Estimates of the anthropogenic heat flux (AHF) generated by megacities of the Russian Federation during the heating period are obtained. To calculate the AHF value, two-dimensional models were created taking into account the height, number of floors and the type of buildings for sixteen cities with a population of at least one million people. The source data is obtained from the OpenStreetMap open web mapping platform and the Yandex Maps website. Two algorithms for calculating AHF using building codes, thermophysical properties of enclosing structures and the difference between internal and external air temperatures are considered. The first algorithm uses the basic value of the required heat transfer resistance of the enclosing structure, the second – the calculated value of the specific characteristic of the consumption of thermal energy for heating and ventilation of the building. The AHF is assessed from the territory of the city within the administrative boundaries and from the urbanized territory, which is defined by multi-store buildings. Maps of the spatial distribution of AHF density are provided for the four largest megacities: Moscow, St. Petersburg, Novosibirsk and Yekaterinburg.
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