This paper shows the results of a research aimed at assessing the amount of energy that can be produced by solar envelopes (facades and roofs) in urban contexts.A preliminary set of simulations was carried out, through dynamic yearly analyses on a sample building, to identify the main parameters influencing the availability of solar radiation and to optimize the building's shape. The general target is to maximise solar radiation available on the external building envelope, in order to exploit it through building integrated solar systems.Furthermore, the effect of reflected solar radiation has been analysed by simulating different finishing materials (green façades, glazed façades, concrete façades and aluminium façades) on the neighbouring ...
Amongst academics and practitioners working in the fields of urban planning and design, there has be...
This paper presents a process of solar potential optimization for residential buildings in high dens...
The aim of research is to simulate the zones of solar radiation on the curved surfaces of the shells...
This paper shows the results of a research aimed at assessing the amount of energy that can be produ...
AbstractThis paper shows the results of a research aimed at assessing the amount of energy that can ...
This paper shows the results of a research on parametric geometric transformation of the building vo...
AbstractThis paper aims to show a new solar design tool that can be used to optimize the building's ...
This paper aims to show a new solar design tool that can be used to optimize the building's shape an...
In cold and moderate climates, the optimisation of solar gains is an important issue to answer the c...
Solar radiation is energy, a natural and inexhaustible source of heat and light, and as such a major...
The energy efficiency of the urban texture relies notably on the buildings’ form, which characterize...
This research introduces a novel way of classifying the built environment based on its geometrical ...
The new EPBD (2010/31/EU) requires that new buildings comply with the “nearly zero energy” standard ...
Purpose: The purpose of this paper is to present a methodology to quantify the solar energy potentia...
Amongst academics and practitioners working in the fields of urban planning and design, there has be...
This paper presents a process of solar potential optimization for residential buildings in high dens...
The aim of research is to simulate the zones of solar radiation on the curved surfaces of the shells...
This paper shows the results of a research aimed at assessing the amount of energy that can be produ...
AbstractThis paper shows the results of a research aimed at assessing the amount of energy that can ...
This paper shows the results of a research on parametric geometric transformation of the building vo...
AbstractThis paper aims to show a new solar design tool that can be used to optimize the building's ...
This paper aims to show a new solar design tool that can be used to optimize the building's shape an...
In cold and moderate climates, the optimisation of solar gains is an important issue to answer the c...
Solar radiation is energy, a natural and inexhaustible source of heat and light, and as such a major...
The energy efficiency of the urban texture relies notably on the buildings’ form, which characterize...
This research introduces a novel way of classifying the built environment based on its geometrical ...
The new EPBD (2010/31/EU) requires that new buildings comply with the “nearly zero energy” standard ...
Purpose: The purpose of this paper is to present a methodology to quantify the solar energy potentia...
Amongst academics and practitioners working in the fields of urban planning and design, there has be...
This paper presents a process of solar potential optimization for residential buildings in high dens...
The aim of research is to simulate the zones of solar radiation on the curved surfaces of the shells...