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High-resolution urban-scale impact of retro-reflective façade materials on building thermal load
Marko Bizjak, Domen Mongus, Niko Lukač, Jihui Yuan, 2025, original scientific article

Abstract: This paper presents a high-resolution urban-scale evaluation of the impact of retro-reflective (RR)facade materials on building thermal load. Unlike earlier studies limited to isolated buildings or simplified geometries, we integrate LiDAR-derived 3D city models, local meteorological data, and per-triangle thermal load simulation to quantify seasonal thermal load impact on an urban scale. The triangle-based framework enables detailed estimation of shading, orientation, and vegetation effects under realistic urban configurations. The methodology was applied to 914 buildings in Celje, Slovenia, represented by more than seven million building surface triangles. Results show that Prism RR material increased annual heating demands by 2.1 % and reduced cooling demands by 0.76 %, while Glass bead material increased heating by 1.6 % and reduced cooling by 0.65 %. On the days of maximum city-aggregate cooling demand reduction, Prism and Glass bead materials reduced cooling demands by upto 19.31 % and 15.39 %,respectively. These location-specific results demonstrate a seasonal trade-off, where reduced summer cooling demand is counter balanced by increased heating demand. The analysis also identifies a previously underreported seasonal asymmetry, with the highest heating demand increases occurring in spring when solar irradiation is high yet heating demand remains.
Keywords: thermal load, lagre scale, retro-reflective materials, glass bead, prism
Published in DKUM: 12.12.2025; Views: 0; Downloads: 0
Full text (33,67 MB)

Investigating the influence of reflective materials on indoor thermal environment and solar reflectance in buildings
Jihui Yuan, Yasuhiro Shimazaki, Masaki Tajima, Shaoyu Sheng, Zhichao Jiao, Marko Bizjak, 2024, original scientific article

Abstract: This in-depth study explores the intricate dynamics of reflective materials, emphasizing their impact on the indoor thermal environment and urban heat island (UHI) mitigation. Examining diffuse highly reflective (DHR), general reflective (GR), and retro-reflective (RR) materials on a simplified building model during summer days, the research utilizes outdoor experiments to analyze air and surface temperatures, as well as solar radiation. Prioritizing key metrics—mean radiant temperature (MRT), operative temperature (OT), and solar reflectance (ρ)—the study uncovers nuanced distinctions in DHR, GR, and RR materials. Solar reflectance calculations consistently show higher values for DHR and RR materials compared to GR material, highlighting reflectance's pivotal role in influencing surface temperatures and indoor thermal environment. When evaluating the impact of exterior wall materials on building temperatures, RR material with a 76% reflectance performs similarly to DHR material (82%). Notably, with a 6% lower reflectance in RR, the temperature contrast between external and internal walls is only about 1.5 °C at its maximum, underscoring RR's effectiveness as an outer wall material for UHI mitigation and building energy conservation, surpassing both DHR and GR materials.
Keywords: urban heat island, reflective materials, indoor thermal environment, solar reflectance, simplified building model
Published in DKUM: 23.08.2024; Views: 110; Downloads: 12
Full text (4,82 MB)
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