Association between Three-Dimensional Built Environment and Urban Air Temperature: Seasonal and Temporal Differences

Park, Cheolyeong; Ha, Jaehyun; Lee, Sugie

doi:10.3390/su9081338

Cited by 25 publications

(14 citation statements)

References 36 publications

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“…Second, selecting a time period for each season is also challenging. For example, Park et al [13] designated spring, summer, fall, and winter as April, August, October, and January, respectively. Notably, a few studies have divided the season based on climate conditions or by examining whether the average temperature is higher or lower than a certain degree [18,56].…”

Section: Literature Review: Effect Of Urban Factors On Temperaturementioning

confidence: 99%

“…The fundamental theories regarding the influence of building geometry on UHI were developed earlier by Nunez and Oke [9] and Oke [10], which has led to several empirical studies in recent years [9,10]. These studies focused on morphological indicators such as the sky view factor (SVF), urban porosity, and surface roughness [11][12][13]. Moreover, they suggested that the geometric configuration of buildings can affect the urban temperature both directly and indirectly by influencing other factors such as solar radiation and ventilation performances [14,15].…”

Section: Introductionmentioning

confidence: 99%

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Diurnal and Seasonal Variations in the Effect of Urban Environmental Factors on Air Temperature: A Consecutive Regression Analysis Approach

Choi

Lee

et al. 2020

IJERPH

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This study investigates the diurnal and seasonal variations in the effect of environmental features on air temperature in Seoul, Korea. We expect that this study will lead to the identification of factors that can be applied for urban heat island mitigation strategies in summer without leading to an unintended result in winter. As our dependent variable, we employed the smoothed 31-day moving average of air temperatures, where we controlled the seasonal variation by normalizing the values observed from 247 automatic weather stations (AWS) from 2015 to 2016. Subsequently, we conducted consecutive log–log regression analyses of each day to examine patterns of change in regression coefficients and the significance of each independent variable. For independent variables, we applied built environment features including albedo, land-use, average building floors, the sky view factor, and green and water areas. This study provides analytical results regarding the relationship between environmental factors and air temperature. This study also addresses imperative issues for planners, especially regarding albedo, wind path, building geometry, and land use types. Finally, this study gives useful insights for managing the diurnal and seasonal variations of urban thermal environment in the mega-city.

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Section: Literature Review: Effect Of Urban Factors On Temperaturementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Diurnal and Seasonal Variations in the Effect of Urban Environmental Factors on Air Temperature: A Consecutive Regression Analysis Approach

Choi

Lee

et al. 2020

IJERPH

Self Cite

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“…Average sky view factors (viewshed analysis; ArcGIS v10.5; e.g. Park et al 2017) for SRG and DRG indicate slightly more topographic shading and consequently a slightly lower share of clear sky visibility in the more elongated valley / cirque of DRG compared to the wider SRG cirque. For SRG an average sky view factor of 0.64 and for DRG of 0.61 is computed (with a standard deviation of 0.03 for both).…”

Section: Study Areamentioning

confidence: 99%

Controlling factors of microclimate in blocky surface layers of two nearby relict rock glaciers (Niedere Tauern Range, Austria)

Wagner

Pauritsch

Mayaud

et al. 2019

Geografiska Annaler: Series A, Physical Geography

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Coarse blocky material is known to have a ground cooling effect compared to other types of unconsolidated surface material, which may have an influence on spatial distribution and conservation of permafrost. In the light of climate warming, this effect may retard permafrost degradation or exert prolonged ground cooling in general. To contribute to a better understanding of this ground cooling effect and potential influencing factors, the thermal regime of blocky surface layers of two comparable nearby relict rock glaciers with opposing aspects was investigated. Air, surface and shallow ground temperature at 1 m depth were continuously measured over a four-year period at nine locations distributed over two rock glaciers. The blocky surface layer of the SWexposed rock glacier exhibits lower and more heterogeneous temperatures than the NE-oriented despite a higher potential solar radiation. The data suggest a thinner or more discontinuous seasonal snow cover at the SW-exposed rock glacier, causing a more efficient winter cooling. The importance of air flow driven heat transfer as a source of cooling is supported by the data. Results illustrate thermal heterogeneities within blocky layers and the importance of the seasonal snow cover pattern in addition to topography and microclimatic variability in high relief terrain is hypothesized.

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“…Simulation‐based methods have been developed to estimate the SVF on a large scale based on the digital surface model (DSM) and 3D building models (Chen et al., 2012). However, the simulation‐based method relies heavily on the high quality of DSM or 3D building models, which leads to the problem of affordability (Lindberg & Grimmond, 2010; Park, Ha, & Lee, 2017).…”

Section: Introductionmentioning

confidence: 99%

Positional error modeling of sky‐view factor measurements within urban street canyons

Wang

Tang

et al. 2021

Transactions in GIS

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The sky‐view factor (SVF) in the urban street canyon is a single point‐specific measurement that can only represent the ratio of the visible sky of a specific point. The positional error of the SVF observation point (PE‐SVFOP) to the measurement of the SVF for specific applications is often ignored. This study conducted a quantitative exploration of the positional error in SVF measurements (PE‐SVF) by comparing the SVF estimated at the desired SVF observation point and the corresponding actual SVF observation point. A numerical geometric‐based method was applied in urban street canyons with five typical aspect ratios to explore the effect of both the lateral and vertical positional error of SVF observation points on the measurement of SVF. An empirical case study using a simulation‐based method was then conducted with a 3D city model of a typical street canyon in Hong Kong. The empirical results show that the average and maximum PE‐SVFs were −0.0051 and 0.0181, respectively, and the average and maximum relative PE‐SVFs (RPE‐SVFs) were 7.68 and 20.37%, respectively. An open‐source toolbox was developed to evaluate the PE‐SVF and RPE‐SVF, which can assist specific SVF applications with a more comprehensive consideration of the PE‐SVF.

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Association between Three-Dimensional Built Environment and Urban Air Temperature: Seasonal and Temporal Differences

Cited by 25 publications

References 36 publications

Diurnal and Seasonal Variations in the Effect of Urban Environmental Factors on Air Temperature: A Consecutive Regression Analysis Approach

Diurnal and Seasonal Variations in the Effect of Urban Environmental Factors on Air Temperature: A Consecutive Regression Analysis Approach

Controlling factors of microclimate in blocky surface layers of two nearby relict rock glaciers (Niedere Tauern Range, Austria)

Positional error modeling of sky‐view factor measurements within urban street canyons

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