Effects of Foliage and Sky View Factor on the Urban Thermal Environment.

Open space is an important part of Campus, also has an important influence to the thermal environment of campus. The measurement of summer outdoor thermal environment of campus open space showed that: the piloti can effectively improve the thermal environment in hot summer; underlying surface materials, sky view factor has a great influence on the outdoor thermal environment. Using appropriate surface structure, increasing piloti and increasing square shading are suggested as outdoor thermal environment optimizing measures based the measure results. Advices were given for hot environment design and passive energy saving design

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The Influence of Sky View Factor on Daytime and Nighttime Urban Land Surface Temperature in Different Spatial-Temporal Scales: A Case Study of Beijing

Remote Sensing ◽

10.3390/rs13204117 ◽

2021 ◽

Vol 13 (20) ◽

pp. 4117

Author(s):

Qiang Chen ◽

Qianhao Cheng ◽

Yunhao Chen ◽

Kangning Li ◽

Dandan Wang ◽

...

Keyword(s):

Surface Temperature ◽

Land Surface Temperature ◽

Land Surface ◽

Thermal Environment ◽

Experimental Results ◽

View Factor ◽

Temporal Scales ◽

Building Height ◽

Sky View Factor ◽

The Impact

Urban building morphology has a significant impact on the urban thermal environment (UTE). The sky view factor (SVF) is an important structure index of buildings and combines height and density attributes. These factors have impact on the land surface temperature (LST). Thus, it is crucial to analyze the relationship between SVF and LST in different spatial-temporal scales. Therefore, we tried to use a building vector database to calculate the SVF, and we used remote sensing thermal infrared band to retrieve LST. Then, we analyzed the influence between SVF and LST in different spatial and temporal scales, and we analyzed the seasonal variation, day–night variation, and the impact of building height and density of the SVF–LST relationship. We selected the core built-up area of Beijing as the study area and analyzed the SVF–LST relationship in four periods in 2018. The temporal experimental results indicated that LST is higher in the obscured areas than in the open areas at nighttime. In winter, the maximum mean LST is in the open areas. The spatial experimental results indicate that the SVF and LST relationship is different in the low SVF region, with 30 m and 90 m pixel scale in the daytime. This may be the shadow cooling effect around the buildings. In addition, we discussed the effects of building height and shading on the SVF–LST relationship, and the experimental results show that the average shading ratio is the largest at 0.38 in the mid-rise building area in winter.

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Tree planting indices and their effects on summer park thermal environment: A case study of a subtropical satellite city, China

Indoor and Built Environment ◽

10.1177/1420326x20977614 ◽

2020 ◽

pp. 1420326X2097761

Author(s):

Wei Guo ◽

Bin Cheng ◽

Chunlu Wang ◽

Xinyu Tang

Keyword(s):

Leaf Area Index ◽

Leaf Area ◽

Thermal Environment ◽

Urban Forestry ◽

Urban Environments ◽

Tree Planting ◽

View Factor ◽

Radiation Level ◽

Area Index ◽

Sky View Factor

Urban residents are suffering from serious thermal stress resulting from urban heat island and global warming. Investigators have explored several methods to address this issue. Vegetation, especially trees, were found to play a vital part in urban environments. It produces a cooling effect by reducing temperature and radiation levels. To find thermal performances of trees in detail, this study physically measured two urban parks during August 2019 in a satellite city of China regarding their thermal environments relevant to tree planting indices. There were three planting indices used, sky view factor, leaf area index and enclosure area. Through associating them with thermal indicators by linear regression, all of the indices were confirmed to have significant thermal effects. Every 0.1 increase in sky view factor resulted in an increase of 1°C air temperature, 0.16 m/s air velocity, 40 W/m2 solar radiation level and 1.6°C mean radiant temperature. Same effects were found in nearly 0.4 leaf area index decrease and approximately 20 m2 enclosure area increase. These results provide very optimistic directions for future urban forestry planning and landscaping.

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Sky View Factor-based correlation of landscape morphology and the thermal environment of street canyons: A case study of Harbin, China

Building and Environment ◽

10.1016/j.buildenv.2019.106587 ◽

2020 ◽

Vol 169 ◽

pp. 106587 ◽

Cited By ~ 3

Author(s):

Guanghao Li ◽

Zhihui Ren ◽

Changhong Zhan

Keyword(s):

Thermal Environment ◽

View Factor ◽

Street Canyons ◽

Sky View Factor ◽

Landscape Morphology

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Influence of sky view factor on outdoor thermal environment and physiological equivalent temperature

International Journal of Biometeorology ◽

10.1007/s00484-014-0841-5 ◽

2014 ◽

Vol 59 (3) ◽

pp. 285-297 ◽

Cited By ~ 42

Author(s):

Xiaodong He ◽

Shiguang Miao ◽

Shuanghe Shen ◽

Ju Li ◽

Benzhi Zhang ◽

...

Keyword(s):

Thermal Environment ◽

View Factor ◽

Equivalent Temperature ◽

Physiological Equivalent Temperature ◽

Sky View Factor ◽

Outdoor Thermal Environment

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Correlating the Sky View Factor with the Pedestrian Thermal Environment in a Hot Arid University Campus Plaza

Sustainability ◽

10.3390/su13020468 ◽

2021 ◽

Vol 13 (2) ◽

pp. 468

Author(s):

Randa Osama Shata ◽

Ayman Hassaan Mahmoud ◽

Mohammad Fahmy

Keyword(s):

Thermal Environment ◽

Field Measurements ◽

Urban Trees ◽

View Factor ◽

University Campus ◽

Physiological Equivalent Temperature ◽

Area Index ◽

Comfort Index ◽

Sky View Factor ◽

The Impact

In hot, arid regions on university campuses, students are more vulnerable to heat stresses than in street canyons in terms of function; however, the knowledge of the impact of built environments on thermal performance is still lacking. In two summer and winter days, the shading effect of the existing urban trees pattern in a university campus in Egypt was examined to correlate their Sky View Factor (SVF) with the thermal environment, meteorology, Physiological Equivalent Temperature (PET), and Universal Thermal Comfort Index (UTCI). The ENVI-met model was used in order to assess meteorological parameters, followed by SVF calculation in the Rayman program. Meteorological field measurements validated the simulation model and measured the Leaf Area Index (LAI) of two native urban trees to model the in-situ canopies foliage. In summer, the results showed a significant direct impact of the SVF on mean radiant temperature (Tmrt), PET, and UTCI; however, the excessive shading by trees on materials with a low albedo and low wind speed could lead to a slight increase in air temperature. Meanwhile, in the winter, SVF did not affect the microclimatic variables, PET, or UTCI. The resulting insight into the correlation between SVF and Tmrt emphasizes the importance of urban trees in modifying the microclimates of already-existing university plazas.

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