Estimated Life Loss of a 3-Phase Induction Motor Based on Insulation Resistance Test at PT. Delta Jaya Mas
DOI:
https://doi.org/10.22441/jte.2024.v15i3.001Kata Kunci:
3-Phase Induction Motor, Insulation Resistance, Life LossAbstrak
At the company PT. Delta Jaya Mas induction motors are very necessary to run machines in the production process. An induction motor consists of a rotor and stator with insulation resistance. Insulation Resistance (IR) is a measure of the ability of the insulation in the winding to withstand current. Insulation resistance testing is needed to determine the condition of the insulation which is influenced by humidity, environmental temperature and operating time. This test procedure is regulated in the IEEE Std 43-2000 standard. The use of an appropriate insulation tester and routine testing is important to maintain the insulation resistance value and prevent accidents and damage to 3-phase induction motors. Testing is carried out when the motor is turned off to avoid component damage. Polarization index data is taken by testing the insulation resistance for 1 to 10 minutes. The test was carried out on the insulation resistance of a three-phase induction motor with a power of 75 kW which showed a value of 515 MΩ to 602 MΩ when it was in a damaged condition with one phase having a value of 0 MΩ indicating a short or short circuit condition. After repair the motor has an insulation resistance of 2000 MΩ. After operating for 3 months the decrease in resistance that occurred per month was 11.6 MΩ and the polarization index test was 3.5 MΩ. An insulation resistance of 2000 MΩ can be expected to last for 14 years if degradation occurs consistently.Unduhan
Referensi
Widagdo, R. S., Hartayu, R., & Hariadi, B. (2023). Discrete Wavelet Transform Applied to 3-Phase Induction Motor for Air Gap Eccentricity Fault Diagnosis. JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science), 6(2), 111-121.
Widagdo, R. S., Asfani, D. A., & Negara, I. M. Y. (2021, October). Detection of Air Gap Eccentricity on Three-Phase Induction Motor Using 3-Axis Digital ELF Gaussmeter. In 2021 3rd International Conference on High Voltage Engineering and Power Systems (ICHVEPS) (pp. 1-6). IEEE.
Shaikh, S., Kumar, D., Hakeem, A., & Soomar, A. M. (2022). Protection system design of induction motor for industries. Modelling and Simulation in Engineering, 2022.
Syafruddin, H. S., Sinulingga, E. P., Nugroho, H. P., & Nasution, A. (2021, September). Diagnosis of Transformer Isolation Using Dielectric Dissipation Factor (Tan Delta) and Insulation Resistance: A Review Study. In 2021 5th International Conference on Electrical, Telecommunication and Computer Engineering (ELTICOM) (Vol. 5, pp. 1-4). IEEE.
Shaikh, M. F., Lee, H., Battulga, B., Lee, S. B., & Stone, G. C. (2022, September). Offline common-mode voltage based inverter-embedded groundwall insulation testing for motors. In 2022 International Conference on Electrical Machines (ICEM) (pp. 1823-1829). IEEE.
Hassan, W., Hussain, G. A., Mahmood, F., Amin, S., & Lehtonen, M. (2020). Effects of environmental factors on partial discharge activity and estimation of insulation lifetime in electrical machines. IEEE Access, 8, 108491-108502.
Szamel, L., & Oloo, J. (2024). Monitoring of Stator Winding Insulation Degradation through Estimation of Stator Winding Temperature and Leakage Current. Machines, 12(4), 220.
Driendl, N., Pauli, F., & Hameyer, K. (2021). Influence of ambient conditions on the qualification tests of the interturn insulation in low-voltage electrical machines. IEEE Transactions on Industrial Electronics, 69(8), 7807-7816.
Sheikh, M. A., Bakhsh, S. T., Irfan, M., Nor, N. B. M., & Nowakowski, G. (2022). A review to diagnose faults related to three-phase industrial induction motors. Journal of Failure Analysis and Prevention, 22(4), 1546-1557.
Yang, F., Habibullah, M. S., & Shen, Y. (2021). Remaining useful life prediction of induction motors using nonlinear degradation of health index. Mechanical Systems and Signal Processing, 148, 107183.
Gundewar, S. K., & Kane, P. V. (2021). Condition monitoring and fault diagnosis of induction motor. Journal of Vibration Engineering & Technologies, 9, 643-674.
Höpner, V. N., & Wilhelm, V. E. (2021). Insulation life span of low-voltage electric motors—A survey. Energies, 14(6), 1738.
Widagdo, R. S., Hermawati, F. A., & Hariadi, B. (2024). Unbalanced Voltage Detection with Measurement Current Signature Analysis (MCSA) in 3-Phase Induction Motor Using Fast Fourier Transform (FFT). Jurnal Teknologi Elektro, 15(02).
Husach, S., Yatsiuk, R., & Mamchur, D. (2020, September). Induction motors operation condition evaluation and damage degree estimation methods. In 2020 IEEE Problems of Automated Electrodrive. Theory and Practice (PAEP) (pp. 1-4). IEEE.
Madonna, V., Giangrande, P., & Galea, M. (2020). Influence of insulation thermal aging on the temperature assessment in electrical machines. IEEE Transactions on Energy Conversion, 36(1), 456-467.
Unduhan
File Tambahan
Diterbitkan
Cara Mengutip
Terbitan
Bagian
Lisensi
The copyright to this article is transferred to Universitas Mercu Buana (UMB) if and when the article is accepted for publication. The undersigned hereby transfers any and all rights in and to the paper including without limitation all copyrights to UMB. The undersigned hereby represents and warrants that the paper is original and that he/she is the author of the paper, except for material that is clearly identified as to its original source, with permission notices from the copyright owners where required. The undersigned represents that he/she has the power and authority to make and execute this assignment.
We declare that:
1. This paper has not been published in the same form elsewhere.
2. It will not be submitted anywhere else for publication prior to acceptance/rejection by this Journal.
3. A copyright permission is obtained for materials published elsewhere and which require this permission for reproduction.
Furthermore, I/We hereby transfer the unlimited rights of publication of the above mentioned paper in whole to UMB. The copyright transfer covers the exclusive right to reproduce and distribute the article, including reprints, translations, photographic reproductions, microform, electronic form (offline, online) or any other reproductions of similar nature.
The corresponding author signs for and accepts responsibility for releasing this material on behalf of any and all co-authors. This agreement is to be signed by at least one of the authors who have obtained the assent of the co-author(s) where applicable. After submission of this agreement signed by the corresponding author, changes of authorship or in the order of the authors listed will not be accepted.
Retained Rights/Terms and Conditions
1. Authors retain all proprietary rights in any process, procedure, or article of manufacture described in the Work.
2. Authors may reproduce or authorize others to reproduce the Work or derivative works for the authors personal use or for company use, provided that the source and the UMB copyright notice are indicated, the copies are not used in any way that implies UMB endorsement of a product or service of any employer, and the copies themselves are not offered for sale.
3. Although authors are permitted to re-use all or portions of the Work in other works, this does not include granting third-party requests for reprinting, republishing, or other types of re-use.
