A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Modelling the radiative exchanges in urban areas: A review
In the consideration of building energy performance and urban climate models, irradiation is a key parameter. From the city scale to the detailed building interchange, different approaches and models with various levels of details are explained in this review, and their scope and usefulness considered. The first part of the study deals with solar and longwave sky irradiance models. Six models of sky diffuse irradiance are presented, together with details of the models of longwave sky irradiance. At city scale, the influence of an urban area on the atmospheric radiative budget requires knowledge of the radiative flux leaving the urban area. Albedo and longwave reflectivity models are detailed in the second part to determine shortwave and longwave fluxes from urban areas. Solar access quantifies the shortwave radiative energy received by an urban surface for a specified period, determined by the building's scale and type of facade. Depending on the urban morphology, tridimensional city models are presented in this section to compute the solar access. In order to calculate the energy budget of building walls, the radiation interchanges in the district have to be coupled with other physical phenomenon. Thus, some simplifications and various models to reduce computation time are discussed.
Modelling the radiative exchanges in urban areas: A review
In the consideration of building energy performance and urban climate models, irradiation is a key parameter. From the city scale to the detailed building interchange, different approaches and models with various levels of details are explained in this review, and their scope and usefulness considered. The first part of the study deals with solar and longwave sky irradiance models. Six models of sky diffuse irradiance are presented, together with details of the models of longwave sky irradiance. At city scale, the influence of an urban area on the atmospheric radiative budget requires knowledge of the radiative flux leaving the urban area. Albedo and longwave reflectivity models are detailed in the second part to determine shortwave and longwave fluxes from urban areas. Solar access quantifies the shortwave radiative energy received by an urban surface for a specified period, determined by the building's scale and type of facade. Depending on the urban morphology, tridimensional city models are presented in this section to compute the solar access. In order to calculate the energy budget of building walls, the radiation interchanges in the district have to be coupled with other physical phenomenon. Thus, some simplifications and various models to reduce computation time are discussed.
Modelling the radiative exchanges in urban areas: A review
Gros, Adrien (author) / Bozonnet, Emmanuel (author) / Inard, Christian (author)
Advances in Building Energy Research ; 5 ; 163-206
2011-05-01
44 pages
Article (Journal)
Electronic Resource
Unknown
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