INVESTIGATION ON CHARACTERISTICS OF TURBOCHARGER VIBRATION USING DIGITAL SIGNAL PROCESSING TECHNIQUE

Authors

  • Mohamad Hakeem Ahmad Nazri Faculty of Mechanical Engineering Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, MALAYSIA
  • Chiong Meng Soon Faculty of Mechanical Engineering Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, MALAYSIA
  • Muhammad Hanafi Md Sah UTM LoCARtic, IVeSE, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, MALAYSIA
  • Mahadhir Mohammad UTM LoCARtic, IVeSE, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, MALAYSIA
  • Soon Chun Mein UTM LoCARtic, IVeSE, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, MALAYSIA
  • Srithar Rajoo UTM LoCARtic, IVeSE, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, MALAYSIA

DOI:

https://doi.org/10.11113/jtse.v10.161

Keywords:

gear reducer, rapid wheel wear, transmit torque, convert 90° torque

Abstract

High-speed rotating machinery such as a turbocharger is always subject to imperfection that causes strong vibrations. The problem is that there is no way of knowing the root causes of these vibrations by just using our five senses. This problem is significant since unattended heavy vibrations on a turbocharger may lead to permanent damage and a high cost to fix them. The purpose of this study is to investigate the vibration characteristics of a running turbocharger using the Digital Signal Processing (DSP) method, hence identifying the sources of such vibration profiles. In this context, DSP is the process of taking vibration signals that have been digitized and then mathematically manipulating them. Usually, it involves converting time domain data into frequency domain using Fast Fourier Transform (FFT). To identify the causes of turbocharger vibrations, a literature review was done by studying past research of the same methodology. An experiment was conducted by running the machine at different speeds and operating conditions across the choke, regular, and surge conditions. Vibrational data was obtained by mounting a piezoelectric accelerometer onto the compressor housing. The data was then later post-processed using MATLAB to execute FFT. The result shows high energy peaks at various frequencies associated with an unbalanced rotor, oil whirl, looseness, misalignment, and surging noise. On this basis, it is concluded that the vibrational data of a turbocharger can be identified using DSP.

References

Nguyen-Schäfer, H. (2015). “Rotordynamics of automotive turbochargers” (Vol. 17). Switzerland: Springer

Bamberg, S., Schnitzer, J., Weber, M., Rusche, S., & Eißler, W. (2017). “CFD studies on the surge detection of a radial compressor flow by analyzing the unsteady secondary flow field”. PAMM, 17(1), 635-636.

Andrearczyk, A., Baginski, P., & Klonowicz, P. (2020). “Numerical and experimental investigations of a turbocharger with a compressor wheel made of additively manufactured plastic.” International Journal of Mechanical Sciences, 105613.

Alsaeed, A. A. (2005). “Dynamic stability evaluation of an automotive turbocharger rotorbearing system”. (Doctoral dissertation, Virginia Tech).

Proceedings of Conferences/Symposiums:

Cochran, W. T., Cooley, J. W., Favin, D. L., Helms, H. D., Kaenel, R. A., Lang, W. W. & Welch, P. D. (1967). “What is the fast Fourier transform?”. Proceedings of the IEEE, 55(10), 1664-1674.

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Published

2023-10-30

How to Cite

Ahmad Nazri, M. H., Meng Soon, C., Md Sah, M. H., Mohammad, M., Mein, S. C., & Rajoo, S. (2023). INVESTIGATION ON CHARACTERISTICS OF TURBOCHARGER VIBRATION USING DIGITAL SIGNAL PROCESSING TECHNIQUE. Journal of Transport System Engineering, 10(2), 21–26. https://doi.org/10.11113/jtse.v10.161

Issue

Section

Transport System Engineering

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