Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill

Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill

This research is objected to study the effect of air volume variation in the cooling process for the outer wall of vehicle engine. The results were expected to be consideration in Grill’s engineering process in term of better efficiency which is the discussion nowadays. The simulation was executed o...

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Main Authors: Riza Rahmat, Puspaputra Paryana, Haryono Wajib
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201824801002
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spelling doaj-c1016275cd0f4018a185f25d4c60fda82021-03-02T09:54:34ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012480100210.1051/matecconf/201824801002matecconf_estic2018_01002Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the GrillRiza RahmatPuspaputra ParyanaHaryono WajibThis research is objected to study the effect of air volume variation in the cooling process for the outer wall of vehicle engine. The results were expected to be consideration in Grill’s engineering process in term of better efficiency which is the discussion nowadays. The simulation was executed on a model rebuilt from a rough estimate of one of the existing urban vehicles in Indonesia. This model was performed in computational fluid dynamics software. Four condition of hole’s grill of the vehicle engine were prepared as the main parameters to experiment the air flow which would receive the heat from the outer wall of the engine. These parameters were study to investigate the outer wall temperature of the engine. The results showed that reducing 25% of hole’s area of the grill would increase temperature around 7.4%, the decreasing of 50% of the hole had made the increasing temperature around 28%. The last condition of the decreasing of 75% of the hole had caused the increasing temperature around 400%.https://doi.org/10.1051/matecconf/201824801002
collection DOAJ
language English
format Article
sources DOAJ
author Riza Rahmat
Puspaputra Paryana
Haryono Wajib
spellingShingle Riza Rahmat
Puspaputra Paryana
Haryono Wajib
Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill
MATEC Web of Conferences
author_facet Riza Rahmat
Puspaputra Paryana
Haryono Wajib
author_sort Riza Rahmat
title Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill
title_short Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill
title_full Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill
title_fullStr Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill
title_full_unstemmed Air flow Simulation in correlation of the Outside Engine Temperature Change with Variation of the Grill
title_sort air flow simulation in correlation of the outside engine temperature change with variation of the grill
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description This research is objected to study the effect of air volume variation in the cooling process for the outer wall of vehicle engine. The results were expected to be consideration in Grill’s engineering process in term of better efficiency which is the discussion nowadays. The simulation was executed on a model rebuilt from a rough estimate of one of the existing urban vehicles in Indonesia. This model was performed in computational fluid dynamics software. Four condition of hole’s grill of the vehicle engine were prepared as the main parameters to experiment the air flow which would receive the heat from the outer wall of the engine. These parameters were study to investigate the outer wall temperature of the engine. The results showed that reducing 25% of hole’s area of the grill would increase temperature around 7.4%, the decreasing of 50% of the hole had made the increasing temperature around 28%. The last condition of the decreasing of 75% of the hole had caused the increasing temperature around 400%.
url https://doi.org/10.1051/matecconf/201824801002
work_keys_str_mv AT rizarahmat airflowsimulationincorrelationoftheoutsideenginetemperaturechangewithvariationofthegrill
AT puspaputraparyana airflowsimulationincorrelationoftheoutsideenginetemperaturechangewithvariationofthegrill
AT haryonowajib airflowsimulationincorrelationoftheoutsideenginetemperaturechangewithvariationofthegrill
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