Simulation Models of the Complex Type Pressure Wave Supercharger

In order to efficiently supercharge Diesel engines with pressure wave superchargers it is necessary to correlate the superchargers rotation speed with certain parameters of the supercharged engine. For this purpose, to reduce the research costs and duration, simulation models can be used which help...

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Veröffentlicht in:	Applied Mechanics and Materials 2016-01, Vol.823, p.341-346
Hauptverfasser:	Radu, Sebastian, Leahu, Cristian Ioan, Radu, Gheorghe Alexandru, Iakab-Peter, Marton, Abăităncei, Horia, Hârceagă, Marius
Format:	Artikel
Sprache:	eng
Schlagworte:	Automobile industry Computational fluid dynamics Computer simulation Diesel engines Elastic waves Mathematical models Simulation Superchargers Three dimensional models Turbulence Turbulent flow
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creator	Radu, Sebastian Leahu, Cristian Ioan Radu, Gheorghe Alexandru Iakab-Peter, Marton Abăităncei, Horia Hârceagă, Marius
description	In order to efficiently supercharge Diesel engines with pressure wave superchargers it is necessary to correlate the superchargers rotation speed with certain parameters of the supercharged engine. For this purpose, to reduce the research costs and duration, simulation models can be used which help to determine the parameters which have a major impact on the supercharger's rotational speed and efficiency. In this paper there are presented two simulation models: a one-dimensional (made in AMESim software) and a three dimensional (made in Fluent Software). This simulation models offer the possibility to visualize some dynamic phenomenon within the supercharger, like the evolution of the pressure waves or the turbulent flow inside the rotor channels. These phenomena are difficult and expensive to study with conventional methods.
doi_str_mv	10.4028/www.scientific.net/AMM.823.341
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subjects	Automobile industry Computational fluid dynamics Computer simulation Diesel engines Elastic waves Mathematical models Simulation Superchargers Three dimensional models Turbulence Turbulent flow
title	Simulation Models of the Complex Type Pressure Wave Supercharger
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