The development of tools for urban environment analysis and representation, as a support for energy retrofitting and urban renewal designing strategies, is a prominent issue for the transition to more sustainable and resilient settlement patterns. This paper aims to develop and test a GIS-based tool for the calculation of solar irradiation, as a factor of the building energy performance, by applying, at the urban scale, the simplified method of the international standard (ISO 13790:2008) proposed by Italian specifications (UNI TS 11300: 2008-2014). This standard is a common cultural reference for technicians, practitioners, decision makers and ordinary citizens because it is the basis for the calculation of Energy Performance Certificates (EPC) for buildings. The standard physical model is simplified, but requires some base data that practitioners have to define from their expertise by an in-situ survey. So the adaptation of the calculation of solar irradiation according to the standard at the urban scale needs some simplifications and typological approaches related to the availability of base data. A simple and repeatable standard consistent methodology for the calculation of the solar irradiation on building surfaces has been developed, adopting commonly available base data on urban morphology such as topographic maps or Digital Terrain Models.
A summary on the state of the art of GIS tools for urban solar analysis and the standard algorithms for the calculation of the solar irradiation is also provided. For the study of the practitioner's approach in the use of the standard calculation a questionnaire is setup. The work then illustrates the methodology approach adopted for the tool developing and testing. The discussion focuses on the compliance of the results with standard calculation and on solar irradiation values reliability. Such consistency has been assessed via a sensitivity analysis based on different ideal cases. In order to assess the reliability of the results of the GIS tool, a comparison with the values obtained from a dynamic solar simulation environment (Daysim) is performed.

• 出版日期2018-1-1