Your search keyword '"Ronzino, Amos"' showing total 3 results

1. La centralità della Rappresentazione con il BIM

Author

Osello, Anna, sanaz davardoust, Francesco Semeraro, Greta Lucibello, Luca Barone, Dellosta, Maurizio, Ronzino, Amos, Giudice, MATTEO DEL GIUDICE, Matteo, ARIANNA FONSATI, Luca, Daniela, Francesca Maria Ugliotti, and Niccolò Rapetti

Subjects

Efficienza energetica, BIM, HBIM, infraBIM, Gestione dei dati, Efficienza energetica, HBIM, infraBIM, Gestione dei dati, BIM

Published

2016

2. The Energy Efficiency Management at Urban Scale by Means of Integrated Modelling.

Author

Ronzino, Amos, Osello, Anna, Patti, Edoardo, Bottaccioli, Lorenzo, Danna, Chiara, Lingua, Andrea, Acquaviva, Andrea, Macii, Enrico, Grosso, Michelangelo, Messina, Gianluca, and Rasconà, Gaetano

Abstract

Innovative technologies such as ICTs (Information and Communications Technologies) are recognized as being a key player against climate change and the use of sensors and actuators can efficiently control the whole energy chain in the Smart Thermal Grids at district level. On the other side, advances on 3D modelling, visualization and interaction technologies enable user profiling and represent part of the holistic approach which aims at integrating renewable energy solutions in the existing building stock. To unlock the potentiality of these technologies, the case study selected for this research focuses on interoperability between Building Information Models (BIM), GIS (Geographic Information System) models and Energy Analysis Models (EAM) for designing Renewable Energy Strategies (RES) among the demonstrator. The objectives aim at making a whole series of data concerning the energy efficiency and reduction at district level usable for various stakeholders, by creating a District Information Model (DIM). The described system also integrates BIM and district level 3D models with real-time data from sensors to analyse and correlate buildings utilization and provide real-time energy-related behaviours. An important role is played by the energy simulation through the EAM for matching measured and simulated data and to assess the energy performance of buildings starting from a BIM model or shared data. With this purpose interoperability tests are carried out between the BIM models and quasi-steady energy analysis tools in order to optimize the calculation of the energy demand according to the Italian technical specification UNI TS 11300. Information about the roofs slope and their orientation from the GIS model are used to predict the use of renewable energy – solar thermal and PV – within the selected buildings (both public and private) of the demonstrator in Turin, Italy. The expected results are a consistent reduction in both energy consumption and CO 2 emissions by enabling a more efficient energy distribution policies, according to the real characteristics of district buildings as well as a more efficient utilization and maintenance of the energy distribution network, based on social behaviour and users attitudes and demand. In the future the project will allow open access with personal devices and A/R visualization of energy-related information to client applications for energy and cost-analysis, tariff planning and evaluation, failure identification and maintenance, energy information sharing in order to increase the user's awareness in the field of energy consumption. [ABSTRACT FROM AUTHOR]

Published

2015

3. The energy efficiency management at urban scale by means of integrated modelling

Author

Anna Osello, Lorenzo Bottaccioli, Enrico Macii, Amos Ronzino, Michelangelo Grosso, Gianluca Messina, Chiara Danna, Andrea Maria Lingua, Edoardo Patti, Andrea Acquaviva, Gaetano Rascona, RONZINO, AMOS, OSELLO, Anna, PATTI, EDOARDO, BOTTACCIOLI, LORENZO, DANNA, CHIARA, LINGUA, Andrea Maria, ACQUAVIVA, ANDREA, MACII, Enrico, GROSSO, MICHELANGELO, Gianluca Messina, and Gaetano Rasconà

Subjects

Engineering, Geographic information system, energy management, business.industry, Energy management, Interoperability, Energy consumption, Civil engineering, Energy engineering, Renewable energy, RES, Energy(all), Information model, urban energy management, Systems engineering, BIM, District Information Model, business, energy efficiency, Efficient energy use

Abstract

Innovative technologies such as ICTs (Information and Communications Technologies) are recognized as being a key player against climate change and the use of sensors and actuators can efficiently control the whole energy chain in the Smart Thermal Grids at district level. On the other side, advances on 3D modelling, visualization and interaction technologies enable user profiling and represent part of the holistic approach which aims at integrating renewable energy solutions in the existing building stock. To unlock the potentiality of these technologies, the case study selected for this research focuses on interoperability between Building Information Models (BIM), GIS (Geographic Information System) models and Energy Analysis Models (EAM) for designing Renewable Energy Strategies (RES) among the demonstrator. The objectives aim at making a whole series of data concerning the energy efficiency and reduction at district level usable for various stakeholders, by creating a District Information Model (DIM). The described system also integrates BIM and district level 3D models with real-time data from sensors to analyse and correlate buildings utilization and provide real-time energy-related behaviours. An important role is played by the energy simulation through the EAM for matching measured and simulated data and to assess the energy performance of buildings starting from a BIM model or shared data. With this purpose interoperability tests are carried out between the BIM models and quasi-steady energy analysis tools in order to optimize the calculation of the energy demand according to the Italian technical specification UNI TS 11300. Information about the roofs slope and their orientation from the GIS model are used to predict the use of renewable energy – solar thermal and PV – within the selected buildings (both public and private) of the demonstrator in Turin, Italy. The expected results are a consistent reduction in both energy consumption and CO 2 emissions by enabling a more efficient energy distribution policies, according to the real characteristics of district buildings as well as a more efficient utilization and maintenance of the energy distribution network, based on social behaviour and users attitudes and demand. In the future the project will allow open access with personal devices and A/R visualization of energy-related information to client applications for energy and cost-analysis, tariff planning and evaluation, failure identification and maintenance, energy information sharing in order to increase the user's awareness in the field of energy consumption.

Published

2015