Local Energy Efficiency Interventions by the Prioritization of Thermal Zones in an Historical University Building

Architectural constraints are a crucial aspect in energy retrofitting of historic buildings. Usual global interventions are often not allowed since preserving historical values of the building stock is mandatory. In this paper, the authors provide an alternative procedure by identifying the most profitable local interventions in order to maintain the architectural values during the restoration and energy retrofitting operations. So, thermal zones prioritization is the key element considered in this study. Its aim is to analyse which energy efficiency measures could be applied to a listed building, but at certain technological elements rather than a unique choice for the entire building envelope. Thus it will prove that you can work with individual elements of the building without compromising the protection of architectural good. The attention was placed in promoting single measures and improving the quality of the built environment. The case study is an historical building in Rome, currently used for university purposes. The analysis was carried out through a building simulation model so that to assess the building energy performance before and after the selected interventions. The chosen software is TRNSYS. This approach shows how interventions, usually not applicable at the building scale, would be beneficial if applied at local scale such as a single thermal zone or a single technological unit. The authors built a reference scenario and, for each identified thermal zone, tested the energy efficiency improvement in terms of heating demand reduction coming from the hypothesized local intervention

Comparing Energy Improvements and Financial Costs of Retrofitting Interventions in a Historical Building

In Italy, energy improvements of historical buildings are one of the key aspects to reach the EU 2020 goals on energy efficiency. Many papers are available in literature to recover and retrofit historical buildings, considering different types of interventions aimed to increase energy efficiency in existing building. Considering the most common retrofit interventions in historical building, this paper focuses on the estimation of the energy improvements and related financial costs of four considered scenarios on the building envelope of the “pharmaceutical chemistry” historical building located in the Sapienza University Campus of Rome. Additionally, a cogeneration system and the installation of a PV system have been included among the considered scenarios, in order to analyze their energy performance jointly with feasible retrofitting interventions. Research methods included a dynamic simulation of building thermal loads in the current state and in the scenario after each considered intervention carried out using TRNSYS software. Furthermore, yearly savings, investment cost and payback periods have been evaluated for each considered scenario, taking into account both the purchase prices of the saved energy and the amounts needed to realize related retrofitting interventions. In conclusion, among the feasible interventions in historical buildings, the obtained results provide useful data about what strategy offers the best energy performance improvement if compared with its financial costs. Results could provide recommendations for other historical buildings that need retrofitting interventions for improving their energy efficiency

Technologies and strategies to design sustainable tourist accommodations in areas of high environmental value not connected to the electricity grid

As envisaged in the Agenda for a sustainable and competitive European tourism, the adoption of an holistic and integrated approach and the use of the best available knowledge and technologies are key aspects to ensure a sustainable tourism. In particular, policies and actions should be planned considering the latest and best available knowledge, analyzing at the same time all the related impacts on the area of intervention. In this context, the purpose of this paper is to describe an approach for designing sustainable tourist accommodations that allow the fruition of areas characterized by high environmental values minimizing the related impacts on the surrounding environment and sensitizing users towards preservation and conservation of natural resources. In the proposed approach three aspects of tourist accommodation have been considered: the system component, the building envelope and the integration between them. As a result, the architectural structures designed, including their materials, shape, energy efficiency, modularity and removability, are in line with the standards of bio-architecture. The materials used, complying with the technical requirements and the technological needs of the tourist accommodations, are mostly recycled or reusable, coming from the surrounding area or of easy integration in the landscape. The components , that constitute the accommodations, are easy to assemble and disassemble for reuse them in another area, without changing the environmental conditions in the site. Some elements are precast and completed on site with local materials, moreover the modularity allows a high adaptability to different environmental and morphological conditions. To apply these architectural structures even in places without services and distribution networks of energy and water, special attention has been given to innovative and sustainable energy solutions: Liquefied petroleum gas (LPG) has been used as the only energy vector, combined with a cogeneration plant to provide heat and electric energy as well as with particular building envelopes that allow the transfer of LPG into the walls for provide energy to innovative gas appliances. Lastly, in order to assess the environmental impact of the proposed approach, it has been analyzed the environmental insertion of these structures for tourist accommodation in the Circeo National Park, in Italy

sustainable requalification in restricted area the case study of flaminio stadium in rome

Abstract The requalification of neglected areas in urban contexts are considered as one of the main challenges to get the targets of environmental sustainability, energy efficiency and life quality currently required for smart cities. The management of deteriorated urban green areas increases human well-being and biodiversity conservation, facilitating the individuation of natural and anthropic risks as well as territorial vulnerabilities. In this context, the paper focused on the Flaminio Stadium in Rome that despite its central position in the city, is located inside a neglected area that could potentially be requalified offering services and facilities to citizens and tourists. This demonstration starts from a status quo study of chosen building and its surroundings in terms of energy analysis. This latter is, then, implemented by a techno-economic study to support its improvement in terms of energy efficiency and sustainability. The economic cost analysis evidences the difficulties to support a requalification cost of global district for the Municipality of Rome

Reuse and upcycling of municipalwaste for zeb envelope design in European urban areas

Building energy efficiency and urban waste management are two focal issues for improving environmental status and reducing greenhouse gas emissions. The main aim of this paper is to compare economic costs of new building envelope structures designed by authors reusing and upcycling municipal waste in order to decrease energy demand from the building sector and, at the same time, improve eco-friendly waste management at the local scale. The reuse of waste for building envelope structures is one of the main principles of the Earthship buildings model, based on the use of passive solar principles in autonomous earth-sheltered homes. This Earthship principle has been analyzed in order to optimize buildings’ energy performance and reuse municipal waste for new building envelope structures in urban areas. Indeed, the elaborated structures have been designed for urban contexts, with the aim of reuse waste coming from surrounding landfills. The methods include an analysis of thermal performance of urban waste for designing new building envelope structures realized by assembling waste and isolating materials not foreseen in Earthship buildings. The reused materials are: cardboard tubes, automobile tires, wood pallets, and plastic and glass bottles. Finally, comparing economic costs of these new building envelope structures, the obtained results highlight their economic feasibility compared to a traditional structure with similar thermal transmittance

Analysis of Energy Performance Improvements in Italian Residential Buildings

AbstractResidential buildings represent the major energy consumers in Italy, it is therefore worthwhile to analyze existing buildings highlighting the best technologies, strategies and interventions for improving their energy efficiency.In this context, this research gives particular attention to energy requirements related to winter heating, assessing the current energy demand of a building prototype having structural and plant standards assumed. Starting from the obtained energy efficiency data of the same building prototype in ten Italian pilot cities with different climate conditions and different wall structures, the aim of the paper is to assess the economic costs and the benefits in terms of optimization of the building energy performance indicator in the heating season (EPH in kWh/m2 year) for the most common renovation interventions, in order to get a cost /benefits analysis for each intervention in each city. Therefore the paper provides data to establish a hierarchy of priorities regarding possible interventions on building envelope or plants. The proposed energy requalification interventions have been defined considering the use of standard packages of the vertical and horizontal structures of the envelope as well as the application of new plant technologies. In particular, the parameters used for the characteristics of the interventions have been selected following the specified UNI-TS 11300 1-2008 and schedules provided by the Italian Thermo-Technical Committee (CTI). The obtained results could be useful to highlight the most convenient solutions for improving energy efficiency for each analyzed Italian city

Cost-Benefit Analysis for Energy Management in Public Buildings: Four Italian Case Studies

Improving energy efficiency in public buildings is one of the main challenges for a sustainable requalification of energy issues and a consequent reduction of greenhouse gas (GHG) emissions. This paper aims to provide preliminary information about economic costs and energy consumption reductions (benefits) of some considered interventions in existing public buildings. Methods include an analysis of some feasible interventions in four selected public buildings. Energy efficiency improvements have been assessed for each feasible intervention. The difference of the building global energy performance index (EPgl) has been assessed before and after each intervention. Economic costs of each intervention have been estimated by averaging the amount demanded by different companies for the same intervention. Results obtained show economic costs and the EPgl percentage improvement for each intervention, highlighting and allowing for the comparison of energy consumption reduction and relative economic costs. The research results come from data gathered from four public buildings, and as such they could not be used to generically identify cost-beneficial energy efficiency interventions for every context or building type. However, the data reveals useful cost based considerations for selecting energy efficiency interventions in other public buildings