Your search keyword '"Roberti, Francesca"' showing total 9 results

1. Intake estimates of dioxins and dioxin-like polychlorobiphenyls in the Italian general population from the 2013-2016 results of official monitoring plans in food

Author

Diletti, Gianfranco, Scortichini, Giampiero, Abete, Maria Cesarina, Binato, Giovanni, Candeloro, Luca, Ceci, Roberta, Chessa, Giannina, Conte, Annamaria, Di Sandro, Alessandra, Esposito, Mauro, Fedrizzi, Giorgio, Ferrantelli, Vincenzo, Ferretti, Enrica, Menotta, Simonetta, Nardelli, Valeria, Neri, Bruno, Piersanti, Arianna, Roberti, Francesca, Ubaldi, Alessandro, and Brambilla, Gianfranco

Published

2018

2. Assessment of the Physiological Values and the Reference Histological Profile Related to Sex Steroids in Veal Calves.

Author

Pezzolato, Marzia, Biasibetti, Elena, Gili, Marilena, Maurella, Cristiana, Benedetto, Alessandro, Marturella, Marianna, Ostorero, Federica, Bozzo, Giancarlo, Bellino, Claudio, D'angelo, Antonio, Valentini, Flaminia, Roberti, Francesca, Fiori, Maurizio, Stacchini, Paolo, and Bozzetta, Elena

Subjects

REFERENCE values, GENITALIA, CALVES, STEROIDS, STEROID hormones

Abstract

Among forbidden substances included in the European Union legislation, endogenous steroids constitute a challenge in the framework of veterinary Official Monitoring Plans. They can be naturally present in body fluids at variable levels depending on the species, sex and age of the animals. Considering the significant advances achieved in breeding conditions and in the selection of producing traits in meat cattle, the aim of this study was to verify by analytical method, in veal calves housed under controlled conditions, if the level of natural steroids hormones assumed as physiological are still actual. The second aim of the study was to verify if the normal histological pattern of growth promoters in target organs is influenced accordingly. Bovine male sex organs are currently analysed in the frame of the Italian histological plan to monitor illicit treatments trend, highlighting microscopic, induced alterations. The levels of 17β-estradiol and progesterone residues resulted under the Limit of Quantitation of the approved official methods and the level of testosterone resulted below the level stated in the Italian Ministerial Decree in force. Male target organs appeared within the limits of the standard histological features. [ABSTRACT FROM AUTHOR]

Published

2023

3. Definition of an experimental procedure with the hot box method for the thermal performance evaluation of inhomogeneous walls.

Author

Lucchi, Elena, Roberti, Francesca, and Alexandra, Troi

Subjects

*THERMAL insulation, *MASONRY, *DYNAMIC simulation, *AEROGELS, *SURFACE temperature, *HEAT flux, *THERMAL properties of walls

Abstract

Highlights • New super insulating materials based on aerogel tecnology. • Assessment of a new insulation material based on aerogel technology compatible with historic substrates and structures in the framework of the EC Project EFFESUS. • Definition of a test procedure for the steady-state thermal performance characterization of on a large scale inhomogeneous mock-up walls with the hot box method. • Comparison among different standard procedures and simulation results. Abstract Research and development of high thermal insulation materials for the construction sector requires an accurate characterization of the wall's performance, since that is the main causes of thermal exchanges between the internal and external boundaries. This paper presents a test procedure developed within the EU Project EFFESUS for evaluating the steady-state thermal performance of a masonry wall. A large-scale mock-up of the inhomogeneous wall was tested in a guarded hot box (GHB) apparatus before and after the application of an aerogel-based material. The methodology proposed in this paper is structured in the following steps: (i) definition of the wall geometry and the percentage of stone and mortar, using walls' photographic records and geometrical surveys; (ii) precise thermal characterization of the material used; (iii) hygrothermal assessment procedure based on infrared technology (IRT) survey, gravimetric test, and monitoring of the internal relative humidity (RH); (iv) steady-state and dynamic thermal simulation; and (v) detailed set-up of the test using the data retrieved from the thermal surveys and simulations. According to the results of IRT surveys and the dynamic simulations, the mock-up was divided into thermal homogeneous parts, verifying the uniformity of the surface temperature and the heat flux in an isothermal area. This approach was validated both for low and high energy performance walls. Results show that the thermal flux was reduced to one third after the application of the aerogel. [ABSTRACT FROM AUTHOR]

Published

2018

4. Characterization and thermal performance evaluation of infrared reflective coatings compatible with historic buildings.

Author

Becherini, Francesca, Lucchi, Elena, Gandini, Alessandra, Barrasa, Maria Casado, Troi, Alexandra, Roberti, Francesca, Sachini, Maria, Di Tuccio, Maria Concetta, Arrieta, Leire Garmendia, Pockelé, Luc, and Bernardi, Adriana

Subjects

HISTORIC buildings -- Heating & ventilation, REFLECTIVE materials, RETROFITTING of buildings, BUILDING material durability, THERMODYNAMICS

Abstract

Two infrared reflective coatings recently developed as part of the EFFESUS European research project are characterized and evaluated in this paper. Thermal performance, durability, compatibility with historic fabric, and reversibility are all analysed. The results of extensive research that include laboratory analysis of selected substrates, measurements on a large-scale traditional masonry mock-up, thermodynamic simulations, and finally application in to a real historic building in Istanbul, all support the potential of the new coatings to improve the thermal performance of historic buildings, in keeping with their visual integrity and cultural value. Besides their reflective properties, proven by the thermal stress reductions on the treated surfaces, the new coatings are characterized by low visual impact, easy application, material compatibility, and reversibility after application, as well as durability over time. [ABSTRACT FROM AUTHOR]

Published

2018

5. Thermal performance evaluation and comfort assessment of advanced aerogel as blown-in insulation for historic buildings.

Author

Lucchi, Elena, Troi, Alexandra, Roberti, Francesca, Becherini, Francesca, Di Tuccio, Maria Concetta, Bernardi, Adriana, Frick, Jürgen, Hermann, Carsten, Fairnington, Ian, Mezzasalma, Giulia, and Pockelé, Luc

Subjects

THERMAL efficiency, AEROGELS, THERMAL insulation, HISTORIC buildings, ENERGY consumption

Abstract

Research and development of cost-effective, high-performance thermal insulation materials for the construction sector has to be focused on their final application. In particular, solutions for refurbishing historic buildings, which represent 40% of the European building stock, have to offer a good compromise between environmental quality, energy efficiency and conservation aspects. In this paper, the experimental assessment of an insulation material based on aerogel technology, recently developed in the European project EFFESUS, is presented with regard to the material's thermal performance, compatibility with historic fabric and reversibility. The overall results obtained in laboratory testing on a real-size mock-up and in a real-world case application indicate that the new material is a promising solution for retrofitting historic buildings, thanks to its thermal properties, easy application, reversibility and material compatibility. [ABSTRACT FROM AUTHOR]

Published

2017

6. Energy retrofit and conservation of a historic building using multi-objective optimization and an analytic hierarchy process.

Author

Roberti, Francesca, Oberegger, Ulrich Filippi, Lucchi, Elena, and Troi, Alexandra

Subjects

*PRESERVATION of historic buildings, *BUILDING logistics, *ENERGY conservation in buildings, *BUILDING environmental engineering equipment, *ENERGY consumption of buildings

Abstract

When deciding on the best historic building retrofit, energy savings and thermal comfort can be quantitatively evaluated using an energy model, whereas conservation compatibility is intrinsically qualitative and reflects the perspective of the local heritage authority. We present a methodology that permits finding and comparing optimal retrofits for historic buildings in a multi-perspective and quantitative way. We use an analytic hierarchy process to quantify conservation compatibility by distilling a conservation score from the opinions of 10 experts in the field. This score, along with energy needs for heating and cooling and thermal comfort, are the three targets of a multi-objective optimization aimed at identifying optimal retrofits for a medieval building in the north of Italy, destined to become a museum. Retrofit measures considered were different kinds of external and internal envelope insulation, improvement of airtightness, replacement of windows, and ventilative cooling. The result is a portfolio of optimal retrofits that cover the whole range of conservation compatibility. We show that in the analyzed case heritage preservation is compatible with a four-fold reduction in energy needs at a high thermal comfort level. Even higher energy savings are only achievable at the cost of heritage degradation. [ABSTRACT FROM AUTHOR]

Published

2017

7. Calibrating historic building energy models to hourly indoor air and surface temperatures: Methodology and case study.

Author

Roberti, Francesca, Oberegger, Ulrich Filippi, and Gasparella, Andrea

Subjects

*HISTORIC buildings, *ENERGY consumption of buildings, *INDOOR air quality, *SURFACE temperature, *SENSITIVITY analysis, *PARTICLE swarm optimization

Abstract

Uncalibrated building energy models, as well as models calibrated only on a single performance indicator such as energy consumption or indoor temperature, can be significantly unreliable regarding model parameters and other performance indicators. The risk of obtaining a calibrated model whose parameters are far from the actual values is particularly high in historic buildings because of the increased uncertainty about the building construction. In this paper, we propose a calibration methodology aimed at reducing this risk and apply it on a medieval building. The building was modeled in EnergyPlus based on an energy audit. A sensitivity analysis was performed to identify significant parameters affecting the errors between simulated and monitored indoor air temperatures. The model was calibrated on the hourly indoor air temperatures in summer by minimizing the root mean square error averaged over the building using a particle swarm optimization algorithm. A second calibration was performed by varying the parameters of a representative room. By comparing the results from these two calibrations, we obtained indications about the accuracy of the model parameters. Finally, the model was validated on hourly indoor air and surface temperatures in winter where temperature root mean square errors ranged from 0.4 to 0.8 K. [ABSTRACT FROM AUTHOR]

Published

2015

8. Estimation of dietary intake of pesticide residues by the Italian population during 1997.

Author

Camoni, Ivano, Fabbrini, Riccardo, Attias, Leonello, Di Muccio, Alfonso, Cecere, Elvira, Consolino, Antonio, and Roberti, Francesca

Subjects

PESTICIDE residues in food, FOOD contamination

Abstract

In 1997 the Italian monitoring programme for pesticide residues in food comprised 7951 samples of 152 different foods for which a total of 275 pesticides were analysed. For 90 pesticides, the National Estimated Daily Intakes (NEDIs) were calculated by using the 90th percentile value and the food consumption data for the general Italian population. The calculated NEDIs were found to represent only a small portion of the respective Acceptable Daily Intake (ADI). [ABSTRACT FROM AUTHOR]

Published

2001

9. The design of 100 % renewable smart urb an energy systems: The case of Bozen-Bolzano.

Author

Menapace, Andrea, Thellufsen, Jakob Zinck, Pernigotto, Giovanni, Roberti, Francesca, Gasparella, Andrea, Righetti, Maurizio, Baratieri, Marco, and Lund, Henrik

Subjects

*GOVERNMENT policy, *URBAN planning, *CITIES & towns, *BIOMASS energy, *ENERGY consumption

Abstract

Sustainable urban energy planning depends on how renewable and local sources are integrated, how smart systems are implemented, and how synergies between regional and national policies are maximized. This study presents a methodology for the design of 100% renewable energy systems aiming to optimize the use of biomass and energy exchange with the national system while ensuring electricity import and export balance. The proposed procedure combines the robustness of the EnergyPLAN hourly energy system simulation model with the flexibility of multiple-criteria decision analysis. The result is a suitable methodology able to identify the best energy scenario based on a deep multi-parameter analysis from a technical point of view. A test case is proposed aiming at achieving 100% renewable energy for the Alpine city of Bozen-Bolzano in 2050. • Proposing a new methodology for sustainable urban energy systems design. • Developing a suitable framework for future 100% smart and renewable-based cities. • Presenting a strategy for high renewable energy penetration at the urban level. • District heating allows increasing the synergies among different energy sectors. • Advancing a feasible energy perspective for the Alpine city of Bozen-Bolzano 2050. [ABSTRACT FROM AUTHOR]

Published

2020