Publication detail

Calibration of Virtual Testing Stand of the Car Cabin using climatic chamber tests

POKORNÝ, J. FIŠER, J. JÍCHA, M.

Original Title

Calibration of Virtual Testing Stand of the Car Cabin using climatic chamber tests

English Title

Calibration of Virtual Testing Stand of the Car Cabin using climatic chamber tests

Type

conference paper

Language

en

Original Abstract

The aim of our research is to calibrate and verify of the software Virtual Testing Stand of the Car Cabin using climatic chamber tests. The Virtual Testing Stand is standalone executable software developed in Matlab for prediction of the cabin environment and thermal heat load by using the time-efficient heat balance model. The main limitation of the simulation method is a simplified convection scheme inside a cabin using the empirical correlations instead of the CFD simulations. In this paper we present the first preliminary tests of the calibration process and verification of the simulation results. Tests were carried out for the car Skoda Octavia Combi with the silver metallic paint. The material composition of the test car was deeply explored and the material properties of the cabin were identified as accurate as possible. The car was exposed to the various environments inside a climate chamber. In this paper we report about two performed tests: summer solar soak est and winter heat-up test with the defined heat source.

English abstract

The aim of our research is to calibrate and verify of the software Virtual Testing Stand of the Car Cabin using climatic chamber tests. The Virtual Testing Stand is standalone executable software developed in Matlab for prediction of the cabin environment and thermal heat load by using the time-efficient heat balance model. The main limitation of the simulation method is a simplified convection scheme inside a cabin using the empirical correlations instead of the CFD simulations. In this paper we present the first preliminary tests of the calibration process and verification of the simulation results. Tests were carried out for the car Skoda Octavia Combi with the silver metallic paint. The material composition of the test car was deeply explored and the material properties of the cabin were identified as accurate as possible. The car was exposed to the various environments inside a climate chamber. In this paper we report about two performed tests: summer solar soak est and winter heat-up test with the defined heat source.

Keywords

Climate chamber, Matlab, car cabin environment

RIV year

2015

Released

06.05.2015

Publisher

EDP Sciences

Pages from

497

Pages to

500

Pages count

4

URL

Full text in the Digital Library

Documents

BibTex


@inproceedings{BUT111036,
  author="Jan {Pokorný} and Jan {Fišer} and Miroslav {Jícha}",
  title="Calibration of Virtual Testing Stand of the Car Cabin using climatic chamber tests",
  annote="The aim of our research is to calibrate and verify of the software Virtual Testing Stand of the Car 
Cabin using climatic chamber tests. The Virtual Testing Stand is standalone executable software developed in 
Matlab for prediction of the cabin environment and thermal heat load by using the time-efficient heat balance 
model. The main limitation of the simulation method is a simplified convection scheme inside a cabin using the 
empirical correlations instead of the CFD simulations. In this paper we present the first preliminary tests of the 
calibration process and verification of the simulation results. Tests were carried out for the car Skoda Octavia 
Combi with the silver metallic  paint. The material composition of the test car was deeply explored and the 
material properties of the cabin were identified as accurate as possible.  The car was  exposed to  the various 
environments inside a climate chamber. In this paper we report about two performed tests: summer solar soak 
est and winter heat-up test with the defined heat source.",
  address="EDP Sciences",
  booktitle="EPJ Web of Conferences",
  chapter="111036",
  doi="10.1051/epjconf/20159202072",
  edition="EFM",
  howpublished="online",
  institution="EDP Sciences",
  number="2015",
  year="2015",
  month="may",
  pages="497--500",
  publisher="EDP Sciences",
  type="conference paper"
}