Abstract
The Italian building stock consists of buildings mainly constructed until the mid-20th century using pre-industrial construction techniques. These buildings require energy refurbishment that takes into account the preservation of their architectural heritage. In this view, this work studies an innovative integrated modelling and simulation framework consisting of the implementation of Historical Building Information Modeling (HBIM) for the energy retrofit of historical buildings with renewable geothermal HVAC system. To this aim, the field case study is part of a medieval complex in Central Italy (Perugia), as representative ancient rural offshore architecture in the European countryside. The system involves of a ground source heat pump, a water tank for thermal-energy storage connected to a low-temperature radiant system, and an air-handling unit. The building heating energy performance, typically influenced by thermal inertia in historical buildings, when coupled to the novel HVAC system, is comparatively assessed against a traditional scenario implementing a natural-gas boiler, and made inter-operative within the HBIM ad hoc platform. Results show that the innovative renewable energy system provides relevant benefits while preserving minor visual and architectural impact within the historical complex, and also in terms of both energy saving, CO2 emissions offset, and operation costs compared to the traditional existing system. The integrated HBIM approach may effectively drive the path toward regeneration and re-functioning of heritage in Europe.
Highlights
Nowadays, sustainable energy and cost efficiency solutions are widely accomplished in new constructions
The architectural model of the case study building was developed via Historical Building Information Modeling (HBIM), to have an integrated building model
Given the need to develop effective and low-impact solutions for retrofitting historical buildings, this work aimed at investigating a new holistic modelling and simulation framework working as this work aimed at investigating a new holistic modelling and simulation framework working as a a support tool for design and implementation of energy retrofits in historical buildings
Summary
Sustainable energy and cost efficiency solutions are widely accomplished in new constructions. The tools for the analysis of historical buildings should ease the required comprehensive approach These technologies and construction processes will be validated in five case study demonstration sites in four countries featuring different climactic conditions, soil types, and building typologies, including an historical building in Italy, dealt with in this study. A deep multidisciplinary interaction is required in this field, by paying attention to the implementation of low visual impact solutions [6]
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