Climate and Urban Approach

Approach to climate and cities Analyzing regional climate and city geography, summer is somewhat hot and calm, with cool nights and calm winds. The average temperature in July is 93 ° F, but the average temperature in January is 44 ° F. In January this will bring cooler temperatures and 17-inch rain. The streets are drawn in a grid and the tree-lined streets create a dark environment. This area is a landscape with a relatively high groundwater level (Louw).

This suggests that finding the home capital or the world's biggest city of the same language may be a bad approach when the city considers the best way to cope with climate change I will. Conversely, basic urban characteristics such as population size, income level, economic structure and so on can be a better indicator of urban climate background. Automobiles are the main source of emissions. In fact, in the United States, transportation has become the largest source of emissions recently. But for urban dwellers, especially people living in wealthy and densely populated urban areas, what you eat, how much you waste, and how you handle waste may be more important not

The urban environment is classified as an anthropogenic biome and features the benefits of a particular species and the climate trends spread to many urban areas such as the city's heat island. Examples of characteristics of species in many urban environments are cats, dogs, mosquitoes, rats, flies, pigeons, etc. These are all generalists. Many of them rely on human activities and adapt to the niche created by the city center. The studies to date show that, on a small scale, urbanization tends to reduce non-native species biodiversity, while decreasing native species biodiversity. This generally reduces species abundance globally and increases the total biomass and species quantity. Urbanization was also large-scale and reduced diversity

How the city shape of the transformation affects the urban climate, and therefore the thermal comfort of humans, is the main concern of urban planners. In this study, we analyze the impact of urban climate on urban climate using simulation method and describe understanding of this climate from a quantitative point of view. The Geographicical Building Database is used to characterize the two aspects that are widely discussed, the Urban Heat Island Effect (UHI) and the wind dynamics. Use the ArcGIS embedded computer program to simulate Sky View Factor (SVF) and Front Areal Density (FAD) parameters to relate city geometry to UHI and wind conditions. Simulation results were classified jointly and evaluated different urban climatic conditions based on thermal comfort considerations. Then we will generate a climate map to carry out classification