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考虑地貌修正的基本风压计算方法研究 被引量:8
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作者 陈凯 金新阳 钱基宏 《北京大学学报(自然科学版)》 EI CAS CSCD 北大核心 2012年第1期13-19,共7页
提出根据气象台站的每日极大风速和最大风速记录修正非标准地貌风速记录的方法。采用该方法对北京和大连气象站的风速数据进行分析计算,得到50年重现期的基本风速,并与原数据的计算结果进行比较。因为修正系数将各年最大风速都转换到标... 提出根据气象台站的每日极大风速和最大风速记录修正非标准地貌风速记录的方法。采用该方法对北京和大连气象站的风速数据进行分析计算,得到50年重现期的基本风速,并与原数据的计算结果进行比较。因为修正系数将各年最大风速都转换到标准地貌下的对应值,所以修正后的年最大风速数据呈现良好的平稳性特征。最大似然估计的假设检验表明极值Ⅰ型分布是年最大风速的有效统计模型,同时也说明所提出的数据修正方法的有效性。因此在计算基本风压时,应当对非标准地貌条件下获得的气象数据进行修正,以获得可靠结果。 展开更多
关键词 基本风压 阵风系数 地面粗糙长度 极值分布 最大似然估计
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Development and test of a multifactorial parameterization scheme of land surface aerodynamic roughness length for flat land surfaces with short vegetation 被引量:3
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作者 ZHANG Qiang YAO Tong YUE Ping 《Science China Earth Sciences》 SCIE EI CAS CSCD 2016年第2期281-295,共15页
Aerodynamic roughness length is an important physical parameter in atmospheric numerical models and microme- teorological calculations, the accuracy of which can affect numerical model performance and the level of mic... Aerodynamic roughness length is an important physical parameter in atmospheric numerical models and microme- teorological calculations, the accuracy of which can affect numerical model performance and the level of micrometeorological computations. Many factors influence the aerodynamic roughness length, but formulas for its parameterization often only con- sider the action of a single factor. This limits their adaptive capacity and often introduces considerable errors in the estimation of land surface momentum flux (friction velocity). In this study, based on research into the parameterization relations between aerodynamic roughness length and influencing factors such as windrow conditions, thermodynamic characteristics of the sur- face layer, natural rhythm of vegetation growth, ecological effects of interannual fluctuations of precipitation, and vegetation type, an aerodynamic roughness length parameterization scheme was established. This considers almost all the factors that af- fect aerodynamic roughness length on flat land surfaces with short vegetation. Furthermore, using many years' data recorded at the Semi-Arid Climate and Environment Observatory of Lanzhou University, a comparative analysis of the application of the proposed parameterization scheme and other experimental schemes was performed. It was found that the error in the friction velocity estimated by the proposed parameterization scheme was considerably less than that estimated using a constant aero- dynamic roughness length and by the other parameterization schemes. Compared with the friction velocity estimated using a constant aerodynamic roughness length, the correlation coefficient with the observed friction velocity increased from 0.752 to 0.937, and the standard deviation and deviation decreased by about 20% and 80%, respectively. Its mean value differed from the observed value by only 0.004 m s-l and the relative error was only about 1.6%, which indicates a significant decrease in the estimation error of surface-layer momentum flux. The test results show that the multifactorial universal parameterization scheme of aerodynamic roughness length for flat land surfaces with short vegetation can offer a more scientific parameteriza- tion scheme for numerical atmospheric models. 展开更多
关键词 Flat land surface with short vegetation Multifactorial influence Aerodynamic roughness length Parameterizationscheme Friction velocity
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