2021
DOI: 10.3390/ijerph18041790
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Mechanisms and Empirical Modeling of Evaporation from Hardened Surfaces in Urban Areas

Abstract: Urban evaporation, as an essential part of local water vapor resources in urban areas, has often been underestimated. One possible reason is that the evaporation of urban hardened surfaces is seldom considered and poorly understood in urban evaporation estimation. This study focused on the mechanisms and calculation of evaporation on hardened surfaces in urban areas. Experimental monitoring was used to monitor the processes and characteristics of evaporation on hardened surfaces. Mathematical models based on w… Show more

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Cited by 11 publications
(14 citation statements)
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“…The amount of water applied to hardened ground can be expressed as: Eshgoodbreak=HA×Anormalr10.25emAr where E sh is the amount of artificial sprinkling water applied to hardened ground (mm), H A is the road sprinkling depth (mm), A r1 is the area of urban roads where sprinkler operations occur (km 2 ), and A r is the total road area (km 2 ). According to surveys, a sprinkler with a volume of 8 m 3 has a sprinkler width of 2.5 m and a road length of 5 km, indicating a sprinkler depth of approximately 0.65 mm (Zhou et al, 2021).…”
Section: Methodsmentioning
confidence: 99%
“…The amount of water applied to hardened ground can be expressed as: Eshgoodbreak=HA×Anormalr10.25emAr where E sh is the amount of artificial sprinkling water applied to hardened ground (mm), H A is the road sprinkling depth (mm), A r1 is the area of urban roads where sprinkler operations occur (km 2 ), and A r is the total road area (km 2 ). According to surveys, a sprinkler with a volume of 8 m 3 has a sprinkler width of 2.5 m and a road length of 5 km, indicating a sprinkler depth of approximately 0.65 mm (Zhou et al, 2021).…”
Section: Methodsmentioning
confidence: 99%
“…In Dongcheng District, it exceeded 80 thousand m 3 for every season, with more than 120 thousand m 3 in summer. Districts with lower figures are in suburbs with a less permanent population, including the Shijingshan, Mentougou, Yanqing, Huairou, Miyun, and Pinggu districts, with the evaporation amount generated in each season less than 120 thousand m 3 .…”
Section: Distribution Of Human Body Perspiration In Different Seasonsmentioning
confidence: 99%
“…According to the forecast of the United Nations Population Division, the urbanization rate of every developing country or region in the world will exceed 50% in 2030, and two-thirds of the population will live in cities by 2050 [ 2 ]. With the rapid urbanization process, human beings continue to congregate in urban areas, and urban transformation activities are becoming more frequent [ 3 , 4 ], altering the original water cycle system from a single cycle dominated by nature to a cycle dominated by both nature and human society, which is called a natural-social dualistic water cycle system [ 5 ]. As an essential part of the urban water cycle process, urban regional evapotranspiration [ 6 , 7 ] is an important source of urban water vapor, and it has a significant impact on urban microclimate changes and water cycle flux calculations [ 8 ], including outdoor natural water evaporation and indoor water dissipation from humans [ 9 , 10 , 11 ].…”
Section: Introductionmentioning
confidence: 99%
“…Previous studies have mainly analyzed and calculated urban natural ET (Meng & Zhang, 2019; Ramamurthy & Bou‐Zeid, 2014; Van Stan et al, 2017; Zhou et al, 2021), the research objects are mostly impervious surfaces, soil, trees, etc. And several methods have been used to estimate urban ET, including the water and heat balance method, aerodynamics, and Penman–Monteith.…”
Section: Introductionmentioning
confidence: 99%
“…The BWE is mainly influenced by the number of building floors (Liu et al, 2018), the level of economic development (Bao & Chen, 2015; Duarte et al, 2014; Guo, Li, et al, 2021; Wang & Li, 2018; Yoo, 2007; Zhang et al, 2021), and the type of water use activity (Zhou et al, 2019). Water evaporation inside buildings is more stable than ET in urban open‐air environments (Zhou et al, 2019), and outdoor ET is more susceptible to rainfall or air temperature (Zhou et al, 2021). The daily water use activities of humans in buildings are relatively stable.…”
Section: Introductionmentioning
confidence: 99%