Publication detail

Thermal model of an unconditioned, heated and ventilated seat to predict human thermo-physiological response and local thermal sensation

FOJTLÍN, M. PSIKUTA, A. FIŠER, J. POKORNÝ, J. TOMA, R. ANNAHEIM, S. JÍCHA, M. ROSSI, R.

Original Title

Thermal model of an unconditioned, heated and ventilated seat to predict human thermo-physiological response and local thermal sensation

Type

journal article in Web of Science

Language

English

Original Abstract

Local conditioning technologies such as seat heating and ventilation have been shown to improve thermal sensation and comfort, with reduced energy demands compared to conventional methods of heating and cooling. Investigation of the conditioning effectivity is demanding in terms of time and resources, as it is mainly based on human subject or thermal manikin testing. One promising method of rapidly investigating a wide range of environmental conditions is thermo-physiological and thermal sensation modelling. Until now, however, one of the most important properties of the seat, its thermal diffusivity, has been neglected in such simulations. We therefore developed a methodology that involves one-dimensional, thermal model of the seat coupled with a multi-node thermo-physiological model and thermal sensation models. The seat thermal model showed realistic predictions of heat flux in the seat contact interface for control (no conditioning), heated, and ventilated seats. The modelling results were validated against our original experimental data and data from the literature for unconditioned. The root mean square deviation (RMSD) and bias of the local skin temperatures were within the standard deviation of the measurement, typically within 1°C. In the case of the predicted local thermal sensations, we found the RMSD and bias to be below two standard deviations of the human votes in two out of three of the thermal sensation models examined. Less accurate predictions were found for the seat contact, where further model refinement is needed.

Keywords

Heating; Ventilation; Seat; Human; Thermo-physiology; Fiala model; Thermal sensation

Authors

FOJTLÍN, M.; PSIKUTA, A.; FIŠER, J.; POKORNÝ, J.; TOMA, R.; ANNAHEIM, S.; JÍCHA, M.; ROSSI, R.

Released

28. 11. 2019

Publisher

Elsevier

ISBN

0360-1323

Periodical

BUILDING AND ENVIRONMENT

Year of study

169

Number

2020

State

United Kingdom of Great Britain and Northern Ireland

Pages from

1

Pages to

15

Pages count

14

URL

BibTex

@article{BUT160192,
  author="Miloš {Fojtlín} and Agnieszka {Psikuta} and Jan {Fišer} and Jan {Pokorný} and Róbert {Toma} and Simon {Annaheim} and Miroslav {Jícha} and René M. {Rossi}",
  title="Thermal model of an unconditioned, heated and ventilated seat to predict human thermo-physiological response and local thermal sensation",
  journal="BUILDING AND ENVIRONMENT",
  year="2019",
  volume="169",
  number="2020",
  pages="1--15",
  doi="10.1016/j.buildenv.2019.106571",
  issn="0360-1323",
  url="https://www.sciencedirect.com/science/article/pii/S0360132319307838?via%3Dihub"
}