填补了昆明地区基于遥感城市热环境研究的空白。
This research fill the gap of studies on city thermal environment of Kunming area based on remote sensing.
硬化路面是城市热环境效应影响因素中较为重要的一个因素。
城市热环境的空间格局对城市微气候、城市生态环境演变有重要影响。
Spatial thermal environment has a full impact on microclimate and urban zoology.
透水铺装具有缓解城市防洪压力、涵养地下水源、改善城市热环境等特点。
Pervious surfaces could decrease the urban storm peak, conserve rainfall in the underground, and reduce the high air temperature of city.
因此,RS、GIS综合技术可以经济、直观、高效实现城市热环境的空间定量研究。
Therefore, quantitative study of heat environment can be come true by the integrated technique of RS and GIS economically, visually and effectively.
受城市热环境的影响,广州及其附近的站点裸地和草地的温度指标也相应高于周边地区。
Due to the urban heat island, the bare and grass land surface temperatures in Guangzhou as well as in the nearby stations were relatively higher than that of the around areas.
影响城市热环境的因素有很多,其中地表覆盖类型是热效应影响因素中较为重要的一个。
There are many factors affecting the heat effect, and the earth surface cover is the key one.
介绍了GIS在城市规划中的应用和热岛与城市规划的相互关系,并探讨能否将GIS与城市热环境相结合运用于城市规划设计中。
The main aim of the paper is to find ways to connect urban heat environment with GIS system and use them in urban planning .
针对以往空间热环境分析模型的不足,在遥感、地理信息系统支持下,创建了基于人工神经网络和遗传算法的城市热环境非线性定量分析模型。
With the support of GIS and RS, efforts were made to develop a quantitative analysis model of urban spatial thermal environment based on genetic algorithms back propagation and genetic algorithms.
本论文的研究性质为利用CFD技术模拟山地城市临江大型建筑的室内外热环境。
This paper belongs to applying CFD technology to simulate the indoor and outdoor thermal environment of large construction beside the river in mountain city.
建筑外表面对流换热系数是建筑节能和城市环境模拟中的重要参数。
The convective heat transfer coefficient(CHTC) of building exterior surface is an important parameter for energy-saving and urban environment simulation.
但目前城市规模的扩大,使得城市热岛效应日趋显著,城市户外热环境变化趋势不容乐观。
However, Enlargement of the scale of urban accelerates the heat island effect of urban, and the change trend of urban outdoor thermal environment increasingly worry us.
城市的扩展、能源的消耗和自然环境的破坏给城市区域微热环境造成了消极影响。
With the city expanding, energy consumption and environment destroying show negative effect on the thermal micro-environment of urban areas.
随着城市化速度的加快,热环境诸因素的变化也更显著。
With the speed of urbanization, the variation of environmental heat factors is obvious.
良好的城市风环境可以将城市的热量排放出去从而改善热环境,而城市的规划方式对风环境的运行有很大影响。
Good urban wind environment can discharge urban heat to improve the thermal environment, the urban planning has a great influence on the operation of wind environment.
良好的城市风环境可以将城市的热量排放出去从而改善热环境,而城市的规划方式对风环境的运行有很大影响。
Good urban wind environment can discharge urban heat to improve the thermal environment, the urban planning has a great influence on the operation of wind environment.
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