Detail publikace

IMPACT OF CONVECTIVE PLUME AROUND HUMAN BODY ON TEQ MEASURED BY EQUIVALENT TEMPERATURE SENSORS

FIŠER, J. BADER, V. THOMSCHKE, C.

Originální název

IMPACT OF CONVECTIVE PLUME AROUND HUMAN BODY ON TEQ MEASURED BY EQUIVALENT TEMPERATURE SENSORS

Anglický název

IMPACT OF CONVECTIVE PLUME AROUND HUMAN BODY ON TEQ MEASURED BY EQUIVALENT TEMPERATURE SENSORS

Jazyk

en

Originální abstrakt

Equivalent temperature method in combination with Comfort zone diagram is relatively new and fast developing method for thermal comfort evaluation. Some measurement systems are based on small sensors which are fasten on the surface of a dummy or the real test person. The main problem in the cases when the sensors are used on the surface of real person is metabolic heat which generates convective plume around body. The authors refer about tests in the car cabin investigating the effect of convective plume on equivalent temperature measured by the sensors. Newton thermal manikin was used as generator of convective plume and also as the holder of the sensors. Dressman system was used for processing and logging of Teq from the sensors. It was concluded hat convective plume directly influences equivalent temperature measured by Dressman sensors and the degree of influence depends on air speed in vicinity of the manikin.

Anglický abstrakt

Equivalent temperature method in combination with Comfort zone diagram is relatively new and fast developing method for thermal comfort evaluation. Some measurement systems are based on small sensors which are fasten on the surface of a dummy or the real test person. The main problem in the cases when the sensors are used on the surface of real person is metabolic heat which generates convective plume around body. The authors refer about tests in the car cabin investigating the effect of convective plume on equivalent temperature measured by the sensors. Newton thermal manikin was used as generator of convective plume and also as the holder of the sensors. Dressman system was used for processing and logging of Teq from the sensors. It was concluded hat convective plume directly influences equivalent temperature measured by Dressman sensors and the degree of influence depends on air speed in vicinity of the manikin.

Dokumenty

BibTex


@inproceedings{BUT111916,
  author="Jan {Fišer} and Viktor {Bader} and Christoph {Thomschke}",
  title="IMPACT OF CONVECTIVE PLUME AROUND HUMAN BODY ON TEQ MEASURED BY EQUIVALENT TEMPERATURE SENSORS",
  annote="Equivalent temperature method in combination with Comfort zone diagram is relatively  new and fast developing method for thermal comfort evaluation. Some measurement systems are based on small sensors which are fasten on the surface of a dummy or the real test person. The main problem in the cases when the sensors are used on the surface of real person is metabolic heat which generates convective plume around body. The authors  refer about tests in the car cabin  investigating the effect of convective plume on equivalent temperature measured by the sensors.  Newton thermal manikin was used as generator of convective plume and also as the holder of the sensors.  Dressman system was used for processing and logging of Teq  from the sensors. It was concluded hat convective plume directly influences equivalent temperature measured by Dressman sensors and the degree of influence depends on air speed in vicinity of the manikin.",
  address="Tampere University of Technology",
  booktitle="Proceedings of Ambience14&10i3m",
  chapter="111916",
  edition="Proceedings of Ambience, Scientific Conference for Smart Textiles",
  howpublished="electronic, physical medium",
  institution="Tampere University of Technology",
  year="2014",
  month="september",
  pages="100--104",
  publisher="Tampere University of Technology",
  type="conference paper"
}