INFORMATION CHANGE THE WORLD

International Journal of Information Engineering and Electronic Business(IJIEEB)

ISSN: 2074-9023 (Print), ISSN: 2074-9031 (Online)

Published By: MECS Press

IJIEEB Vol.14, No.5, Oct. 2022

Modeling and Analysis of Disturbance on Three Phase Induction Motor at CFPP Tanjung Enim 3x10 MW Using Matlab/Simulink

Full Text (PDF, 559KB), PP.24-31


Views:0   Downloads:0

Author(s)

Destra Andika Pratama, Masayu Anisah, Andi Setiyadi

Index Terms

Matlab/Simulink, 3-phase Induction motor, Modeling, Analysis, short circuit

Abstract

Three phase induction motor are very used widely, especially in industries because they bring advantages, namely simple and sturdy motor construction, relatively cheap prices, easier maintenance compared to other types of motors. At CFPP Tanjung Enim 3x10 MW, for example, a three phase induction motor used to support operational activities of the generator is a coal feeder with a motor power of 7.5 kW and a volt of 380 V. Damage to the induction motor at CFPP Tanjung Enim 3x10 MW has an impact on the a decrease in the performance of the Power Plant and can cause a loss of electricity production. Induction motor damage simulation is carried out by providing temporary disturbances, namely inter-phase disturbances and phase-to-ground faults which assume a sudden disturbance when the motor is operating normally. The parameters observed in this simulation are voltage (V), current (A) and motor rotation (Rpm). simulation results that have been carried out, it is found that disturbances in a three phase induction motor greatly affect the performance of the motor, such as when getting a phase to phase and phase to ground short circuits, the voltage will drop, the current will rise rapidly and rotation the motor will stop. By using Matlab software the author hopes to provide the right modeling to analyze the damage to the induction motor. 

Cite This Paper

Destra Andika Pratama, Masayu Anisah, Andi Setiyadi, " Modeling and Analysis of Disturbance on Three Phase Induction Motor at CFPP Tanjung Enim 3x10 MW Using Matlab/Simulink", International Journal of Information Engineering and Electronic Business(IJIEEB), Vol.14, No.5, pp. 24-31, 2022. DOI:10.5815/ijieeb.2022.05.03

Reference

[1]E. Anbarasu and M. Karthikeyan, “Modeling Of Induction Motor and Fault Analysis,” Certif. Int. J. Eng. Sci. Innov. Technol., vol. 9001, no. 4, pp. 2319–5967, 2008.

[2]K. P. Diwatelwar and S. K. Malode, “Fault Detection and Analysis of three-phase induction motors using MATLAB Simulink model,” Int. Res. J. Eng. Technol., vol. 9001, p. 1643, 2008, [Online]. Available: www.irjet.net

[3]D. L. Kurniawan, I. Diah PK, and B. Yan Dewantara, “Analisa Gangguan Belitan Stator Pada Motor Brushless DC Menggunakan Matlab Simulink,” CIRCUIT J. Ilm. Pendidik. Tek. Elektro, vol. 5, no. 1, 2021, doi: 10.22373/crc.v5i1.7692.

[4]D. Zaenal, “Analisa Gangguan Stator Motor Induksi Fasa 3 Dengan Metode Current Signature Analisis Dan Monitoring Temperatur,” Epic  J. Electr. Power, Instrum. Control, vol. 2, no. 2, 2019, doi: 10.32493/epic.v2i2.2897.

[5]U. Khasanah, S. Supari, and S. Heranurweni, “Simulasi Pengaturan Kecepatan Motor Induksi 3 Phasa Dengan Direct Torque Control Menggunakan Matlab,” eLEKTRIKA, vol. 9, no. 1, p. 13, 2018, doi: 10.26623/elektrika.v9i1.1109.

[6]P. Magister, B. Keahlian, T. Sistem, J. T. Elektro, and F. T. Industri, “Identifikasi Kerusakan Bearing Motor Induksi Berdasarkan Karakteristik Arus Stator Dengan Metode Artificial Neural Network Bearing Fault Identification of Induction Motor Based on Stator Current Characteristics Using Artificial Neural,” 2016.

[7]L. J. Sinaga, “Analisis Arus Asut Pada Motor Induksi Tiga Fasa Dengan Menggunakan Pengasutan Langsung (Dol) Dan Pengasutan Autotrafo,” Anal. Kesadahan Total dan Alkalinitas pada Air Bersih Sumur Bor dengan Metod. Titrim. di PT Sucofindo Drh. Provinsi Sumatera Utara, pp. 44–48, 2018.

[8]L. Hakim, “Analisa Kerusakan Motor Induksi 3 Fasa 75 Kw Pada Water Cooling Pump Dengan Metode Mcsa (Motor Currentsignature Analysis) Unit Blok 2 Pt Indonesia Power Pgu Semarang,” Univ. Semarang, pp. 0–106, 2021.

[9]Q. Han, T. Wang, Z. Ding, X. Xu, and F. Chu, “Magnetic Equivalent Modeling of Stator Currents for Localized Fault Detection of Planetary Gearboxes Coupled to Electric Motors,” IEEE Trans. Ind. Electron., vol. 68, no. 3, 2021, doi: 10.1109/TIE.2020.2973894.

[10]M. Hussain et al., “Stator winding fault detection and classification in three-phase induction motor,” Intell. Autom. Soft Comput., vol. 29, no. 3, 2021, doi: 10.32604/iasc.2021.017790.

[11]Bonnett Austin H, Soukup GC (1992) Cause and analysis of stator and rotor failures in three phase squirrel-cage induction motors. IEEE Trans IndAppl 28(4):921–937

[12]Bradford M (1968) Unbalanced magnetic pull in a 6-pole induction motor. IEEE ProcElectrEng 115(11):1619–1627 

[13]M’hamed D, Cardoso AJM (2008) Air gap eccentricity fault diagnosis in three phase induction motor by the complex apparent power signature analysis. IEEE Trans IndElectr 55(3):1404

[14]Eschmann P, Hasbargen L, Weigand K (1958) Ball and roller bearings: their theory, design and application. K. G. Heyden, London 

[15]Siddique A, Yadava GS, Singh B (2005) A review of stator fault monitoring techniques of induction motors. IEEE Trans Energy Convers 20(1):106–114 

[16]Liang, B., Payne, B. S., Ball, A. D., &Iwnicki, S. D. (2002). Simulation and fault detection of three-phase induction motors. Mathematics and computers in simulation, 61(1), 1-15.

[17]Ye, Z., Wu, B., &Sadeghian, A. (2003). Current signature analysis of induction motor mechanical faults by wavelet packet decomposition. IEEE transactions on industrial electronics, 50(6), 1217-122 

[18]K. . K. Pandey, P. H. Zope, and S. R. Suralkar, “Article: Review on fault diagnosis in three-phase induction motor,” IJCA Proceedings on National Conference ”MEDHA 2012”, vol. MEDHA, no. 1, pp. 53–58, September 2012, full text available.

[19]Dorrell DG, Thomson WT, Roach S (1997) Analysis of air-gap flux, current and vibration signals as function of a combination of static and dynamic eccentricity in 3-phase induction motors. IEEE Trans IndAppl 33:24–34.

[20]Bradford M (1968) Unbalanced magnetic pull in a 6-pole induction motor. IEEE ProcElectrEng 115(11):1619– 1627

[21]Hwang  DH,  Lee  KC,  Lee  JH,  Kang  DS,  Lee  JH,  Choi  KH,  Kang  S  et  al  (2005)  Analysis  of  a  three  phase induction  motor  under  eccentricity  condition.  In:  31st  annual  conference  of  IEEE  industrial  electronics  society, IECON2005, pp 6–10

[22]Lee SB, Tallam RM, Habetler TG (2003) A robust on-line turn-fault detection technique for induction machines based on monitoring the sequence component impedance matrix. IEEE Trans Power Electr 18(3):865–872 

[23]Vatsa,  A.  (2017).  Fault  diagnosis  of  induction  motor  using  wavelets. International  Journal  of  Research  and Engineering, 4(4), 125-129.  

[24]Altaf,  S.,  Soomro,  M.  W.,  &Mehmood,  M.  S.  (2017).  Fault  Diagnosis  and  Detection  in  Industrial  Motor Network  Environment  Using  Knowledge-Level  Modelling  Technique. Modelling  and  Simulation  in Engineering, 2017.  

[25]Benbouzid, M. E. H., Vieira, M., &Theys, C. (1999). Induction motors' faults detection and localization using stator current advanced signal processing techniques. IEEE Transactions on power electronics, 14(1), 14-22.