Model study of the dynamics of the appearance of “heat islands” in urban territories

The purpose of the work is to develop a generalizing model of«thermal islands». The results of model studies of the dynamics of the occurrence of thermal islands in urban areas are presented. On the basis of known regression partial models linking population density with the surface temperature and the fractal size of the urban structure, as well as with the distance from the center of the area under consideration, taking into account the model of time dependence of fractal dimension, general equations showing the relationship of these indicators of the urban zone in dynamics are synthesized. Generalized equations of the temporal dynamics of the appearance of the effect of «thermal islands» in cities are obtained, taking into account the fractal dimension of urbanized zones.

fractals, thermal islands, urbanization, dynamics, model studies

1. Cui Y., Xu X., Dong J., Qin Y. Influence of urbanization factors non surface urban heat island intensity: a comparison of countries at different developmental phases // Sustainability. - 8 (8). - 706.doi:10.3390/su8080706.2016.

2. Lee K., Kim Y., Sung H.C., Ryu J., Jeon S.W. Trend analysis of urban heat island intensity according to urban area change in Asian mega cities // Sustainability. - 12 (1). - S. 112. doi:10.3390/su12010112.2019.

3. Chakraborty T., Lee X. A simplified urban-extent algorithm to characterize surface urban heat islands on a global scale and examine vegetation control on their spatiotemporal variability // International Journal of Applied Earth Observation and G. - 9 (4). - 606. doi:10.3390/su9040606.2017.

4. Agathangelidis, Cartalis, Santamouris.Integrating urban form, function and energy fluxes in aheat exposure indicator in view of intra-urban heat island assessment and climate change adaptation // Climate. - 7 (6). -S. 75. doi:10.3390/cli7060075.2019.

5. Shreevastava A., Bhalachandran S., McGrath G.S., Huber M., Rao P.S.C. Paradoxical impact of sprawling intra-urban heat islets: reducing mean surface temperatures while enhancing local extremes // Scientific reports. - 9 (1). doi:10.1038/s41598-019-56091-w.2019.

6. Hu D., Meng Q., Zhang L., Zhang Y. Spatial quantitative analysis of the potential driving factors of land surface temperature in different «centers» of polycentric cities: a case study in Tianjin, China // Science of the total environment. 135244. doi:10.1016/j.scitotenv.2019.135244.2019.

7. Lehoczky A., Sobrino J., Skokovic D., Aguliar E. The urban heat island effect in the city of Valencia; a case study for hot summer days // Urban Science. - 1 (1). 9. doi:10.3390/urbansci1010009.2017.

8. Zhou D., Xiao J., Bonafoni S., Berger C., Deilami K., Zhou Y., Sobrino J. Satellite remote sensing of surface urban heat islands: progress, challenges and perspectives // Remote Sensing. - 11 (1). - 48. doi: 10.3390/ rs11010048. 2018.

9. Souto J.I.O., Cohen J.C.P. Spatiotemporal variability of urban heat island: influence of urbanization on seasonal pattern of land surface temperature in the metropolitan region of Belem, Brazil // Urbe. Revista Brasileira de Gestao Urbana. - 2021. - Vol. 13. E20200260. https://doi.org/10.1590/2175-3369.013.e20200260.

10. Yanguang Chen. Fractal modeling and fractal dimension description of urban morphology // entropy 2020. - 22. - S. 961. doi:10.3390/e22090961.

11. Dushi M., Berila A. Determining the influence of population density on the land surface temperature based on remote sensing data and GIS techniques: application to Prizen, Kosovo // Sci. Rev. Eng. Env. Sci. - 31 (1). - S. 47-62. doi:10.22630/srees.2324.2022.

12. Guoqiang Shen. Fractal dimension and fractal growth of urbanized areas // Int. J. Geographical information science. - 2002. - Vol. 16. - No 5. - 419-437.

13. Tannier C., Pumain D. Fractals in urban geography: a theoretical outline and an empirical example // Cybergeo. - No 307. - 2005.