Building information modelling (Bim) for estimation of heat flux from streetscape material

Streetscape elements are the major contributors to the urban heat island (UHI) phenomenon in the built urban environment. The hot surface air in this phenomenon is concentrated in urban regions and will gradually decrease in surrounding temperatures in suburban or rural regions. The effect of UHI ca...

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Main Authors: Roslan R., Omar R.C., Baharuddin I.N.Z., Wahab W.A., Hari Z., Dzulkifli N.A., Sanusi K.A.
Other Authors: 57211597991
Format: Article
Published: Blue Eyes Intelligence Engineering and Sciences Publication 2023
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spelling my.uniten.dspace-244252023-05-29T15:23:25Z Building information modelling (Bim) for estimation of heat flux from streetscape material Roslan R. Omar R.C. Roslan R. Baharuddin I.N.Z. Wahab W.A. Hari Z. Dzulkifli N.A. Sanusi K.A. 57211597991 35753735300 57159693200 55812431300 56040257700 35324176800 57205232913 57205235883 Streetscape elements are the major contributors to the urban heat island (UHI) phenomenon in the built urban environment. The hot surface air in this phenomenon is concentrated in urban regions and will gradually decrease in surrounding temperatures in suburban or rural regions. The effect of UHI can be seen through the increasing of land surface temperature and influencing the urban ecological systems, climates, and environments. A study has been conducted to identify the impact of urban heat island surrounding the PMU�s streetscape furniture. In this study, the UHI variation has been investigated using BEM and city scale model. The UHI obtained were analyzed and modeled using satellite imagery and GIS. The 3D models of the PMU�s fa�ade were also been developed by using a laser scanner and thermal camera. Based on the analyses, the existing condition of seven selected PMUs are very high for Bangsar, High for Abu Bakar Baginda, Jalan Meru and Batu 4 Kuantan, Medium-high for Kuantan North and Taman Jaya and medium for Setia Alam. Land Surface Temperature (LST) in PMU facade is ranging between 23 �C to55�C. Building information modeling (BIM) analysis shows that the existing material used in most PMU facades with solar reflectance was uniformly low to medium-low. Building information modelling (BIM) result shows the building will give greater heat flux (+42% to +53% at 3 pm) because of the solar reflectance (%) from the facades of surrounding streetscape material used. By obtaining the information regarding the elements and factors that contribute to the UHI phenomenon within the study area, the reduction of heat absorption can be performed. �BEIESP. Final 2023-05-29T07:23:25Z 2023-05-29T07:23:25Z 2019 Article 10.35940/ijeat.A2679.109119 2-s2.0-85074559890 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85074559890&doi=10.35940%2fijeat.A2679.109119&partnerID=40&md5=f15b4431a953d3849264c1343f28b7b0 https://irepository.uniten.edu.my/handle/123456789/24425 9 1 3520 3524 All Open Access, Bronze Blue Eyes Intelligence Engineering and Sciences Publication Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Streetscape elements are the major contributors to the urban heat island (UHI) phenomenon in the built urban environment. The hot surface air in this phenomenon is concentrated in urban regions and will gradually decrease in surrounding temperatures in suburban or rural regions. The effect of UHI can be seen through the increasing of land surface temperature and influencing the urban ecological systems, climates, and environments. A study has been conducted to identify the impact of urban heat island surrounding the PMU�s streetscape furniture. In this study, the UHI variation has been investigated using BEM and city scale model. The UHI obtained were analyzed and modeled using satellite imagery and GIS. The 3D models of the PMU�s fa�ade were also been developed by using a laser scanner and thermal camera. Based on the analyses, the existing condition of seven selected PMUs are very high for Bangsar, High for Abu Bakar Baginda, Jalan Meru and Batu 4 Kuantan, Medium-high for Kuantan North and Taman Jaya and medium for Setia Alam. Land Surface Temperature (LST) in PMU facade is ranging between 23 �C to55�C. Building information modeling (BIM) analysis shows that the existing material used in most PMU facades with solar reflectance was uniformly low to medium-low. Building information modelling (BIM) result shows the building will give greater heat flux (+42% to +53% at 3 pm) because of the solar reflectance (%) from the facades of surrounding streetscape material used. By obtaining the information regarding the elements and factors that contribute to the UHI phenomenon within the study area, the reduction of heat absorption can be performed. �BEIESP.
author2 57211597991
author_facet 57211597991
Roslan R.
Omar R.C.
Roslan R.
Baharuddin I.N.Z.
Wahab W.A.
Hari Z.
Dzulkifli N.A.
Sanusi K.A.
format Article
author Roslan R.
Omar R.C.
Roslan R.
Baharuddin I.N.Z.
Wahab W.A.
Hari Z.
Dzulkifli N.A.
Sanusi K.A.
spellingShingle Roslan R.
Omar R.C.
Roslan R.
Baharuddin I.N.Z.
Wahab W.A.
Hari Z.
Dzulkifli N.A.
Sanusi K.A.
Building information modelling (Bim) for estimation of heat flux from streetscape material
author_sort Roslan R.
title Building information modelling (Bim) for estimation of heat flux from streetscape material
title_short Building information modelling (Bim) for estimation of heat flux from streetscape material
title_full Building information modelling (Bim) for estimation of heat flux from streetscape material
title_fullStr Building information modelling (Bim) for estimation of heat flux from streetscape material
title_full_unstemmed Building information modelling (Bim) for estimation of heat flux from streetscape material
title_sort building information modelling (bim) for estimation of heat flux from streetscape material
publisher Blue Eyes Intelligence Engineering and Sciences Publication
publishDate 2023
_version_ 1806424598286172160
score 13.222552