Comparison of Diesel Engine Vibroacoustic Properties Powered by Bio and Standard Fuel

Wróbel, Radosław; Sierzputowski, Gustaw; Sroka, Zbigniew; Dimitrov, Radostin

doi:10.3390/en14051478

Cited by 5 publications

(1 citation statement)

References 33 publications

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“…Jaikumar et al [22] investigated the combustion and vibration characteristics of a diesel engine with biodiesel and alcohol blends under variable compression ratio situations. Wrobel et al [23] compared the vibroacoustic properties of diesel and biofuel under varying speeds and loads. From the above literature, it is concluding that most of the research was conducted on diesel/biodiesel blends, biodiesel/alcohols blends to analyses the relationship between fuel properties and engine vibration.…”

Section: Introductionmentioning

confidence: 99%

Data-driven Approach for Condition Assessment of a Diesel Engine Powered with Various Biodiesels

Zhang¹,

Sharma²,

Yu³

et al. 2023

SAE Technical Paper Series

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<div class="section abstract"><div class="htmlview paragraph">In recent years, various biodiesels have been developed to decrease pollutant emissions from compression ignition engine. However, the current research focuses on reducing the pollutant components without considering the mechanical vibration that occurred due to the changes in fuel properties such as viscosity, calorific values, density, and bulk modulus. It is important to explore the relationships between fuel properties and engine vibration. Mechanical vibration could cause power loss and affect the lifetime of the engine. In this investigation, a lister-pitter 3-cylinder diesel engine was used to analyse the mechanical vibration of three different fuels including diesel, waste cooking oil biodiesel (WCOB), and lamb fat biodiesel (LFB). The high-frequency vibration sensors were mounted on the cylinder head to monitor and assess the vibration performance. The vibration data were collected under various operating conditions including varying engine speed from 1500 to 2000 rpm and varying engine loads ranging from 20% to 100%. Three practical assessment features of vibration signals were investigated to evaluate the vibration characteristics. The experimental results clearly demonstrate the relative relations between vibration, and fuel properties of the tested fuels, used in the diesel engine. Compared with fossil diesel fuel, the total vibration level decreased by 17% and 23% for WCOB and LFB fuels, respectively. The engine performance powered with LFB and WCOB are better than diesel’s effect on both vibration and friction power (FP) perspective. Superior lubricity and viscosity of WCOB and LFB is the main reason causing good vibration performance.</div></div>

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Section: Introductionmentioning

confidence: 99%