蒸散量
多重分形系统
缩放比例
间歇性
风速
绿色屋顶
环境科学
气象学
级联
焊剂(冶金)
相对湿度
大气科学
数学
屋顶
地理
湍流
分形
地质学
几何学
生态学
数学分析
冶金
材料科学
化学
考古
生物
色谱法
作者
Arun Ramanathan,Pierre‐Antoine Versini,Daniel Schertzer,Ioulia Tchiguirinskaia,Rémi Perrin,Lionel Sindt
标识
DOI:10.5194/egusphere-egu23-7767
摘要
AbstractSeveral equations and their simplified versions already exist for estimating evapotranspiration. Still, the practical difficulty in using them is that they contain too many variables and empirical parameters including some non-atmospheric vegetation-based ones which may not be appropriate for all plant types. Therefore, a simple empirical equation is suggested here to approximately estimate evapotranspiration loss in a deterministic manner as a function of the green roof’s water content, ambient air temperature, wind speed, relative humidity, and total net radiation flux. For nonlinear processes such as evapotranspiration clearly, such deterministic estimates are not representative of the extreme values observed in evapotranspiration losses. Therefore, a universal multifractal-based simulation procedure is proposed here to improve such deterministic estimates, so that the simulated evapotranspiration loss has realistic intermittency and temporal scaling behaviour, while preserving its diurnal variability. KeywordsMultifractals, Non-linear geophysical systems, Cascade dynamics, Scaling, Hydrology, Meteorology. 
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