Detail publikace

Investigation of thermal comfort in the office by means of thermal manikin

Originální název

Investigation of thermal comfort in the office by means of thermal manikin

Anglický název

Investigation of thermal comfort in the office by means of thermal manikin

Jazyk

en

Originální abstrakt

The paper is focused on description of a principle of a thermal comfort measurement using thermal a manikin and methodology based on ISO 14505-2. The paper gives an example of the thermal comfort measurement in an office building during winter season in Central Europe. The influences of environment parameters and operational conditions of the office on thermal comfort are analysed. The anatomical thermal manikin, divided into 34 independently controlled and measured zones, was used for the measurements and the heat flows from all parts of the manikin were measured. Subsequently based on ISO 14505-2 the equivalent temperatures and thermal comfort were calculated. The measurements have shown the possibility of determining the thermal comfort using thermal manikin and also influences of main sources of discomfort in winter season: occasional ventilation through windows and loads from sun radiation. The results also show that measurement with thermal manikin is suitable approach for evaluation of local thermal comfort and allows precise measurements of inhomogeneity and asymmetry of indoor environments.

Anglický abstrakt

The paper is focused on description of a principle of a thermal comfort measurement using thermal a manikin and methodology based on ISO 14505-2. The paper gives an example of the thermal comfort measurement in an office building during winter season in Central Europe. The influences of environment parameters and operational conditions of the office on thermal comfort are analysed. The anatomical thermal manikin, divided into 34 independently controlled and measured zones, was used for the measurements and the heat flows from all parts of the manikin were measured. Subsequently based on ISO 14505-2 the equivalent temperatures and thermal comfort were calculated. The measurements have shown the possibility of determining the thermal comfort using thermal manikin and also influences of main sources of discomfort in winter season: occasional ventilation through windows and loads from sun radiation. The results also show that measurement with thermal manikin is suitable approach for evaluation of local thermal comfort and allows precise measurements of inhomogeneity and asymmetry of indoor environments.

BibTex


@inproceedings{BUT114494,
  author="Jan {Fišer} and Jan {Pokorný} and Miroslav {Jícha}",
  title="Investigation of thermal comfort in the office by means of thermal manikin",
  annote="The paper is focused on description of a principle of a thermal comfort measurement using thermal a manikin and methodology based on ISO 14505-2. The paper gives an example of the thermal comfort measurement in an office building during winter season in Central Europe. The influences of environment parameters and operational conditions of the office on thermal comfort are analysed. The anatomical thermal manikin, divided into 34 independently controlled and measured zones, was used for the measurements and the heat flows from all parts of the manikin were measured. Subsequently based on ISO 14505-2 the equivalent temperatures and thermal comfort were calculated. The measurements have shown the possibility of determining the thermal comfort using thermal manikin and also influences of main sources of discomfort in winter season: occasional ventilation through windows and loads from sun radiation. The results also show that measurement with thermal manikin is suitable approach for evaluation of local thermal comfort and allows precise measurements of inhomogeneity and asymmetry of indoor environments.",
  address="WTIpress,",
  booktitle="Computational Methods and Experimental Measurements XVII",
  chapter="114494",
  edition="WIT Transcription on Modelling and Simulations",
  howpublished="electronic, physical medium",
  institution="WTIpress,",
  year="2015",
  month="may",
  pages="97--103",
  publisher="WTIpress,",
  type="conference paper"
}