城市峡谷能量收支模拟[j]。模型结果与测量值的比较

Gerald M. Mills, A.John Arnfield
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引用次数: 25

摘要

一个简单的数值模型试图模拟城市峡谷的能量收支,通过将其预测结果与城市野外测量结果进行比较来评估。选择一条满足许多模型要求的街道,并设计了一个测量方案来测量变量,这些变量也被模拟。该模型使用从现场收集的输入信息运行,并将生成的数据与实测数据进行比较。结果表明,该模式能够较准确地模拟峡谷顶部的地表温度和净辐射等气候属性,但不能模拟峡谷与环境之间感热交换的主要机制。然而,该模型预测了一个小而基本不变的交换,与测量结果相似。与其他已发表的工作相比,实地研究的结果表明,随着街道峡谷变得越来越窄,它们在与上垫大气的热交换方面变得越来越孤立。计算机运行的结果似乎遵循这种模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation of the energy budget of an urban canyon—II. Comparison of model results with measurements

A simple numerical model that attempts to simulate the energy budget of an urban canyon is assessed by comparing its predictions against measurements made at an urban field site. A street is chosen that satisfieds many of the model's requirements and a measurement scheme is devised to measure variables which are also simulated. The model is run using input information collected from the field and the data produced are compared with the measured data. The results indicate that the model is capable of simulating many of the climate attributes (such as surface temperatures and net radiation at the canyon top) accurately, but does not simulate the dominant mechanism of sensible heat exchange between the canyon and its environment. Nevertheless, the model predicts a small and largely invariant exchange, similar to that measured. The results of the field study, when compared with other published work, indicates that as street canyons become narrower they become increasingly isolated in terms of heat exchange from the overlying atmosphere. The results of the computer runs appear to follow this pattern.

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