The surface energy balance in Mexico City

Atmospheric Environment. Part B. Urban Atmosphere Pub Date : 1992-12-01 DOI:10.1016/0957-1272(92)90050-3

T.R. Oke, G. Zeuner , E. Jauregui

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引用次数: 85

Abstract

Results of a field observation programme to investigate the surface energy balance of Mexico City, D.F., are presented. Direct measurements of net all-wave radiation and the turbulent sensible heat flux were conducted from a 28 m tower located about 4 km from the city centre. Heat storage in the urban fabric was parameterized and the turbulent latent heat flux was found by the residual in the energy balance equation. Most of the data were gathered in the dry season from February to the end of March 1985. The results from this tropical highland city resemble those from temperate cities in respect of the magnitude of the Bowen ratio and the diurnal trend in the amount of the net radiation partitioned into turbulent sensible heat. On the other hand, the role of heat storage is much larger than in the temperate case so that the partitioning of the sensible heat between turbulent and conductive transfer seems to be more nearly equal. Nevertheless evaporation appears to be an important term in both the surface water and energy balances. The nature of the energy balance may help explain some of the previously observed features of the heat island and humidity regimes of Mexico City.

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墨西哥城的地表能量平衡

本文介绍了墨西哥市地表能量平衡野外观测项目的结果。净全波辐射和湍流感热通量的直接测量是在距离市中心约4公里的一座28米高的塔上进行的。利用能量平衡方程中的余量，参数化了城市肌理的蓄热，得到了城市肌理的湍流潜热通量。大部分数据是在1985年2月至3月底的旱季收集的。这个热带高原城市的结果与温带城市的结果相似，在波温比的大小和湍流感热净辐射量的日变化趋势方面。另一方面，热储存的作用比温带情况下大得多，因此在湍流和导电传递之间分配的感热似乎更接近相等。然而，蒸发似乎是地表水和能量平衡中的一个重要术语。能量平衡的性质可能有助于解释先前观察到的墨西哥城热岛和湿度制度的一些特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Atmospheric Environment. Part B. Urban Atmosphere

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