ANALISIS TEKANAN PEMBAKARAN PADA MESIN DIESEL MENGGUNAKAN METODE PRESSURE COMBUSTION ANALYSIS

Authors

  • Moch. Syaiful Anwar Universitas Sunan Giri Surabaya, Indonesia
  • Mochamad Shaleh Universitas Sunan Giri Surabaya, Indonesia

DOI:

https://doi.org/10.31949/j-ensitec.v10i02.18226

Abstract

His study aims to analyze combustion pressure characteristics in a diesel engine using the Pressure Combustion Analysis (PCA) method. The research employed a quantitative descriptive approach through direct measurement of combustion pressure in each cylinder of a Sulzer 12 ZV 40/48 diesel engine under constant operating load conditions. The analyzed parameters included peak combustion pressure, combustion pressure balance, ignition delay, pressure at crank angle 340°, and indications of abnormal combustion. Data acquisition was conducted using Haliza Machinery & Diesel Engine Analyzer and processed using SoftHaliza software. The results showed that the average combustion pressure reached 59.33 bar with pressure deviations among cylinders remaining below the allowable limit, indicating that the overall combustion condition was still within normal operating standards. Comparative analysis before and after the application of fuel additive demonstrated an increase in average combustion pressure from 57.91 bar to 59.33 bar, indicating improved combustion performance and smoother combustion characteristics. However, several cylinders still exhibited indications of incomplete combustion and combustion pressure imbalance caused by variations in fuel injection and combustion quality. In addition, the PCA method proved effective for early detection of ignition delay, combustion abnormalities, and potential cylinder performance degradation. Therefore, Pressure Combustion Analysis can be applied as an effective predictive maintenance method to improve diesel engine reliability and operational efficiency.

Keywords:

Combustion Pressure, Diesel Engine, Fuel Additive, Ignition Delay, Predictive Maintenance;, Pressure Combustion Analysis.

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References

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[16] Wang Y, Liu H, Wei L. Combustion diagnosis in diesel engines using in-cylinder pressure analysis. Energy Rep. 2021;7:1024-1032.

[17] Mohan B, Yang W, Chou SK. Fuel injection strategies and combustion characteristics in diesel engines. Fuel. 2021;104:669-678.

[18] Payri F, Broatch A, Margot X. Pressure analysis techniques in diesel engines. Appl Therm Eng. 2020;170:114989.

[19] Kumar N, Singh OP. Experimental investigation of combustion characteristics in CI engines. Case Stud Therm Eng. 2020;21:100686.

[20] Zhao H. HCCI and CAI engines for the automotive industry. Cambridge: Woodhead Publishing; 2019.

[21] Heywood JB. Internal combustion engine fundamentals. 2nd ed. New York: McGraw-Hill Education; 2018.

[22] Rakopoulos CD, Giakoumis EG. Diesel engine transient operation. London: Springer; 2018.

[23] Reif K. Diesel engine management systems and components. Wiesbaden: Springer Vieweg; 2018.

[24] Ashraful AM, Masjuki HH, Kalam MA, Fattah IMR, Imtenan S, Shahir SA, et al. Production and comparison of fuel properties and engine performance of biodiesel blends. Renew Sustain Energy Rev. 2019;88:202-228.

[25] Bae C, Kim J. Alternative fuels for internal combustion engines. Proc Combust Inst. 2020;37(1):3389-3413.

[26] Labeckas G, Slavinskas S. Combustion performance of diesel engines using fuel additives. Energy Convers Manag. 2020;149:440-450.

[27] Taylor CF. The internal combustion engine in theory and practice. Cambridge: MIT Press; 2019.

[28] Zheng M, Reader GT, Hawley JG. Diesel engine combustion analysis and emissions. Fuel. 2019;246:123-135.

[29] Jardine AKS, Lin D, Banjevic D. Machinery diagnostics and prognostics implementing condition-based maintenance. Mech Syst Signal Process. 2019;20(7):1483-1510.

[30] Li T, Zhang Z, Sun Y. Predictive maintenance technologies for diesel engine systems. Measurement. 2021;178:109328.

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Downloads Count: 15

Published

2024-06-09

How to Cite

Syaiful Anwar, M., & Shaleh, M. (2024). ANALISIS TEKANAN PEMBAKARAN PADA MESIN DIESEL MENGGUNAKAN METODE PRESSURE COMBUSTION ANALYSIS. J-ENSITEC , 10(02), 10131–10137. https://doi.org/10.31949/j-ensitec.v10i02.18226

Issue

Vol. 10 No. 02 (2024): June 2024

Section

Articles

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Copyright (c) 2024 Moch. Syaiful Anwar, Mochamad Shaleh

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