gram - sci和WRF模拟高山山谷地表能量收支和热驱动风的性能

IF 2.3 3区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Gaspard Simonet, Dietmar Oettl, Manuela Lehner
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引用次数: 0

摘要

以WRF为基准,对奥地利Inn valley的热驱动山谷风和斜坡风进行了gram - sci模拟。当地表能量收支的组成部分在当地地形和土地利用特征驱动下出现较大的空间异质性时,选择晴空、天气不受干扰的日子。这些模型主要是根据山谷中4个涡旋协方差站的观测结果进行评估的。虽然这两种模式都能够捕捉地表能量收支和局地驱动风场的主要特征,但发现了一些总体缺陷:(i)由于模式中地表能量收支是封闭的,而观测到较大的残差,因此模式通常倾向于高估日间感热通量和潜热通量。(二)在模拟中,将可用能量划分为感热通量和潜热通量的情况保持相对恒定,而观测到的鲍文比全天持续下降,因为感热通量和潜热通量的最大值之间存在时间偏移,而模式没有捕捉到这一点。模型结果与观测值之间的比较受到实际土地利用与模型中的植被类型之间差异的阻碍。最近对gram - sci中地表方案的修改改善了森林地区夜间垂直风的表现,将模拟的风速降低到更真实的值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Performance of GRAMM-SCI and WRF in Simulating the Surface-Energy Budget and Thermally Driven Winds in an Alpine Valley

The Performance of GRAMM-SCI and WRF in Simulating the Surface-Energy Budget and Thermally Driven Winds in an Alpine Valley
Abstract Using WRF as a benchmark, GRAMM-SCI simulations are performed for a case study of thermally driven valley- and slope winds in the Inn Valley, Austria. A clear-sky, synoptically undisturbed day was selected when large spatial heterogeneities occur in the components of the surface-energy budget driven by local terrain and land-use characteristics. The models are evaluated mainly against observations from four eddy-covariance stations in the valley. While both models are able to capture the main characteristics of the surface-energy budget and the locally driven wind field, a few overall deficiencies are identified: (i) Since the surface-energy budget is closed in the models, whereas large residuals are observed, the models generally tend to overestimate the daytime sensible and latent heat fluxes. (ii) The partitioning of the available energy into sensible and latent heat fluxes remains relatively constant in the simulations, whereas the observed Bowen ratio decreases continuously throughout the day because of a temporal shift between the maxima in sensible and latent heat fluxes, which is not captured by the models. (iii) The comparison between model results and observations is hampered by differences between the real land use and the vegetation type in the model. Recent modifications of the land-surface scheme in GRAMM-SCI improve the representation of nighttime katabatic winds over forested areas, reducing the modeled wind speeds to more realistic values.
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来源期刊
Boundary-Layer Meteorology
Boundary-Layer Meteorology 地学-气象与大气科学
CiteScore
7.50
自引率
14.00%
发文量
72
审稿时长
12 months
期刊介绍: Boundary-Layer Meteorology offers several publishing options: Research Letters, Research Articles, and Notes and Comments. The Research Letters section is designed to allow quick dissemination of new scientific findings, with an initial review period of no longer than one month. The Research Articles section offers traditional scientific papers that present results and interpretations based on substantial research studies or critical reviews of ongoing research. The Notes and Comments section comprises occasional notes and comments on specific topics with no requirement for rapid publication. Research Letters are limited in size to five journal pages, including no more than three figures, and cannot contain supplementary online material; Research Articles are generally fifteen to twenty pages in length with no more than fifteen figures; Notes and Comments are limited to ten journal pages and five figures. Authors submitting Research Letters should include within their cover letter an explanation of the need for rapid publication. More information regarding all publication formats can be found in the recent Editorial ‘Introducing Research Letters to Boundary-Layer Meteorology’.
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