Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE

Line Karlsen, Grigori Grozman, Per Kvols Heiselberg, Ida Bryn

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

Resumé

(MRT) model for IDA Indoor Climate and Energy (IDA ICE). The new feature of the model is that it includes the effect of shortwave radiation in the room and contributes to a more comprehensive prediction of operative temperature, e.g. of a person exposed to direct sun light. The verification of the model is carried out by comparing simulation results with fullscale measurements of a team office located in Oslo (59N10E). The measurements were conducted during mid-March and April 2013. The results indicate that the new MRT model might contribute to considerable improvements in prediction of thermal comfort of persons affected by direct solar radiation. This may further have implications on the predicted energy use and design of the façade, since e.g. an enlarged need for local cooling or use of dynamic solar shading might be discovered.
OriginalsprogEngelsk
Titel13th International Conference on Indoor Air Quality and Climate, Indoor Air 2014
Antal sider8
ForlagInternational Society of Indoor Air Quality and Climate
Publikationsdato2015
Sider200-207
ISBN (Elektronisk)978-1-63439-731-5
StatusUdgivet - 2015
BegivenhedIndoor Air 2014: The 13th International Conference on Indoor Air Quality and Climate - Hong Kong, Hong Kong
Varighed: 7 jul. 201412 jul. 2014

Konference

KonferenceIndoor Air 2014
LandHong Kong
ByHong Kong
Periode07/07/201412/07/2014

Fingerprint

Thermal comfort
Sun
Temperature
Solar radiation
Cooling
Radiation

Emneord

  • IDA ICE
  • Operative temperature
  • Thermal comfort
  • Solar radiation

Citer dette

Karlsen, L., Grozman, G., Heiselberg, P. K., & Bryn, I. (2015). Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE. I 13th International Conference on Indoor Air Quality and Climate, Indoor Air 2014 (s. 200-207). International Society of Indoor Air Quality and Climate.
Karlsen, Line ; Grozman, Grigori ; Heiselberg, Per Kvols ; Bryn, Ida. / Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE. 13th International Conference on Indoor Air Quality and Climate, Indoor Air 2014. International Society of Indoor Air Quality and Climate, 2015. s. 200-207
@inproceedings{c3017b3d42724863b1b0d784e75057d3,
title = "Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE",
abstract = "(MRT) model for IDA Indoor Climate and Energy (IDA ICE). The new feature of the model is that it includes the effect of shortwave radiation in the room and contributes to a more comprehensive prediction of operative temperature, e.g. of a person exposed to direct sun light. The verification of the model is carried out by comparing simulation results with fullscale measurements of a team office located in Oslo (59N10E). The measurements were conducted during mid-March and April 2013. The results indicate that the new MRT model might contribute to considerable improvements in prediction of thermal comfort of persons affected by direct solar radiation. This may further have implications on the predicted energy use and design of the fa{\cc}ade, since e.g. an enlarged need for local cooling or use of dynamic solar shading might be discovered.",
keywords = "IDA ICE, Operative temperature, Thermal comfort, Solar radiation, IDA ICE, Operative temperature, Thermal comfort, Solar radiation",
author = "Line Karlsen and Grigori Grozman and Heiselberg, {Per Kvols} and Ida Bryn",
year = "2015",
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Karlsen, L, Grozman, G, Heiselberg, PK & Bryn, I 2015, Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE. i 13th International Conference on Indoor Air Quality and Climate, Indoor Air 2014. International Society of Indoor Air Quality and Climate, s. 200-207, Indoor Air 2014, Hong Kong, Hong Kong, 07/07/2014.

Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE. / Karlsen, Line; Grozman, Grigori; Heiselberg, Per Kvols; Bryn, Ida.

13th International Conference on Indoor Air Quality and Climate, Indoor Air 2014. International Society of Indoor Air Quality and Climate, 2015. s. 200-207.

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

TY - GEN

T1 - Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE

AU - Karlsen, Line

AU - Grozman, Grigori

AU - Heiselberg, Per Kvols

AU - Bryn, Ida

PY - 2015

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AB - (MRT) model for IDA Indoor Climate and Energy (IDA ICE). The new feature of the model is that it includes the effect of shortwave radiation in the room and contributes to a more comprehensive prediction of operative temperature, e.g. of a person exposed to direct sun light. The verification of the model is carried out by comparing simulation results with fullscale measurements of a team office located in Oslo (59N10E). The measurements were conducted during mid-March and April 2013. The results indicate that the new MRT model might contribute to considerable improvements in prediction of thermal comfort of persons affected by direct solar radiation. This may further have implications on the predicted energy use and design of the façade, since e.g. an enlarged need for local cooling or use of dynamic solar shading might be discovered.

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KW - Solar radiation

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KW - Operative temperature

KW - Thermal comfort

KW - Solar radiation

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BT - 13th International Conference on Indoor Air Quality and Climate, Indoor Air 2014

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Karlsen L, Grozman G, Heiselberg PK, Bryn I. Operative temperature and thermal comfort in the sun - Implementation and verification of a model for IDA ICE. I 13th International Conference on Indoor Air Quality and Climate, Indoor Air 2014. International Society of Indoor Air Quality and Climate. 2015. s. 200-207