Using Multiscale Atmospheric Modeling to Explore the Impact of Surface Albedo on Anthropogenic Heat Release

Abstract

Abstract Cities account for over 66% of global energy use and with over 68% of the population expected to live in urbanized areas by 2050, anthropogenic urban heat release is likely to become one of the most significant contributors to the creation of urban microclimates. In the present work, an open-source framework for one-way upstream coupled multiscale urban thermal environment simulations is examined and validated and can provide valuable insights about the flow behavior and energy transport between spatial scales. In this study, a city-wide multiscale model with over 500,000 building, road, and tree canopy data points parameterizing Atlanta, GA as a digital twin is developed and validated with a spatial scale of 5 m. The validated model is used to perform a parametric study on the implications bulk surface albedo (SA) has on the city's anthropogenic heat (AH) release in terms of heat flux. The study demonstrates that anthropogenic heat flux for building waste energy accounts for a small part of the total surface heat flux, and a detailed understanding of the components of urban heat (particularly with respect to total surface heat flux) is required to predict and simulate an urban thermal environment.