G. Leone scite author profile

Over the years, building information modelling (BIM) has undergone a significant increase, both in terms of functions and use. This tool can almost completely manage the entire process of design, construction, and management of a building internally. However, it is not able to fully integrate the functions and especially the information needed to conduct a complex energy analysis. Indeed, even if the energy analysis has been integrated into the BIM environment, it still fails to make the most of all the potential offered by building information modelling. The main goals of this study are the analysis of the interaction between BIM and energy simulation, through a review of the main existing commercial tools (available and user-friendly), and the identification and the application of a methodology in a BIM environment by using Graphisoft’s BIM software Archicad and the plug-in for dynamic energy simulation EcoDesigner STAR. The application on a case study gave the possibility to explore the advantages and the limits of these commercial tools and, consequently, to provide some possible improvements. The results of the analysis, satisfactory from a quantitative and qualitative point of view, validated the methodology proposed in this study and highlighted some limitations of the tools used, in particular for the aspects concerning the personalization of heating systems.

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A decentralized load control architecture for smart energy consumption in small islands

Croce

Giuliano

Bonomolo

et al. 2020

Sustainable Cities and Society

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Assessing the feasibility of cogeneration retrofit and district heating/cooling networks in small Italian islands

Beccali

Ciulla

Pietra

et al. 2017

Energy

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Sustainability of energy supply strategies in small islands has been emerging as a severe issue, due to the large margins for improvement and rationalization of the most frequently adopted solutions. In most of the European islands, large amounts of heat are wasted by the operation of engine-based power plants; conversely, heat is produced by boilers (supplied by liquid fuels) or by electric equipment for a number of different uses, like domestic hot water production or space heating in winter. In this paper a techno-economic analysis is proposed to assess the feasibility of CHP-retrofit of the existing power plants and the possible utilization of the recovered heat to supply, via a district heating and/or cooling network, the energy requests of civil energy users (both in the tertiary and in the residential sector). The analysis is accurately performed for six islands located in Italy and characterised by different context conditions from a demographic, geographic and climatic viewpoint, so as to get a comprehensive understanding of the factors that favour/obstruct the economic feasibility of the examined technical solution. As expected, due to the low "linear heat density" usually observed in small islands and to the complex orographic profiles, the investment usually resulted "far from being attractive"; only in the case where public incentive or support mechanism is adopted, the possible integration of the existing power plants with heat recovery devices and a district heating network resulted in moderately attractive, especially in the largest examined islands due to their highest heat loads.

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Characterization of a small Mediterranean island end-users’ electricity consumption: The case of Lampedusa

Beccali

Bonomolo

Pietra

et al. 2017

Sustainable Cities and Society

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G. Leone

Dynamometric assessment of the mechanical resistance of porcelain veneers related to tooth preparation: A comparison between two techniques

Building Information Modelling and Energy Simulation for Architecture Design

A decentralized load control architecture for smart energy consumption in small islands

Assessing the feasibility of cogeneration retrofit and district heating/cooling networks in small Italian islands

Characterization of a small Mediterranean island end-users’ electricity consumption: The case of Lampedusa

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