COMPARISON OF MILL PULVERIZER GEARBOX VIBRATION EVALUATION USING ISO 10816-3:2009 AND ISO 20816-9:2020

Andi Kurniawan(1*), Rivi Vedianto(2)


(1) PT PLN
(2) PT Indonesia Power
(*) Corresponding Author

Abstract


Mill pulverizer is an important equipment in coal power plant that must be maintained for its reliability. Sudden damage of mill pulverizer can cause economic losses for power plant. Therefore, vibration assessment is carried out routinely to determine its condition status. Previously, ISO 10816-3:2009 was used as reference in vibration assessment of Mill Pulverizer gearbox. However, recently there is ISO 20816-9:2020 which is intended for the evaluation of gear vibration. This study experiment assessed the vibration of mill pulverizer based on ISO 10816-3:2009 and ISO 20816-9:2020. The results indicate that these two standards produces different vibration severity statuses. Verification of the machine's vibration severity status is carried out by analyzing the vibration spectrum data.


Keywords


Vibration assessment, ISO 10816-3:2009, ISO 20816-9:2020, vibration severity, spectrum

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References


Basic Vibration Analysis. (2006). Computational Systems Incorporated.

Berry, J. E. (1997). Concentrated Vibration Signature Analysis and Related Condition Monitoring Techniques. Technical Associates of Charlotte, P.C.

Berry, J. E. (2002). How To Implement An Effective Condition Monitoring Program Using Vibration Analysis. Technical Associates of Charlotte, P.C.

ISO. (2009). ISO 10816-3:2009 - Mechanical vibration —Evaluation of machine vibration by measurements on non-rotating parts - Industrial machines with nominal power above 15 kW and nominal speeds between 120 r/min and 15 000 r/min when measured in situ. 2, 12.

Kurniawan, A. (2022). Penentuan Jumlah Minimal Line Of Resolution Dalam Spektrum Vibrasi Untuk Pengukuran Rutin Vibrasi. KILAT, 11(1), 32–39. https://doi.org/https://doi.org/10.33322/kilat.v11i1.1526

Mais, J., & Brady, S. (2002). Introduction Guide to Vibration Monitoring. SKF Reliability Systems.

Mobley, R. K. (2002). An Introduction To Predictive Maintenance. In Journal of the Food Hygienic Society of Japan (2nd ed., Vol. 42, Issue 6). Butterworth-Heinemann.

Pruftechnick. (n.d.). Accelerometer (Industrial) VIB 6.12x, VIB 6.14x Installation and Operation. Retrieved July 7, 2022, from https://www.pruftechnik.com/fileadmin/Products-Services/Products/Condition-Monitoring-Systems/Condition-Monitoring-Sensors-and-Accessories/PRUFTECHNIK-Sensors-and-accessories/Downloads/VIBCODE/

Pruftechnick. (2019). VIBXPERT II Operating Instruction.

Randall, R. B. (2011). Vibration-Based Condition Monitoring. In John Wiley and Sons, Ltd. https://doi.org/10.1007/978-94-007-6422-4_11

TIMKEN Bearing Frequency. (2022, October 21). Https://Www.Timken.Com/Engineering-Tools/Bearing-Frequencies/.

Vibration Diagnostic Guide. (n.d.). Retrieved June 9, 2022, from http://edge.rit.edu/edge/P14453/public/Research/SKF VibrationGuide.pdf

Vibration measurement and analysis. (n.d.). Retrieved June 10, 2022, from https://www.spminstrument.nl/measuring-techniques/vibration-monitoring/vibration-measurement-and-analysis/

West, A. (Ed.). (1999). Intermediate Vibration Analysis. Computational Systems Incorporated.


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DOI: https://doi.org/10.26714/traksi.23.1.2023.%25p

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