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    Prediction of Outdoor Thermal Comfort During Heat Waves Based on Coupled Microclimate Simulations in Various Neighborhoods in Swiss Cities

    New search for: Berardi, Umberto
    New search for: Kubilay, Aytaç
    New search for: Strebel, Dominik
    New search for: Derome, Dominique
    New search for: Carmeliet, Jan

    Urban neighborhoods showing different characteristics and potential for implementing heat mitigation measures are investigated in three cities. Existing situations are numerically modeled with a multiscale approach during heat wave conditions with the aim to identify occurrences and causes of outdoor thermal discomfort. The results show that trees can reduce air temperature depending on wind-flow conditions and improve thermal comfort locally while they may reduce thermal comfort in other areas. Differences are observed among the neighborhoods due to variation in building morphology and density, vegetation cover, street orientation, ventilation paths and pavement and façade materials among other reasons.

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    Prediction of Outdoor Thermal Comfort During Heat Waves Based on Coupled Microclimate Simulations in Various Neighborhoods in Swiss Cities

    New search for: Berardi, Umberto
    New search for: Kubilay, Aytaç
    New search for: Strebel, Dominik
    New search for: Derome, Dominique
    New search for: Carmeliet, Jan

    Urban neighborhoods showing different characteristics and potential for implementing heat mitigation measures are investigated in three cities. Existing situations are numerically modeled with a multiscale approach during heat wave conditions with the aim to identify occurrences and causes of outdoor thermal discomfort. The results show that trees can reduce air temperature depending on wind-flow conditions and improve thermal comfort locally while they may reduce thermal comfort in other areas. Differences are observed among the neighborhoods due to variation in building morphology and density, vegetation cover, street orientation, ventilation paths and pavement and façade materials among other reasons.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Prediction of Outdoor Thermal Comfort During Heat Waves Based on Coupled Microclimate Simulations in Various Neighborhoods in Swiss Cities

    New search for: Berardi, Umberto
    New search for: Kubilay, Aytaç
    New search for: Strebel, Dominik
    New search for: Derome, Dominique
    New search for: Carmeliet, Jan

    Urban neighborhoods showing different characteristics and potential for implementing heat mitigation measures are investigated in three cities. Existing situations are numerically modeled with a multiscale approach during heat wave conditions with the aim to identify occurrences and causes of outdoor thermal discomfort. The results show that trees can reduce air temperature depending on wind-flow conditions and improve thermal comfort locally while they may reduce thermal comfort in other areas. Differences are observed among the neighborhoods due to variation in building morphology and density, vegetation cover, street orientation, ventilation paths and pavement and façade materials among other reasons.

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    Check access
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    Order at Subito €

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    Document information
    Title:

    Prediction of Outdoor Thermal Comfort During Heat Waves Based on Coupled Microclimate Simulations in Various Neighborhoods in Swiss Cities

    Additional title:

    Lecture Notes in Civil Engineering

    Contributors:

    Berardi, Umberto (editor) / Kubilay, Aytaç (author) / Strebel, Dominik (author) / Derome, Dominique (author) / Carmeliet, Jan (author)

    Conference:

    International Association of Building Physics ; 2024 ; Toronto, ON, Canada

    Published in:

    Multiphysics and Multiscale Building Physics ; Chapter: 30 ; 231-237

    Lecture Notes in Civil Engineering ; 553

    Publication date:

    2024-12-19

    Size:

    7 pages

    ISBN:

    978-981-97-8309-0 , 978-981-97-8308-3

    ISSN:

    2366-2565 , 2366-2557

    DOI:

    https://doi.org/10.1007/978-981-97-8309-0_30

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Microclimate , thermal comfort , CFD , vegetation , heat waves Engineering , Building Physics, HVAC , Engineering Acoustics , Sustainable Architecture/Green Buildings

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