Numerical Simulation of Local Climate Zone Cooling Achieved through Modification of Trees, Albedo and Green Roofs—A Case Study of Changsha, China

Chen, Yaping; Zheng, Bohong; Hu, Yinze

doi:10.3390/su12072752

Cited by 35 publications

(12 citation statements)

References 88 publications

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“…In all future scenarios, but especially in TBS and MTC, taller buildings (predominantly mixed use, and with a larger footprint) underperformed in terms of tree-based reductions in total SRA and BCED. This observation is supported by other modelling research noting lower cooling effects in areas with tall buildings despite increasing trees (by 30% or 60%; Chen et al 2020). The lower tree shading impact for these taller/larger buildings in TBS and MTC can also be attributed to the generally smaller tree sizes associated with the climate-adapted species used.…”

Section: Research Implicationssupporting

confidence: 74%

Impact of 2050 tree shading strategies on building cooling demands

Czekajlo,

Alva,

Szeto

et al. 2023

Buildings and Cities

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As urban heatwaves become more severe, frequent and longer, cities seek adaptive building cooling measures. Although passive building design, energy-efficient materials and technologies and mechanical means are proven cooling methods, the potential of naturebased solutions (particularly trees as shading elements) has been understudied despite its significant opportunity. Using a new framework to explore this at the neighbourhood level, three future (2050) potential tree planting strategies are modelled for increasing tree volume and canopy cover and their impacts assessed for summer building-level solar radiation absorption (SRA) and building cooling energy demand (BCED) for a densifying neighbourhood in Vancouver, Canada. The boldest tree planting strategy, with 287% more trees than baseline and 16% canopy cover, reduced neighbourhood-scale total SRA (22%) and BCED (48%) over a no-trees scenario. BCED reductions of up to 64% for retrofitted/redeveloped buildings and 53-79% for low/medium-height buildings (mostly single-family residential) were associated with targeted south-side tree planting. Taller/ larger buildings (predominantly mixed use) and buildings along north-south-oriented streets (mainly commercial and mixed use) encountered more tree shading challenges and would require more site-specific interventions. The methodology presented provides a framework to assess current and potential future shading and cooling energy benefits through various tree planting strategies. PRACTICE RELEVANCEThis research illustrates the tree shading and cooling potential to improve indoor liveability, reduce energy demand and reduce vulnerabilities amidst mounting extreme heat risks. This novel framework and method can be used by planners and urban designers to understand the potential cooling reduction and to develop tree planting and management strategies for effective shading and indoor cooling at the neighbourhood scale. Based on a case study neighbourhood in Vancouver for 2050 climate scenarios, this 818 Czekajlo et al. Buildings and Cities

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Section: Research Implicationssupporting

confidence: 74%

Impact of 2050 tree shading strategies on building cooling demands

Czekajlo,

Alva,

Szeto

et al. 2023

Buildings and Cities

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“…Urban nature has been widely recognized as an important part of urban infrastructure providing a variety of ecosystem functionalities and services, contributing to sustainable urban development [5]. Findings of empirical investigations have indicated that the presence of natural areas and green infrastructures in cities has the potential to fend off the adverse challenges on vulnerable urban environments and positively affects the life quality of inhabitants [6][7][8][9][10][11]. Consequently, investigations on people's comfort perception related to urban nature and green infrastructure grows steadily [12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Perceived Quality of Urban Wetland Parks: A Second-Order Factor Structure Equation Modeling

Pan

You

et al. 2020

Sustainability

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Wetland in the urban or peri-urban areas has been recognized as an important component of urban ecosystems and provides ecological and environmental services. Wetland park emerged as a kind of restoration of natural wetlands in the context of increasing pressure on land and eco-environment caused by urban sprawl, which has played an essential role in providing recreational spaces/opportunities and improving social interactions. However, little research has been conducted on the theoretical formulation elaborating individuals’ perceived quality of wetland parks when people are engaging in activities therein. This study is an attempt to develop a method to measure the quality of wetland parks based on individuals’ various perceptions and attitudes. From the view of human-nature interaction, the perceived quality is hypothetically conceptualized as a composite of two dimensions, such as comfort perception and environmental satisfaction. A series of questionnaire-based surveys were conducted among respondents (N = 936) in Yanghu wetland park in Changsha, China. Based on the measured items from on-site surveys, second-order factor structural equation modeling is applied to estimate the hypothesis of a hierarchical structure for elaborating how the quality of wetland park is perceived by individual respondents. The results test the hypothesis that the quality of wetland park as a second-order theoretical construct can be conceptualized by two first-order theoretical constructs, individuals’ comfort (loading = 0.749), and environmental satisfaction (loading = 0.828). In addition, a significant influence of attitudes toward green space on the perceived quality of wetland park has been identified.

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“…A total of 168 datapoints Surface parameter extraction from satellite images LST patterns have been linked with air temperature by various researchers (Anbari et al, 2019;Hooker et al, 2018;Unger et al, 2009). Few studies have elaborated the effects of albedo properties and vegetation cover on heat retention and dissipation (Akbari et al, 2001;Chen et al, 2020). Based on such previous observations, four parameters were selected as independent variables to model maximum T a .…”

Section: Dataset Descriptionmentioning

confidence: 99%

Ambient temperature modelling from surface characteristics and associating urban morphology with thermal discomfort

Dutta,

Basu,

Agrawal

2024

Singap J Trop Geogr

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Urban heat island assessment is of paramount importance when monitoring microclimate changes, increased heat stress, mortality and energy consumption. Simply analysing land surface temperature patterns for human comfort and health assessment is often inadequate. In this study, we attempt to resolve this inadequacy with ambient temperature modelling from multiple surface characteristics for a tropical megacity. A 336 datapoint‐based multilinear regression model was formulated to predict the maximum summer air temperature with a mean absolute error of 0.694°C. Specific locations of critical thermal environments were demarcated with Getis‐Ord statistic. Based on our results, extreme hotspots covered 10.53 per cent of the city on a daily basis at 99 per cent confidence level. The application of an outdoor thermal comfort index highlighted the existence of very strong heat stress zones over 14.67 per cent of the study area. The air temperature hotspots were verified with intra‐urban variation in carbon sequestration. This environmental parameter was used to strengthen the observed results since, carbon sequestration directly links urbanization with degradation of thermal environments. Further, five urban morphological parameters were analysed to conclude that building density and height were the most significant urban design factors leading to increased air temperature. Simultaneous local climate zone mapping depicted that heat islands were dominated by mid and high‐rise built‐up areas, of which 68.44 km2 of that area is suitable for vertical and roof gardening. Another 33.29 km of road stretch was delineated within low‐rise built‐up areas with scope for green landscaping to improve urban sustainability.

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Numerical Simulation of Local Climate Zone Cooling Achieved through Modification of Trees, Albedo and Green Roofs—A Case Study of Changsha, China

Cited by 35 publications

References 88 publications

Impact of 2050 tree shading strategies on building cooling demands

Impact of 2050 tree shading strategies on building cooling demands

Perceived Quality of Urban Wetland Parks: A Second-Order Factor Structure Equation Modeling

Ambient temperature modelling from surface characteristics and associating urban morphology with thermal discomfort

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