nvironmental energy sustainability is uniquely connected to people’s health and well-being. It was shown that this issue has impressive economic and developmental repercussions. The operation of any system is an integrated process and each separation is counterproductive both from a physical, energetic and economic point of view. Sustainability is based on this awareness of the impossibility of separating systems. Therefore, the organization scheme of a system (real and living) is always a dynamic and interactive network scheme. The methodological approach that we have developed and are experimenting with, within the Living Lab / Digital Twin, is based on these fundamentals as part of a pilot project developed in the Santa Verdiana building complex, one of the historic buildings of the School of Architecture of the University of Florence: BexLab building environmental experience. Starting from the knowledge of the existing state of the studied environment, different design solutions will be compared, supported both by experimental measurements of microclimatic, thermophysical and lighting (natural and artificial light), on the models of Adaptivity and Sustainability, Indoor Air Quality, Human Centric Lighting, Human Health and Safety, and by evaluation of real perception, incidence of behaviour (smart human behavior) and user’s experience. All these interconnected investigations will also ead to the knowledge of the user’s behaviour, allowing to draw up useful guidelines to train and orient the subject towards a conscious interaction for the best management and protection/conservation of the indoor environmental quality (IEQ).

Sostenibilità e Benessere nell’ambiente costruito l’approccio integrato green-digital nel progetto pilota Living Lab/Digital Twin di un edificio dell’Università degli Studi di Firenze / Carla Balocco, Antonella Trombadore, Giacomo Pierucci, Juan Camilo Olano Salinas, Gisella Calcagno. - In: BOLLETTINO INGEGNERI. - ISSN 2035-2433. - STAMPA. - 6:(2022), pp. 1-10.

Sostenibilità e Benessere nell’ambiente costruito l’approccio integrato green-digital nel progetto pilota Living Lab/Digital Twin di un edificio dell’Università degli Studi di Firenze

Carla Balocco
;
Antonella Trombadore;Giacomo Pierucci;Juan Camilo Olano Salinas;Gisella Calcagno
2022

Abstract

nvironmental energy sustainability is uniquely connected to people’s health and well-being. It was shown that this issue has impressive economic and developmental repercussions. The operation of any system is an integrated process and each separation is counterproductive both from a physical, energetic and economic point of view. Sustainability is based on this awareness of the impossibility of separating systems. Therefore, the organization scheme of a system (real and living) is always a dynamic and interactive network scheme. The methodological approach that we have developed and are experimenting with, within the Living Lab / Digital Twin, is based on these fundamentals as part of a pilot project developed in the Santa Verdiana building complex, one of the historic buildings of the School of Architecture of the University of Florence: BexLab building environmental experience. Starting from the knowledge of the existing state of the studied environment, different design solutions will be compared, supported both by experimental measurements of microclimatic, thermophysical and lighting (natural and artificial light), on the models of Adaptivity and Sustainability, Indoor Air Quality, Human Centric Lighting, Human Health and Safety, and by evaluation of real perception, incidence of behaviour (smart human behavior) and user’s experience. All these interconnected investigations will also ead to the knowledge of the user’s behaviour, allowing to draw up useful guidelines to train and orient the subject towards a conscious interaction for the best management and protection/conservation of the indoor environmental quality (IEQ).
2022
6
1
10
Carla Balocco, Antonella Trombadore, Giacomo Pierucci, Juan Camilo Olano Salinas, Gisella Calcagno
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1272786
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