Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit

Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit

On vehicles equipped with a turbocharged engine, there is a risk of compressor surge. This surge generates instabilities that lead to driving inconvenience, or even mechanical failure of the supercharging system. In general, the surge appears rather in transient operation: sudden closing of the thro...

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Main Authors: Podevin Pierre, Danlos Amélie, Deligant Michaël, Punov Plamen, Clenci Adrian, De La Bourdonnaye Guillaume
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201823403006
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spelling doaj-303239c1b49e4177869f5574759a5ae42021-02-02T05:41:32ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012340300610.1051/matecconf/201823403006matecconf_bultrans2018_03006Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limitPodevin Pierre0Danlos Amélie1Deligant Michaël2Punov Plamen3Clenci Adrian4De La Bourdonnaye Guillaume5Laboratoire de Chimie Moléculaire, Génie des procédés Chimiques et Energétique, EA7341, Conservatoire National des Arts et Métiers, HESAM UniversitéLaboratoire de Chimie Moléculaire, Génie des procédés Chimiques et Energétique, EA7341, Conservatoire National des Arts et Métiers, HESAM UniversitéLaboratoire DynFluid, EA 92, Arts et Métiers ParisTechUniversité technique de SofiaDepartment Automobiles and Transport, University of PitestiValeoOn vehicles equipped with a turbocharged engine, there is a risk of compressor surge. This surge generates instabilities that lead to driving inconvenience, or even mechanical failure of the supercharging system. In general, the surge appears rather in transient operation: sudden closing of the throttle valve on gasoline engine, regulation of the EGR on diesel engine linked also to turbine regulation (VNT device or Waste Gate). On a turbocharger test stand, we set up the surge line in a “conventional way”: stationary experiments. Then we set up this line in transient conditions for different positions of an electric throttle placed upstream the compressor. It appears that: the surge limit is pushing back to lower flow rates when it is determined in transient; the surge limit is pushing back to lower flow rates when closing the throttle valve. The tests were carried on by the transient analysis of the surge during a quick closing-opening of the electric throttle valve.https://doi.org/10.1051/matecconf/201823403006
collection DOAJ
language English
format Article
sources DOAJ
author Podevin Pierre
Danlos Amélie
Deligant Michaël
Punov Plamen
Clenci Adrian
De La Bourdonnaye Guillaume
spellingShingle Podevin Pierre
Danlos Amélie
Deligant Michaël
Punov Plamen
Clenci Adrian
De La Bourdonnaye Guillaume
Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit
MATEC Web of Conferences
author_facet Podevin Pierre
Danlos Amélie
Deligant Michaël
Punov Plamen
Clenci Adrian
De La Bourdonnaye Guillaume
author_sort Podevin Pierre
title Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit
title_short Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit
title_full Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit
title_fullStr Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit
title_full_unstemmed Automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit
title_sort automotive compressor: effect of an electric throttle in the upstream circuit on the surge limit
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description On vehicles equipped with a turbocharged engine, there is a risk of compressor surge. This surge generates instabilities that lead to driving inconvenience, or even mechanical failure of the supercharging system. In general, the surge appears rather in transient operation: sudden closing of the throttle valve on gasoline engine, regulation of the EGR on diesel engine linked also to turbine regulation (VNT device or Waste Gate). On a turbocharger test stand, we set up the surge line in a “conventional way”: stationary experiments. Then we set up this line in transient conditions for different positions of an electric throttle placed upstream the compressor. It appears that: the surge limit is pushing back to lower flow rates when it is determined in transient; the surge limit is pushing back to lower flow rates when closing the throttle valve. The tests were carried on by the transient analysis of the surge during a quick closing-opening of the electric throttle valve.
url https://doi.org/10.1051/matecconf/201823403006
work_keys_str_mv AT podevinpierre automotivecompressoreffectofanelectricthrottleintheupstreamcircuitonthesurgelimit
AT danlosamelie automotivecompressoreffectofanelectricthrottleintheupstreamcircuitonthesurgelimit
AT deligantmichael automotivecompressoreffectofanelectricthrottleintheupstreamcircuitonthesurgelimit
AT punovplamen automotivecompressoreffectofanelectricthrottleintheupstreamcircuitonthesurgelimit
AT clenciadrian automotivecompressoreffectofanelectricthrottleintheupstreamcircuitonthesurgelimit
AT delabourdonnayeguillaume automotivecompressoreffectofanelectricthrottleintheupstreamcircuitonthesurgelimit
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