Instantaneous angular speed fluctuations of thermal engines - Focus on 3-cylinder engine and comparison with 4-cylinder engine

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Instantaneous angular speed fluctuations of thermal engines - Focus on 3-cylinder engine and comparison with 4-cylinder engine

Authors : Elian BARON, Jean-Louis LIGIER

Publication date: April 10, 2020 | Lire en français

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Overview

ABSTRACT

A detailed analysis of the inline 3-cylinder engine acyclism is provided in this paper. The forces, torques and moments related to the gas pressure and inertia are explained, and formulae which are easily usable by the reader are also provided. The time (or angular) and harmonic analysis of the instantaneous torque of the in-line 3-cylinder engine are presented. A systematic comparison of the acyclism behaviour of in-line 3-cylinder and 4-cylinder engines is carried out, as well as a comparison between petrol and diesel engines. Finally, two studies usefull for all types of engines are proposed (dynamic modelling of the connecting rod and inertia of the rotating parts of the engine).

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AUTHORS

  • Elian BARON : Engineer-Doctor - Powertrain Expert - Renault Automobiles, Guyancourt, France

  • Jean-Louis LIGIER : Engineer-Doctor - Professor of Mechanics - HEIG-VD, Yverdon, Switzerland

 INTRODUCTION

Engine acyclism is one of the phenomena that engine manufacturers keep under control, since noise and vibration are nowadays just as important as performance and fuel consumption. The notion of acyclism is defined in a previous article [BM 2 588] , concerning the single-cylinder engine; we recall that acyclism can be presented as the non-uniformity of crankshaft rotation during an operating cycle. A second article [BM 2 589] looks at the acyclism of the 4-cylinder engine, seen as a combination of single-cylinder engines. While the in-line 4-cylinder engine is still the most widely used in the automotive world today, the acyclism of the in-line 3-cylinder engine should also be studied. Today, this type of engine is increasingly used in entry-level vehicles, in particular to minimize fuel consumption. However, it is not without its drawbacks, particularly in terms of noise and vibration. The acyclism of the 3-cylinder engine is genetically more pronounced than that of the 4-cylinder engine from which it is generally derived.

In this article devoted to the acyclism of the 3-cylinder engine, we remain faithful to our systematic approach, detailing each notion precisely and progressively. Numerical examples are also systematically provided, most often graphically, as acyclism is practically "visualizable" enough.

We can't discuss the acyclism of the 3-cylinder engine without comparing it to its 4-cylinder "big brother" (gasoline and diesel). The main quantities relating to these two types of engine are recalled and put into perspective in the form of tables, the most effective way of synthesizing the whole in the form of a simple, usable tool.

Finally, we explain the dynamic behavior of the connecting rod (a valid approach whatever the type of combustion engine considered: 3-cylinder, 4-cylinder, gasoline or diesel) and provide the reader with orders of magnitude for the main rotary inertias of the components making up the mobile coupling (flywheel, clutch mechanism, crankshaft, timing drive pulley, connecting rod, piston).

At the end of the article, readers will find a glossary and a table of notations and symbols...

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KEYWORDS

modelling   |   crankshaft   |   instantaneous angular speed variations   |   dynamic analysis of engine   |   3-cyminder engine

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Instantaneous angular speed fluctuations of thermal engines - Focus on 3-cylinder engine and comparison with 4-cylinder engine

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