Sebastian Ahling scite author profile

Sebastian Ahling

5Publications

24Citation Statements Received

0Citation Statements Given

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Affiliations

Massachusetts Institute of Technology, Combustion Institute, RWTH Aachen University

Publications

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Modeling of Oil Transport between Piston Skirt and Cylinder Liner in Internal Combustion Engines

Meng¹,

Ahling²,

Tian³

2019

SAE Int. J. Adv. & Curr. Prac. in Mobility

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<div class="section abstract"><div class="htmlview paragraph">The distribution of lubricating oil plays a critical role in determining the friction between piston skirt and cylinder liner, which is one of the major contributors to the total friction loss in internal combustion engines. In this work, based upon the experimental observation an existing model for the piston secondary motion and skirt lubrication was improved with a physics-based model describing the oil film separation from full film to partial film. Then the model was applied to a modern turbo-charged SI engine. The piston-skirt FMEP predicted by the model decreased with larger installation clearance, which was also observed from the measurements using IMEP method at the rated. It was found that the main period of the cycle exhibiting friction reduction is in the expansion stroke when the skirt only contacts the thrust side for all tested installation clearances. The main reason for lower skirt friction with larger clearance is greater amount of oil available during the expansion stroke.</div></div>

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Modeling the Three Piece Oil Control Ring Dynamics and Oil Transport in Internal Combustion Engines

Zhang

Ahling

Tian

2021

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Study of the Effects of Oil Supply and Piston Skirt Profile on Lubrication Performance in Power Cylinder Systems

Meng

Ahling

Tian

2019

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Oil Transport Phenomena during extreme load transients inside the power cylinder unit as investigated by HS-2DLIF (High-Speed 2D Laser-Induced Fluorescence)

Ahling

Tian

2019

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A Computational Study of the Lubricant Transport into Oil Control Ring Groove

Fang

Meng

Ahling

et al. 2019

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