Fabio Favoino scite author profile

Adaptive building envelope systems have the potential of reducing greenhouse gas emissions and improving the energy flexibility of buildings, while maintaining high levels of indoor environmental quality. The development of such innovative materials and technologies, as well as their real-world implementation, can be enhanced with the use of building performance simulation (BPS). Performance prediction of adaptive facades can, however, be a challenging task and the information on this topic is scarce and fragmented. The main contribution of this review article is to bring together and analyse the existing information in this field. In the first part, the unique requirements for successful modelling and simulation of adaptive facades are discussed. In the second part, the capabilities of five widely used BPS tools are reviewed, in terms of their ability to model energy and occupant comfort performance of adaptive facades. Finally, it discusses various ongoing trends and research needs in this field.

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The optimal thermo-optical properties and energy saving potential of adaptive glazing technologies

Favoino

2015

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a b s t r a c tThe development of dynamic building envelope technologies, which adapt to changing outdoor and indoor environments, is considered a crucial step towards the achievement of the nearly Zero Energy Building target. It is currently not possible to evaluate the energy saving potential of innovative adaptive transparent building envelopes in an accurate manner. This creates difficulties in selecting between competing technologies and is a barrier to systematic development of these innovative technologies.The main aim of this work is to develop a method for devising optimal adaptive glazing properties and to evaluate the energy saving potential resulting from the adoption of such a technology. The method makes use of an inverse performance-oriented approach, to minimize the total primary energy use of a building. It is applied to multiple case studies (office reference room with 4 different cardinal orientations and in three different temperate climates) in order to evaluate and optimise the performance of adaptive glazing as it responds to changing boundary conditions on a monthly and daily basis. A frequency analysis on the set of optimised adaptive properties is subsequently performed to identify salient features of ideal adaptive glazing.The results show that high energy savings are achievable by adapting the transparent part of the building envelope alone, the largest component being the cooling energy demand. As expected, the energy savings are highly sensitive to: the time scale of the adaptive mechanisms; the capability of the façade to adapt to the outdoor climatic condition; the difference between outdoor climatic condition and the comfort range. Moreover important features of the optimal thermo-optical properties are identified. Of these, one of the most important findings is that a unique optimised technology, varying its thermo-optical properties between a limited number of states could be effective in different climates and orientations.

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Optimal control and performance of photovoltachromic switchable glazing for building integration in temperate climates

et al. 2016

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Experimental assessment of the energy performance of an advanced responsive multifunctional façade module

Favoino

Goia

Perino

et al. 2014

Energy and Buildings

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Energy Efficient Smart Plasmochromic Windows: Properties, Manufacturing and Integration in Insulating Glazing

et al. 2021

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Fabio Favoino

Review of current status, requirements and opportunities for building performance simulation of adaptive facades

The optimal thermo-optical properties and energy saving potential of adaptive glazing technologies

Optimal control and performance of photovoltachromic switchable glazing for building integration in temperate climates

Experimental assessment of the energy performance of an advanced responsive multifunctional façade module

Energy Efficient Smart Plasmochromic Windows: Properties, Manufacturing and Integration in Insulating Glazing

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