Air pollution will increase the risk of respiratory diseases and death. It is an environmental issue that is of concern to the whole world. PM2.5 is a great threat to human health and is therefore been extensively studied. Due to the difficulty of identifying the source of PM2.5, effective prevention measures are hard to realized. However, it can be observed in the data of PM2.5 that if the sensor has similar fluctuation values, the influencing factors behind it may be the same. Therefore, this paper proposes a Mesoscale Air Quality Management Areas of PM2.5, in which local characteristics of air quality is studied in each area. Understanding local air quality characteristics can also help with pollution source identification, PM2.5 numerical prediction and other research. This study uses the open data of PM2.5 in Taiwan, the clustering technique of Haar wavelet transform and dynamic time warping techniques to improve the grouping accuracy. Without adding other additional geographical environment information, it can successfully partition the mesoscale air quality management area. The grouping results are in line with the local environment and can be reasonably explained, which can be highly correlated with the life style and topographic climate of the area.