Despite decades of research seeking to derive the urban energy budget, the dynamics of thermal exchange in the densely constructed environment is not yet well understood. Using New York City as a study site, we present a novel hybrid experimental-computational approach for a better understanding of the radiative heat transfer in complex urban environments. The aim of this work is to contribute to the calculation of the urban energy budget, particularly the stored energy. We will focus our attention on surface thermal radiation. Improved understanding of urban thermodynamics incorporating the interaction of various bodies, particularly in high rise cities, will have implications on energy conservation at the building scale, and for human hea...
The recently launched H2020-Space project URBANFLUXES (URBan ANthrpogenic heat FLUX from Earth obser...
The recently launched H2020-Space project URBANFLUXES (URBan ANthrpogenic heat FLUX from Earth obser...
This study aims to characterize the seasonality of New York City thermal environment using Landsat s...
Urban areas have very complex spatial structures. These spatial structures are primarily composed of...
More than half of the world\u27s current population resides in urban areas, and cities account for r...
The urban anthropogenic heat flux (AHF), which is one integral part of the deteriorating urban therm...
Thermal interactions through longwave radiation exchange between buildings, especially in a dense ur...
The energy exchanges at the Earth’s surface are responsible for many of the processes that govern we...
Spatially-integrated measurements of the surface energy balance (SEB) are needed in urban areas to e...
Urban climate results from the modifications caused by the characteristics of cities, which modifie...
It is well known that the urban environment changes local climate inside the city. This change of th...
The urbanization process alters the radiative, thermal, moisture and aerodynamic characteristics of ...
Urban climates are driven by micro-meteorological processes associated with the complex urban form, ...
Thermal remote sensors have been used extensively to examine urban surface temperature patterns but ...
Sensible heat exchange has important consequences for urban meteorology and related applications. Di...
The recently launched H2020-Space project URBANFLUXES (URBan ANthrpogenic heat FLUX from Earth obser...
The recently launched H2020-Space project URBANFLUXES (URBan ANthrpogenic heat FLUX from Earth obser...
This study aims to characterize the seasonality of New York City thermal environment using Landsat s...
Urban areas have very complex spatial structures. These spatial structures are primarily composed of...
More than half of the world\u27s current population resides in urban areas, and cities account for r...
The urban anthropogenic heat flux (AHF), which is one integral part of the deteriorating urban therm...
Thermal interactions through longwave radiation exchange between buildings, especially in a dense ur...
The energy exchanges at the Earth’s surface are responsible for many of the processes that govern we...
Spatially-integrated measurements of the surface energy balance (SEB) are needed in urban areas to e...
Urban climate results from the modifications caused by the characteristics of cities, which modifie...
It is well known that the urban environment changes local climate inside the city. This change of th...
The urbanization process alters the radiative, thermal, moisture and aerodynamic characteristics of ...
Urban climates are driven by micro-meteorological processes associated with the complex urban form, ...
Thermal remote sensors have been used extensively to examine urban surface temperature patterns but ...
Sensible heat exchange has important consequences for urban meteorology and related applications. Di...
The recently launched H2020-Space project URBANFLUXES (URBan ANthrpogenic heat FLUX from Earth obser...
The recently launched H2020-Space project URBANFLUXES (URBan ANthrpogenic heat FLUX from Earth obser...
This study aims to characterize the seasonality of New York City thermal environment using Landsat s...