Publication detail

IMPACT OF VARIANCE OF CLOTHING THERMAL RESISTANCE ON COMFORT ZONE DIAGRAM MODIFICATION

FIŠER, J.

Original Title

IMPACT OF VARIANCE OF CLOTHING THERMAL RESISTANCE ON COMFORT ZONE DIAGRAM MODIFICATION

Type

conference paper

Language

English

Original Abstract

The calculation of comfort zone diagram is base on total thermal resistance of clothing on defined parts of manikin body. The author presents results of the measurements of the total thermal resistances of three different clothing sets (Summer light, Summer and Winter light) to obtain relevant comfort zone diagrams. The measurement of each clothing set was carried out four times, using thermal manikin Newton with constant skin temperature 34 C which was placed in the climate chamber with temperature of 24 C. The comfort zone diagram for each clothing set was then calculated for mean and -1.5 sigma and +1.5 sigma values of total clothing thermal resistances. The variance of zone equivalent temperatures (which creates borders between diagram zones) was then studied. Highest variance of zone equivalent temperatures was observed on the body parts with high insulation or overlapping clothing.

Keywords

Clothing thermal resistance, Comfort zone diagram, Thermal manikin

Authors

FIŠER, J.

RIV year

2014

Released

26. 5. 2014

Publisher

International Society of Indoor Air Quality and Climate ( ISIAQ )

Location

Hong Kong

ISBN

9781634397315

Book

13th International Conference on Indoor Air Quality and Climate 2014

Edition

Indoor Air

Edition number

1

Pages from

95

Pages to

99

Pages count

5

URL

BibTex

@inproceedings{BUT111915,
  author="Jan {Fišer}",
  title="IMPACT OF VARIANCE OF CLOTHING THERMAL RESISTANCE ON COMFORT ZONE DIAGRAM MODIFICATION",
  booktitle="13th International Conference on Indoor Air Quality and Climate 2014",
  year="2014",
  series="Indoor Air",
  number="1",
  pages="95--99",
  publisher="International Society of Indoor Air Quality and Climate ( ISIAQ )",
  address="Hong Kong",
  isbn="9781634397315",
  url="http://www.indoorair2014.org/"
}