Heat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones

The design of form and façade in high-rise buildings impacts energy consumption, especially in heating and cooling. Applying passive design techniques in building forms is a crucial step to decrease energy loads for heating and cooling in the design phase. This paper aims to show the energy required...

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Autores principales: Frengky B. Ola, Nimas Sekarlangit, Brigitta Michelle, Maria Dominika Krisna Adya Anindita, Florentina Untung Setyaningfebry
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Lenguaje:EN
Publicado: Tamkang University Press 2021
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Acceso en línea:https://doaj.org/article/ab675e13ac41415da695a9a8badfb84d
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spelling oai:doaj.org-article:ab675e13ac41415da695a9a8badfb84d2021-11-23T14:54:06ZHeat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones10.6180/jase.202202_25(1).00192708-99672708-9975https://doaj.org/article/ab675e13ac41415da695a9a8badfb84d2021-11-01T00:00:00Zhttp://jase.tku.edu.tw/articles/jase-202202-25-1-0019https://doaj.org/toc/2708-9967https://doaj.org/toc/2708-9975The design of form and façade in high-rise buildings impacts energy consumption, especially in heating and cooling. Applying passive design techniques in building forms is a crucial step to decrease energy loads for heating and cooling in the design phase. This paper aims to show the energy required for and mechanism of heat transfer in universal forms of high-rise buildings (Extruder, Rotor, and Twister) in various climate zones. This article studies the heat gains and losses accumulated in the façade (including infiltration) based on the building's forms and the climate where they are located. The simulation is conducted using Sefaira®. Energy consumption of thermal conditioning as the impact of heat transfer will also be discussed. The results show that climate plays a role in determining the heating and cooling performances of high-rise buildings with universal forms. The Rotor model performs the best for heating and cooling in all climate zones, while the Extruder model is most suitable in cold climates.Frengky B. OlaNimas SekarlangitBrigitta MichelleMaria Dominika Krisna Adya AninditaFlorentina Untung SetyaningfebryTamkang University Pressarticlehigh-riseformsheat transferenergysimulationEngineering (General). Civil engineering (General)TA1-2040Chemical engineeringTP155-156PhysicsQC1-999ENJournal of Applied Science and Engineering, Vol 25, Iss 1, Pp 187-194 (2021)
institution DOAJ
collection DOAJ
language EN
topic high-rise
forms
heat transfer
energy
simulation
Engineering (General). Civil engineering (General)
TA1-2040
Chemical engineering
TP155-156
Physics
QC1-999
spellingShingle high-rise
forms
heat transfer
energy
simulation
Engineering (General). Civil engineering (General)
TA1-2040
Chemical engineering
TP155-156
Physics
QC1-999
Frengky B. Ola
Nimas Sekarlangit
Brigitta Michelle
Maria Dominika Krisna Adya Anindita
Florentina Untung Setyaningfebry
Heat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones
description The design of form and façade in high-rise buildings impacts energy consumption, especially in heating and cooling. Applying passive design techniques in building forms is a crucial step to decrease energy loads for heating and cooling in the design phase. This paper aims to show the energy required for and mechanism of heat transfer in universal forms of high-rise buildings (Extruder, Rotor, and Twister) in various climate zones. This article studies the heat gains and losses accumulated in the façade (including infiltration) based on the building's forms and the climate where they are located. The simulation is conducted using Sefaira®. Energy consumption of thermal conditioning as the impact of heat transfer will also be discussed. The results show that climate plays a role in determining the heating and cooling performances of high-rise buildings with universal forms. The Rotor model performs the best for heating and cooling in all climate zones, while the Extruder model is most suitable in cold climates.
format article
author Frengky B. Ola
Nimas Sekarlangit
Brigitta Michelle
Maria Dominika Krisna Adya Anindita
Florentina Untung Setyaningfebry
author_facet Frengky B. Ola
Nimas Sekarlangit
Brigitta Michelle
Maria Dominika Krisna Adya Anindita
Florentina Untung Setyaningfebry
author_sort Frengky B. Ola
title Heat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones
title_short Heat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones
title_full Heat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones
title_fullStr Heat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones
title_full_unstemmed Heat Transfer in the Universal Form of High-rise Buildings in Various Climate Zones
title_sort heat transfer in the universal form of high-rise buildings in various climate zones
publisher Tamkang University Press
publishDate 2021
url https://doaj.org/article/ab675e13ac41415da695a9a8badfb84d
work_keys_str_mv AT frengkybola heattransferintheuniversalformofhighrisebuildingsinvariousclimatezones
AT nimassekarlangit heattransferintheuniversalformofhighrisebuildingsinvariousclimatezones
AT brigittamichelle heattransferintheuniversalformofhighrisebuildingsinvariousclimatezones
AT mariadominikakrisnaadyaanindita heattransferintheuniversalformofhighrisebuildingsinvariousclimatezones
AT florentinauntungsetyaningfebry heattransferintheuniversalformofhighrisebuildingsinvariousclimatezones
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