Entropi Analizi, Shannon Entropisi

Kaynakça

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