Francesca Fasano scite author profile

Francesca Fasano

3Publications

9Citation Statements Received

15Citation Statements Given

How they've been cited

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Affiliations

Polytechnic University of Turin

Publications

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A New Tool for Building Energy Optimization: First Round of Successful Dynamic Model Simulations

2021

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Several tools and pieces of software support building energy modelling for optimization, certification and comparisons of different scenarios and usages. Nevertheless, the consistent rise in accessible computational power and the expansion of ICT are pushing the development of new software functionalities and tools able to support cross-disciplinary work on smart building optimization. This paper introduces a new platform (under development) that combines the EnergyPlus dynamic simulation tool with extra-functionalities and pre-defined usage scenarios based on automatic actions to manage massive simulations and correlation analyses. The tool’s utility was tested in three experiments, with goals that we consider to be fundamental requirements: comparing simple retrofit actions to reduce net energy needs; analyzing the free-running potential of a demo building and the impacts of different low-energy technologies in terms of increasing thermal comfort (shading and ventilative cooling); and comparing measured sensor data indicators with simulated ones under real weather conditions for model verification. The results demonstrate the ability of the tool to automatically generate hundreds of EnergyPlus input building models by acting on building geometry; we focused on the most common uses for parametric dynamic simulations. Additionally, the way in which the tool combines the automatic modification of the building’s design and the parallel launching of multiple simulations allows the labor to be reduced. The user can execute complex tasks without spending any time working with model editing software and aggregating the results from multiple simulations.

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Energy simulation platform supporting building design and management

Chiesa

Fasano

Grasso

2023

Techne

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The paper describes specific usage scenarios of an innovative platform, interfacing users, monitoring, and simulations for building energy simulations and the computation of key performance indicators to support, in an interoperable and open vision, design and management choices exploiting the enabling capabilities of ICT in architecture. The modularity of the proposed solution allows the development of pre-defined usage scenarios for professionals: impact of modifications in technological design choices, model calibration, and performance gap between simulated and monitored building data. The paper faces some new architectural usage scenarios of the tool, considering its enabling capabilities, and focuses on the tool’s components developed and tested in the EU H2020 E-DYCE project.

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Simulated Versus Monitored Building Behaviours: Sample Demo Applications of a Perfomance Gap Detection Tool in a Northern Italian Climate

Chiesa

Fasano

Grasso

2022

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Green building technologies and design-correlated choices may significantly contribute to supporting the transition toward net energy flows in the built environment. Nevertheless, large discrepancies are underlined between standard simulated and monitored building behaviours requiring approaches able to simply correlate real building behaviours and simulated ones to further support coherent certification and/or optimization. The paper focusses on the application of a semi-automatic methodology to compare and evaluate thermal behaviours of buildings considering monitored and simulated data. The approach is based on a new Python tool developed by the authors, able to manage EnergyPlus inputs and perform multi-source KPIs calculations. The mentioned tool is used here to support semi-automatic model verifications of real weather data by optimizing model parameters to fit monitored behaviours. The approach is applied in this chapter to two demo buildings, a municipality school and a residential unit, located in the Turin metropolitan area of Piedmont, in Northwest Italy.

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