Your search keyword '"Tiziana Poli"' showing total 63 results

1. Parametric Assessment to Evaluate and Compare the Carbon Footprint of Diverse Manufacturing Processes for Building Complex Surfaces

Author

Alberto Speroni, Matteo Cavaglià, Andrea Giovanni Mainini, Valentina Casarini, Simona Bovi, Juan Diego Blanco Cadena, Francesco Pittau, and Tiziana Poli

Subjects

LCA, low-carbon technology, complex geometries, parametric optimization, environmental impact, customized designs, Building construction, TH1-9745

Abstract

At present, building design is faced with a need to properly manage complex geometries and surfaces. This fact is not only driven by the increased demand for visually stunning spaces but also stems from the rise of new design paradigms, such as “user-centred design”, that include bespoke optimization approaches. Nevertheless, the escalating adoption of customized components and one-off solutions raises valid concerns regarding the optimal use of energy and resources in this production paradigm. This study focuses on the Life Cycle Assessment of a novel Cement–Textile Composite (CTC) patented material. It combines a synthetic reinforcing textile with a customized concrete matrix, to generate rigid elements that are able to statically preserve complex spatial arrangements, particularly double-curvature surfaces. Moreover, the CTC offers a low-volume cost-effective alternative for custom-made cladding applications. The study performed a comparative carbon footprint assessment of the CTC production process in contrast to other technologies, such as CNC milling and 3D printing. To facilitate meaningful comparisons among diverse construction alternatives and to derive generalized data capable of characterizing their overall capacity, independent of specific production configurations, the present study implemented a generalized parametric shape of reference defined as a bounding box (BBOX), which encloses the volume of the target shape. Comparing different production technologies of the same shape with the same BBOX results in a significant carbon saving, up to 9/10th of the carbon footprint, when the CTC technology is adopted. The study therefore highlights the potential environmental advantages of CTC in the fields of architectural design and building engineering.

Published

2023

2. Low-cost sensor network in cognitive buildings for maintenance optimisation

Author

Juan Diego Blanco Cadena, Nicola Moretti, Tiziana Poli, and Fulvio Re Cecconi

Subjects

Architectural engineering. Structural engineering of buildings, TH845-895

Abstract

Buildings cannot perform without a proper planning, execution and monitoring of Facility Management services. Moreover, occupancy monitor procedures for cognitive buildings are gaining momentum in performance optimization through dynamic adaption of indoor conditions (e.g. temperature, humidity, shadings). In this article, the application of a similar approach for automated execution of maintenance contracts (e.g. cleaning services) is presented. This approach is allowed by monitoring occupancy, through an ultrasonic sensor network. The methodology has been validated on a case study, concerning an office building in Milan, Italy.

Published

2019

3. On the Optical Characterization of Architectural Three-Dimensional Skins and Their Solar Control Potential

Author

Andrea Giovanni Mainini, Alberto Speroni, Tiziana Poli, and Michele Zinzi

Subjects

building envelope, optical properties of building envelope components, shading devices, building energy performance design, technology transfer, Building construction, TH1-9745

Abstract

The use of second building skins is becoming a trademark in modern architecture, opening for innovative solutions, such as three-dimensional (3D) systems. This paper explores the potential of these systems to provide adequate solar protection to glazed façades by means of an advanced optical characterization. Spectral transmittance and reflectance of fourteen samples, belonging to several technological families, are measured with a built-in spectrophotometer, suitable to accurately characterize complex semi-transparent systems. Solar and lighting properties are then calculated. The normal optical properties strongly depend on the openness factor, thus the geometry primarily affects the performance. A total of 11 samples exhibit normal solar transmittance in the 40–53% range; the value decreases to 20% for the plissé metal grid and increases to 70% on average for metal meshes. The angular transmittance depends on the system texture geometry and its self-shading capabilities. It was found that such systems underperform as static conventional shading systems; however, one of the metal meshes, the plissé grid and the plastic grid exhibit relevant angular selectivity, with transmittance decay at 60° in the 58–72% range compared to the normal incidence value. The results show that some of the selected 3D systems provide adequate solar protection. The developed dataset can be used for early-stage design analyses, as well as for energy performance model input and validation.

Published

2022

4. Current Trajectories and New Challenges for Visual Comfort Assessment in Building Design and Operation: A Critical Review

Author

Juan Diego Blanco Cadena, Tiziana Poli, Mitja Košir, Gabriele Lobaccaro, Andrea Giovanni Mainini, and Alberto Speroni

Subjects

visual comfort, lighting, daylight, user centred design, modeling, monitoring, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Visual comfort can affect building occupants’ behaviour, productivity and health. It is highly dependent on the occupant and how they perform a task indoors. In that regard, an occupant centred approach is more suitable for evaluating the lighting perception of the indoor environment. Nevertheless, the process of rating and estimating the visual comfort makes a limited distinction between physiological differences (e.g., ageing eye, light sensitivity), field of view, and personal preferences, which have been proven to influence the occupants’ lighting needs to complete their tasks. Such features were not considered while establishing the visually comfortable conditions; perhaps due to the challenge of coupling the assumptions made during building design to the performance indicators monitored during building operation. This work focuses on reviewing literature findings on how the common design approach deviates from real building performance, particularly failing to prevent visual disturbances that can trigger the inefficient operation of building systems. Additionally, it is highlighted that redesigned visual comfort assessment methods and metrics are required to bridge the gap between the lighting environment ratings computed and surveyed. One possibility is to consider such physiological features that induce lighting experiences. Finally, it was deducted that it is important to target the occupants’ eye response to calibrate limit thresholds, propose occupant profiling, and that it is convenient to continuously monitor the occupants’ perception of indoor lighting conditions.

Published

2022

5. A Novel Approach to Shape Memory Alloys Applied to Passive Adaptive Shading Systems

Author

Lorenzo Vercesi, Alberto Speroni, Andrea Giovanni Mainini, and Tiziana Poli

Subjects

Passive adaptive, shading system, shading device, dynamic, innovative, double-skin, Architecture, NA1-9428, Building construction, TH1-9745

Abstract

A shading device for façade application was developed by combining twisting cylindrical shading elements with the smart use of shape-memory alloy (SMA) components. These allow a dynamic behaviour of a shading device, which does not require electrical motors or manual activation, nor sophisticated electronic controls. The technical development of the system involved research of cylindrical shading geometries, which can transition from straight to hourglass configuration, given a 180° rotation, with limited mechanical movement. This is induced by the stroke of a SMA spring, which functions as both actuator and sensor. Its design is tailored to achieve a passive adaptive component that can be activated under set temperature stimuli, caused by incident solar radiation on a façade. A combination of computer simulations and physical tests were carried out to assess the optimal conditions of the SMA spring activation in a temperate climate condition (Cfa to the Koppen-Geiger classification), correlating transition temperature (50°C), incident solar radiation (>300W/m2 ) and the forces required to operate the cylinders. In parallel, an experimental apparatus was developed to validate the concept on a geometrical point of view, and to ensure its constraints were compatible with a SMA spring control system.

Published

2020

6. A New Approach to Assess the Built Environment Risk under the Conjunct Effect of Critical Slow Onset Disasters: A Case Study in Milan, Italy

Author

Juan Diego Blanco Cadena, Nicola Moretti, Graziano Salvalai, Enrico Quagliarini, Fulvio Re Cecconi, and Tiziana Poli

Subjects

risk assessment, climate change, health, heat stress, AQI, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Citizens in dense built environments are susceptible to the simultaneous occurrence of Slow Onset Disaster (SLOD) events, being particularly prone to increasing temperatures and air pollution. Previous research works have assessed these events’ arousal separately and have identified when their intensity is critical. However, few have integrated their analysis, possibly limited by the quality and granularity of available data, the accessibility and distribution of sensors, and measurements not emulating the surroundings of a pedestrian. Thus, this work performed an outdoor meso-scale multi-hazard-based risk analysis to study the aggregated effects of the SLODs mentioned above. The study was carried out to narrow down the time-frames within 2019 in which these two events could have affected citizens’ health the most. A weighted fuzzy logic was applied to superimpose climatic (temperature, humidity, wind speed, and solar irradiance) and air quality (particulate matter, ozone, and ammonium) distress (true risk) on an hourly basis, allocated using set healthy and comfortable ranges for a specific dense urban climate context within Milan (Italy), processing data from Milano via Juvara station. The findings show that sensitive groups were at risk of high temperature and pollution separately during 26% and 29% of summer and mid-season hours, respectively; while multi-hazard risk would arise during 10.93% of summer and mid-season hours, concentrated mainly between 14:00 and 20:00.

Published

2021

7. A removable textile hybrid structural screen for the windows of Castello Sforzesco, Milan: when experimental metrics inform the bespoke ‘design-to-construction’ process in historical contexts

Author

Elpiza Kolo, Andrea Giovanni Mainini, Alberto Speroni, Juan Diego Blanco Cadena, Elisabetta Rosina, Carol Monticelli, Tiziana Poli, and Alessandra Zanelli

Subjects

experimental campaign, Architectural engineering, Engineering, Process (engineering), business.industry, textile hybrid, 0211 other engineering and technologies, Window (computing), 02 engineering and technology, Building and Construction, General Business, Management and Accounting, optical tests, Lightweight structures, mechanical tests, design methodology, 021105 building & construction, Architecture, bespoke, 021108 energy, anemometric tests, historical context, Textile (markup language), Design methods, business, Bespoke

Abstract

This paper presents the experimental design-to-installation process of two textile hybrid window screens, aimed at mitigating the comfort conditions and preserving the frescoes of Sala delle Asse a...

Published

2020

8. Daylighting performance of three-dimensional textiles

Author

Andrea Gasparella, Andrea Zani, Tiziana Poli, Alberto Speroni, Andrea Giovanni Mainini, Michele Zinzi, Giuseppe De Michele, Mainini, A. G., Zani, A., De Michele, G., Speroni, A., Poli, T., Zinzi, M., and Gasparella, A.

Subjects

Light performance measurement, Computer science, 020209 energy, Alternative shading material, Daylight autonomy, Daylight performance metrics, Innovative blinds, 0211 other engineering and technologies, Mechanical engineering, 02 engineering and technology, 021105 building & construction, Bidirectional scattering distribution function, 0202 electrical engineering, electronic engineering, information engineering, Daylight, Innovative blind, Electrical and Electronic Engineering, Civil and Structural Engineering, Daylight performance metric, Mechanical Engineering, Illuminance, Glare (vision), Building and Construction, Integrating sphere, Radiance, Shading, Daylighting

Abstract

The pattern and permeability characteristics that compose three-dimensional (3D) textiles are important as a textile shading component to the architecture, engineering and construction (AEC) industry. Moreover, due to their complex geometry, 3D fabrics require a detailed modeling for correct evaluation of performance. This paper aims to present and investigate the optical properties of six 3D fabrics proposed as an alternative to traditional roller blind shading systems, which could guarantee high daylight availability and visual comfort. The light transmission distribution for the different samples has been characterized by carrying out angular visual transmittance measurements, using integrating sphere optical benches, and virtual modeling using Radiance's genBSDF tool. The Bidirectional Scattering Distribution Function (BSDF) calculated with Radiance shows a good fit with the optical angular measurements, which were used as a benchmark and to calibrate models. The performance of the 3D textiles, in terms of illuminance, daylight availability, and glare, was assessed considering two of the set of 3D textiles as alternative materials for a movable internal roller shade system in an open office. The innovative system was compared with a traditional single layer fabric roller blind under different shading control strategies, 3D fabrics demonstrate the potential of increasing Daylight Autonomy while providing better uniformity and better connection with the outdoors due to a higher openness factor. The shading effect created by the 3D geometry of the textile can increase the openness factor while restricting glare.

Published

2019

9. A New Approach to Assess the Built Environment Risk under the Conjunct Effect of Critical Slow Onset Disasters: A Case Study in Milan, Italy

Author

Enrico Quagliarini, Tiziana Poli, Graziano Salvalai, Juan Diego Blanco Cadena, Nicola Moretti, and Fulvio Re Cecconi

Subjects

Risk analysis, 010504 meteorology & atmospheric sciences, Meteorology, Air pollution, Climate change, Context (language use), 010501 environmental sciences, medicine.disease_cause, lcsh:Technology, 01 natural sciences, lcsh:Chemistry, heat stress, AQI, Urban climate, medicine, General Materials Science, lcsh:QH301-705.5, Instrumentation, Air quality index, Built environment, 0105 earth and related environmental sciences, Fluid Flow and Transfer Processes, risk assessment, climate change, health, heat stress, AQI, lcsh:T, Process Chemistry and Technology, General Engineering, risk assessment, health, lcsh:QC1-999, Computer Science Applications, climate change, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Environmental science, lcsh:Engineering (General). Civil engineering (General), Risk assessment, lcsh:Physics

Abstract

Citizens in dense built environments are susceptible to the simultaneous occurrence of Slow Onset Disaster (SLOD) events, being particularly prone to increasing temperatures and air pollution. Previous research works have assessed these events&rsquo, arousal separately and have identified when their intensity is critical. However, few have integrated their analysis, possibly limited by the quality and granularity of available data, the accessibility and distribution of sensors, and measurements not emulating the surroundings of a pedestrian. Thus, this work performed an outdoor meso-scale multi-hazard-based risk analysis to study the aggregated effects of the SLODs mentioned above. The study was carried out to narrow down the time-frames within 2019 in which these two events could have affected citizens&rsquo, health the most. A weighted fuzzy logic was applied to superimpose climatic (temperature, humidity, wind speed, and solar irradiance) and air quality (particulate matter, ozone, and ammonium) distress (true risk) on an hourly basis, allocated using set healthy and comfortable ranges for a specific dense urban climate context within Milan (Italy), processing data from Milano via Juvara station. The findings show that sensitive groups were at risk of high temperature and pollution separately during 26% and 29% of summer and mid-season hours, respectively, while multi-hazard risk would arise during 10.93% of summer and mid-season hours, concentrated mainly between 14:00 and 20:00.

Published

2021

10. Experimental Assessment of the Reflection of Solar Radiation from Façades of Tall Buildings to the Pedestrian Level

Author

Alberto Speroni, Andrea Giovanni Mainini, Andrea Zani, Riccardo Paolini, Tommaso Pagnacco, and Tiziana Poli

Subjects

heat stress, mitigation, reflective materials, urban heat island, outdoor comfort, visual comfort, optimization, skyscrapers, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Management, Monitoring, Policy and Law

Abstract

Urban climates are highly influenced by the ability of built surfaces to reflect solar radiation, and the use of high-albedo materials has been widely investigated as an effective option to mitigate urban overheating. While diffusely solar reflective walls have attracted concerns in the architectural and thermal comfort community, the potential of concave and polished surfaces, such as glass and metal panels, to cause extreme glare and localized thermal stress has been underinvestigated. Furthermore, there is the need for a systematic comparison of the solar concentration at the pedestrian level in front of tall buildings. Herein, we show the findings of an experimental campaign measuring the magnitude of the sunlight reflected by scale models reproducing archetypical tall buildings. Three 1:100 scaled prototypes with different shapes (classic vertical façade, 10% tilted façade, curved concave façade) and different finishing materials (representative of extremes in reflectance properties of building materials) were assessed. A specular surface was assumed as representative of a glazed façade under high-incidence solar angles, while selected light-diffusing materials were considered sufficient proxies for plaster finishing. With a diffusely reflective façade, the incident radiation at the pedestrian level in front of the building did not increase by more than 30% for any geometry. However, with a specular reflective (i.e., mirror-like) flat façade, the incident radiation at the pedestrian level increased by more than 100% and even by more than 300% with curved solar-concentrating geometries. In addition, a tool for the preliminary evaluation of the solar reflectance risk potential of a generic complex building shape is developed and presented. Our findings demonstrate that the solar concentration risk due to mirror-like surfaces in the built environment should be a primary concern in design and urban microclimatology.

Published

2022

11. Occupant-Centred Control Strategies For Adaptive Facades: Preliminary Study Of The Impact Of Shortwave Solar Radiation On Thermal Comfort

Author

M. Donato, Marco Perino, Alessandra Luna-Navarro, Tiziana Poli, Mauro Overend, J. D. Blanco Cadena, and Fabio Favoino

Subjects

Meteorology, Environmental science, Thermal comfort, Radiation, Shortwave

Published

2020

12. Color Heterogeneity Of Building Surfaces: Lean Image Processing Approach For Visible Reflectance Characterization Performance

Author

Tiziana Poli, Andrea Giovanni Mainini, Alberto Speroni, and Juan Diego Blanco Cadena

Subjects

Environmental science, Image processing, Reflectivity, Remote sensing, Characterization (materials science)

Published

2020

13. Occupant-Centred Control strategies for Adaptive Facades: A preliminary study of the impact of shortwave solar radiation on thermal comfort

Author

Alessandra Luna Navarro, Juan Diego Blanco Cadena, Favoino, Fabio, Mattia, Donato, Tiziana, Poli, Perino, Marco, and Mauro, Overend

Published

2020

14. Maintenance service optimization in smart buildings through ultrasonic sensors network

Author

Tiziana Poli, J. D. Blanco Cadena, Nicola Moretti, Antonino Mannino, and F. Re Cecconi

Subjects

Operational performance, Occupancy, business.industry, Computer science, Smart buildings, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Service optimization, smart contracts, Computer Science Applications, Facility management, occupancy monitoring, 021105 building & construction, Systems engineering, Ultrasonic sensor, BIM, 021108 energy, Smart buildings, occupancy monitoring, Facility management, smart contracts, BIM, business, Adaptation (computer science), Building automation

Abstract

Occupancy monitoring in smart buildings has great potential to improve their operational performance. One of the most common applications concerns the dynamic adaptation of indoor conditions accord...

Published

2020

15. A Cognitive-Driven Building Renovation for Improving Energy Efficiency: The Experience of the ELISIR Project

Author

Stefano Rinaldi, Andrea Giovanni Mainini, Tiziana Poli, Lavinia Chiara Tagliabue, Alberto Speroni, Juan Diego Blanco Cadena, Paolo Bellagente, Sonia Lupica Spagnolo, and Angelo Luigi Camillo Ciribini

Subjects

Internet of things, Cognitive building, Computer Networks and Communications, Smart objects, Computer science, 020209 energy, Building automation, lcsh:TK7800-8360, 02 engineering and technology, Home automation, Machine learning, 0202 electrical engineering, electronic engineering, information engineering, Energy effciency, Electrical and Electronic Engineering, cognitive building, machine learning, building automation, energy efficiency, internet of things, smart cities, business.industry, lcsh:Electronics, 020208 electrical & electronic engineering, Window (computing), Cognitive architecture, Energy consumption, Process automation system, Renewable energy, Hardware and Architecture, Control and Systems Engineering, Information and Communications Technology, Signal Processing, Systems engineering, business, Smart cities, Efficient energy use

Abstract

In the last few years, the technology re-evolution has deeply transformed several aspects of everyday life. For sure, one technology with a strong impact is the so-called Internet of Things (IoT). The IoT paradigm made it possible to break down the data barrier between the vertical domains on which the traditional information and communication technology (ICT) world was organized. Recently, the designers of home automation systems have begun looking to the IoT paradigm to ease the deployment of systems that are able to collect data from different plants. Such a situation has driven further evolution from the traditional automation system, where logic is defined by the programmer or by the user, to a cognitive system that is able to learn from the user&rsquo, habits regarding what should be the best configuration of plants. Several countries are funding renovations of public and private buildings for improving energy efficiency. Generally, such renovations are only focusing on the structure of the building and of its energy performance (e.g., the thermal envelope, window units, air-conditioning plants, and renewable generators) and largely ignoring the use of intelligent devices. On the contrary, scientific literature and practice have demonstrated that the wider use of IoT sensors, as well as distributed and remote intelligence, is fundamental to optimize energy consumption. This research work aimed to identify issues due the application of cognitive solutions during the renovation phase of buildings. In particular, the paper presents a cognitive architecture to support the operation and management phases of buildings, thanks to the massive digitalization of the entire supply chain of the construction sector from the single building element to the entire construction process. Such an architecture is capable of combining data from the IoT sensors and actuators of smart objects installed during the renovation phase, as well as legacy building automation systems. As an indication of the capability of the proposed solution, an intelligent window device was developed and validated. Within the Energy, Life Styled, and Seismic Innovation for Regenerated Buildings (ELISIR) project, window units are equipped with sensors to monitor indoor and outdoor condition behaviours of users. In addition, windows are able to react to changes in the environment by means of actuators that enable motorized opening and shading. Thanks to the cognitive layer designed in the project, the window is able to automatically define the best rules for opening and shading by using the local controller to satisfy user&rsquo, s habits and energy efficiency targets. The cognitive layer defines the appropriate rules for opening and shading using the decision tree algorithm applied to the data generated by the sensors in order to infer users&rsquo, preferences. For this research, two prototypes of the window units were installed in two offices of Politecnico di Milano, Italy. The accuracy of this algorithm to classify the users&rsquo, behaviour and preferences was found to be around 90%, considering an observation interval of two months.

Published

2020

16. Assessing Water Demand of Green Roofs Under Variants of Climate Change Scenarios

Author

Daniele Bocchiola, Andrea Giovanni Mainini, Matteo Paolo Giovanni Fiori, Alberto Speroni, Juan Diego Blanco Cadena, and Tiziana Poli

Subjects

Resource (biology), business.industry, Environmental resource management, Green roof, Climate change, Sustainable water management, Convention, Water balance, Political science, Climate change scenario, Urban heat island, business, Surface runoff

Abstract

Green roofs are a resource for the city: they mitigate pollution, decrease the urban heat island effect (UHI), and regulate storm runoff. Within a climate change scenario, green roofs might instead become an issue, and in particular, in mitigating UHI at mesoscale level. The aim of the contribution is to define the water balance and thus the water consumption of a typical green roof, considering its variation when immersed into different climate scenarios that took place in the past five years (Linked with the following research projects: (1) Research title: 2016, Fondazione Minoprio/Politecnico di Milano, Dipartimento ABC (ongoing), Research type: Convention, Responsible: Matteo Fiori. (2) Research title: 2018, Harpo Contract (ongoing), Research type: Funded by third parties, Responsible: Matteo Fiori. (3) Research title: 2018, Soprema Contract (ongoing), Research type: Funded by third parties, Responsible: Matteo Fiori. (4) Research title: 2018, ASSIMP T-dry Contract (ongoing), Research type: Funded by third parties, Responsible: Matteo Fiori).

Published

2020

17. The Effect of Real-Time Sensing of a Window on Energy Efficiency, Comfort, Health and User Behavior

Author

Andrea Giovanni Mainini, Alberto Speroni, Juan Diego Blanco Cadena, Tiziana Poli, and Nicola Moretti

Subjects

Architectural engineering, Data collection, Sensors, business.industry, Computer science, Indoor thermal comfort, Digital twin, Energy efficiency, Building information modeling, Building information modelling, Information model, Component (UML), HVAC, Interactive buildings, business, Adaptation (computer science), User centered approach, Wireless sensor network, Efficient energy use

Abstract

Sensing technologies integration in buildings has grown rapidly. Most of them are connected to platforms for monitoring data and notifying anomalies, but few are integrated within building elements (either for data collection or response). These technologies help regulate HVAC, or detect building systems’ failures, but few enable passive sustainable strategies or space maintenance. It is possible to enhance building responsive operation by gathering granular data on passive systems’ operation and space occupation by setting a building component, that houses a sensor network. That is, if plugged into Building Information Models, it permits adaptation to unusual climate conditions or abrupt space use [Linked with the following correlated research projects: Research title: 2017, ELISIR. R&D+S&I Smart Living, R.L 26/2015 Widespread creative and technological manufacture 4.0 (ongoing) Research type: Funded by Regione Lombardia Responsible: Tiziana Poli (research unit, Politecnico di Milano).].

Published

2019

18. Comparison of Comfort Performance Criteria and Sensing Approach in Office Space: Analysis of the Impact on Shading Devices’ Efficiency

Author

Andrea Giovanni Mainini, Marco Imperadori, Federica Brunone, Tiziana Poli, and Juan Diego Blanco Cadena

Subjects

Consumption (economics), Architectural engineering, Computer science, Learnability, Circular economy, Visual comfort, Work (electrical), Building operation maintenance, Production (economics), Interactive buildings, User-centered approach, Dynamism, Productivity, Building envelope

Abstract

Indoor occupant comfort has been related to total building energy consumption, and some of its components (lighting, heating, and cooling mainly), together with carbon production, also with occupants’ productivity, learnability, and health. However, few works relate comfort to the circular economy and are barely related to the circularity of the selected building materials or systems. This work is intended to evaluate how the dynamism of a building envelope (triggered by different comfort preferences) disturbs the efficiency of the building and maintenance activities (Linked with the following correlated research projects: (1) Research title: Imaging processing on determining eye strain (ongoing), Participant research groups: VELUXlab & SEEDLab.ABC).

Published

2019

19. Natural aging of cool walls: Impact on solar reflectance, sensitivity to thermal shocks and building energy needs

Author

Florian Antretter, Riccardo Paolini, Tiziana Poli, Michele Zinzi, Andrea Zani, and Zinzi, M.

Subjects

Aging, Cool walls, Materials science, 010504 meteorology & atmospheric sciences, 020209 energy, Thermal shocks, Natural aging, Building envelope, Solar reflectance, Cooling needs, Durability, Soiling, 02 engineering and technology, 01 natural sciences, Sensitivity (explosives), Optics, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Thermal emittance, Electrical and Electronic Engineering, Composite material, Thermal shock, Water content, 0105 earth and related environmental sciences, Civil and Structural Engineering, Cool wall, business.industry, Mechanical Engineering, Building energy, Building and Construction, Solar reflectanceAgingSoilingCool wallsThermal shocksBuilding envelopeDurabilityCooling needs, Cooling need, Facade, business

Abstract

Wall finishes with high solar reflectance and thermal emittance, commonly known as cool walls, can reduce the exterior surface temperatures of façades, and consequently the building cooling energy needs and power demand, and lower the sensitivity to degradation. Aging, though, may affect their performance. To investigate this risk, we exposed for four years in Milan, Italy, two series of façade finish coats, white and beige, facing north and south, in vertical and vertical-sheltered position, and we measured their solar spectral reflectance and thermal emittance before and after aging. The solar reflectance of the white finish coats drops from 0.75 to 0.55 in four years, and from 0.46 to 0.38 for the beige coats, while the thermal emittance is unchanged. Then, for a typical residential building with white walls, we computed that the cooling energy needs increase with walls aging by 5% and 11%, respectively, with or without exterior wall insulation. The exterior surface temperature is increased even by 6 °C, and the number of sudden surface temperature variations in one hour is boosted. Finally, the moisture content in the external layers is reduced, showing the impact on the heat and mass balance because of the uncertainty in solar absorption due to aging. © 2017 Elsevier B.V.

Published

2017

20. Occupant perception of spectral light content variations due to glazing type and internal finish

Author

Tiziana Poli, Jaka Potočnik, Juan Diego Blanco Cadena, and Mitja Košir

Subjects

media_common.quotation_subject, Illuminance, General Medicine, General Chemistry, Automotive engineering, Glazing, Light source, Perception, Environmental science, Daylight, Intensity (heat transfer), Spectral composition, Environmental quality, media_common

Abstract

Indoor Environmental Quality (IEQ) is a key issue in the design and renovation of any indoor building environment. It is comprised of different aspects (e.g. visual, thermal, acoustic comfort, etc.), which directly affect the building occupants’ wellbeing. Studies on this topic have grown rapidly in recent years, as the time that occupants spend indoors is increasing. In this regard, indoor luminous conditions are crucial for providing sufficient task illuminance as well as to stimulate the human circadian system. Insufficient lighting conditions have been proven to be related with reduced productivity/learnability, mood swings and health disorders, thus emphasizing the necessity for further research in this field. Therefore, proper performance evaluation criteria for managing and optimizing lighting spectral composition is needed. For instance, indoor lighting conditions can be evaluated by quantity, intensity, and/or uniformity, but also by spectral content, which determines the energy conveyed and the level at which the human body is stimulated. This spectral content can vary depending on the preferred or prevalent light source, interior finishes and glazing properties generating a singular indoor lighting environment. Thus, a preliminary study on the variation of the indoor daylight spectral content is conducted using a scaled model, applying various glazing types and interior finishes. Then, daylight simulations are performed on a calibrated virtual model to evaluate the effect of various environmental conditions. Results show a considerable impact of the interior finishes as well as glazing type on the attained circadian potential of studied indoor environment.

Published

2019

21. Thermal performance assessment of extensive green roofs investigating realistic vegetation-substrate configurations

Author

Tiziana Poli, Gaetano Sciuto, Stefano Cascone, and Antonio Gagliano

Subjects

extensive green roof, vegetation, thermal performance, surface temperature, building energy simulation, EnergyPlus, Green roof, 0211 other engineering and technologies, Environmental engineering, 02 engineering and technology, Building and Construction, Vegetation, Substrate (marine biology), Rainwater harvesting, 021105 building & construction, Environmental science, 021108 energy, Stage (hydrology), Urban heat island, Absorption (electromagnetic radiation), Building energy simulation, Energy (miscellaneous)

Abstract

Green roofing is a sustainable solution for building energy saving, urban heat island mitigation, rainwater management and pollutant absorption. The effectiveness and performance of green roofs depend on layer composition and properties. The uncertainties surrounding green roof performance modeling are mainly related to the vegetation and substrate layer, which are subjected to surrounding climatic conditions. Energy simulation software typically does not use validated models encompassing all possible combinations of vegetation layers and substrates. Therefore, the objective of this research is to investigate different extensive green roof solutions for assessing thermal performance and to provide information on vegetation and substrate layer design. Different simulations executed in EnergyPlus were carried out based on realistic literature data drawn from previous experimental tests conducted on plants and substrates. Several combinations (30 plant-substrate configurations, six vegetative species and five types of substrates) were defined and evaluated. Furthermore, indexes based on the surface temperatures of green roofs were used. Finally, a comprehensive ranking was created based on the scores to identify which extensive green roof combinations offered the highest performance. Greater plant heights, LAI values and leaf reflectivity values improve green roof energy performance in the summer more significantly than substrate modification. During the winter, thermal performance is more heavily dependent on the substrate if succulent vegetation is present, regardless of the substrate used. These results could provide designers with useful data at a preliminary stage for appropriate extensive green roof selection.

Published

2019

22. The Effect of Water Spray Systems on Thermal and Solar Performance of an ETFE Panel for Building Envelope

Author

Andrea Giovanni Mainini, Tiziana Poli, Andrea Zani, and Alberto Speroni

Subjects

Engineering, cooling, 020209 energy, Nuclear engineering, Nozzle, lightweight building envelope, 02 engineering and technology, chemistry.chemical_compound, Engineering (all), ETFE, dynamic solar control, ETFE façade, summer comfort, sun shading, water spray system, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Mean radiant temperature, Engineering(all), business.industry, General Medicine, Structural engineering, Solar access, chemistry, Facade, business, Air gap (plumbing), Building envelope

Abstract

ETFE membranes are generally used in architecture for large roofing and facade systems, because of their transparency and lightness compared to glass alternatives. Multilayer ETFE panels are used to improve single membrane systems performances, reducing thermal losses, by the use of an air gap between two or more ETFE foils, generally serigraphed or surface treated to reduce solar gains. Surface temperatures and global solar radiation strongly affects mean radiant temperature (MRT), and comfort perceived by a user facing a transparent envelope as well as solar gains strongly influences primary energy use for cooling in summer conditions. In the following paper an alternative dynamic solar gains mitigation strategy is presented and applied to a double layer, non-cushions, ETFE panel for facades. We measured the effectiveness of a water spray system located in the air-gap between the parallel ETFE foils and used to reduce surface temperatures and solar access depending on different summer solar radiation values and outdoor/indoor air temperature conditions. Systems alternative with different in nozzle dimension, water spray geometry and water consumption were already tested to evaluate the best compromise between solar gains reduction and water use. The results are preliminary but we noticed that a reduction up to the 10% of the total solar gains could be achieved as well as a reduction of 10 °C of surface temperature. Comfort evaluation for a standard indoor space were already done.

Published

2016

23. Effects of soiling and weathering on the albedo of building envelope materials: Lessons learned from natural exposure in two European cities and tuning of a laboratory simulation practice

Author

Giancarlo Terraneo, Ronnen Levinson, Hugo Destaillats, Riccardo Paolini, Pierangelo Metrangolo, Michele Zinzi, Alberto Muscio, Tiziana Poli, Mohamad Sleiman, Chiara Ferrari, Paolini, R., Terraneo, G., Ferrari, C., Sleiman, M., Muscio, A., Metrangolo, P., Poli, T., Destaillats, H., Zinzi, M., and Levinson, R.

Subjects

Aging, Soiling, Energy, Laboratory exposure, Natural exposure, Reflectance, Weathering, Renewable Energy, Sustainability and the Environment, Albedo, Atmospheric sciences, Natural (archaeology), Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Absolute deviation, Engineering, Deposition (aerosol physics), Solar reflectance, Physical Sciences, Chemical Sciences, Environmental science, Thermal emittance, Building envelope

Abstract

Chemical and physical stress, weathering, organic and inorganic matter deposition, and microbial growth over time, or “aging”, affect the optical-radiative performance of building envelope materials. Natural exposure helps to quantify these effects, but it usually requires several years. Further, the contribution of the different degradation agents cannot be isolated, and results from different campaigns cannot be easily compared because of the variability in the boundary conditions producing aging. Here we present an adaptation of the protocol implemented by ASTM as D7897-18 “Standard Practice for Laboratory Soiling and Weathering of Roofing Materials to Simulate Effects of Natural Exposure on Solar Reflectance and Thermal Emittance”. The aim is to reproduce in the laboratory the changes in albedo (solar reflectance) and thermal emittance experienced by building envelope materials in European urban areas rather than in the United States. We tuned the spraying duration and weathering cycles, and we compared the UV–vis–NIR reflectances of naturally-aged specimens (48 months in Rome and Milan) of roofing and wall finish materials to those exposed to laboratory weathering and soiling. Excluding those materials that show early physical-chemical degradation, the mean absolute deviation between natural and laboratory exposure of roofing products is equal to 0.027 in albedo. This is a lower value than the differences between two natural exposure campaigns at the same site. We clearly defined the limits of application of the protocol, providing an appraisal of the repeatability of natural aging. Moreover, we identified possible improvements in the methodology to conduct both natural and laboratory exposure.

Published

2020

24. Lean Strategies for Window Retrofit of Italian Office Buildings: Impact on Energy Use, Thermal and Visual Comfort

Author

Andrea Giovanni Mainini, Alberto Speroni, Daniele Bonato, and Tiziana Poli

Subjects

primary energy demand, Engineering, Architectural engineering, Energy demand, Primary energy, business.industry, transparent building envelope, Thermal comfort, Window films, transparent building envelope,human comfort, primary energy demand, transparent building envelope,human comfort, Window films, Benefit analysis, Energy(all), Light control, Thermal, Radiance, business, human comfort, Overheating (electricity)

Abstract

The aim of this paper is to explore lean retrofit strategies for transparent envelope of existing Italian office buildings, to improve their performance and to ensure low energy use and a good thermal and visual comfort.Solar and light control is necessary to prevent overheating in office buildings those generally present high internal loads. The effectiveness of solar window films use in Italian buildings context is here investigated, in comparison with other strategies like the use of internal roller blinds and the substitution of the existing window panes with high performance ones. A sensitivity analysis was assessed to evaluate the office unit primary energy use under different retrofit solution, weather conditions and window to wall ratio. A conventional existing office unit was modeled in EnergyPlus and LBNL Radiance to assess heating, cooling and lighting energy demand coupled with visual comfort parameters. Thermal comfort was evaluated hourly in accordance with ISO 7730. The results are presented with a cost - benefit analysis to understand the best retrofit solution.

Published

2015

25. School buildings data driven energy retrofit

Author

Nicola, Moretti, Andrea Giovanni Mainini, Tagliabue, Lavinia Chiara, Sebastiano, Maltese, Mario Claudio Dejaco, Valentina, Villa, Giuseppe Di Giuda, Tiziana, Poli, Ciribini, Angelo Luigi Camillo, DE ANGELIS, Enrico, Seyedamir, Hakim, and Fulvio Re Cecconi

Subjects

adeguamento energetico, edifici scolastici, processo data driven, open data, BIM, GIS

Published

2017

26. Simulating the Thermal-Energy Performance of Buildings at the Urban Scale: Evaluation of Inter-Building Effects in Different Urban Configurations

Author

Tiziana Poli, Anna Laura Pisello, Veronica Lucia Castaldo, and Franco Cotana

Subjects

building energy performance, building thermal-energy dynamic simulation, inter-building effect, mutual shading, urban context, Architectural engineering, Engineering, Building science, Building modeling, business.industry, Context (language use), Civil engineering, Urban Studies, Dynamic simulation, Urban scale, business, Thermal energy

Abstract

The reduction of the energy use of buildings at the urban scale represents a key research and design topic with the purpose of developing specific methods for saving energy in buildings. These methods are often focused on the analysis of building thermal-energy behavior by considering the building as a stand-alone object. In this perspective, the thermal-energy behavior of two buildings in New York City is evaluated in this paper with varying urban contexts, in order to evaluate the Inter-Building Effect (IBE). The IBE analysis shows that the inaccuracy in neglecting the urban context in building modeling varies from 9.6 percent, to 71.9 percent. These results confirm that, in order to make accurate predictions about building thermal-energy performance in real urban contexts through dynamic simulation, the interaction between the building and the urban surrounding should be taken into account, in particular in dense urban areas.

Published

2014

27. Spectral Light Transmission Measure of Metal Screens for Glass Façades and Assessment of their Shading Potential

Author

Andrea Giovanni Mainini, Tiziana Poli, Alberto Speroni, Michele Zinzi, and Zinzi, M.

Subjects

Engineering, Metal mesh grid, Building simulation, Angular light transmittance, Perforated screen, Shading coefficient, Shading devices, business.industry, angular light transmittance, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, metal mesh grid, perforated screen, shading devices, shading coefficient, building simulation, TRNSYS, Grid, Optics, Energy(all), Solar gain, Facade, Shading, Curtain wall, business, Building envelope, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

Metal mesh grids and perforated screens are used in new and renovated buildings as an external second skin for the building envelope; to enhance architecture design, to filter daylight and to reduce solar gains. Their effectiveness as shading devices depends on their geometry, texture and application. In the first part of the paper six types of shadings with similar transparencies, depending on geometry and openness factor of metal mesh grid and perforated screen, were investigated. Integrating sphere measurements were collected to obtain spectral optical properties of the shading devices. The optical properties were measured for incidence angles between normal and 60°with a step of 15°. The data collected were integrated to obtain visible and solar transmittance values in accordance with ISO 9050. In the second part of the paper a parametric study on spacing and thread dimension of metal mesh grids was done using Window 6.2 models to evaluate their shading potential, defining annual different shading profiles depending on shading geometry, latitude and orientation. A conventional office unit with a curtain wall facade with a metal mesh grid shading system was modeled in TRNSYS to evaluate the solar gain profiles and their effects on the energy balance of the office unit, under different weather conditions.

Published

2014

28. Assessment of Thermal Stress in a Street Canyon in Pedestrian Area with or without Canopy Shading

Author

Andrea Giovanni Mainini, Riccardo Paolini, Tiziana Poli, and Lorenzo Vercesi

Subjects

Canyon, Canopy, geography, geography.geographical_feature_category, Meteorology, Microclimate, Thermal comfort, Context (language use), urban heat island, urban canyon, mitigation, microclimate, Solar access, Energy(all), Environmental science, Shading, Urban heat island

Abstract

Urban areas are characterized by a plurality of microclimates given by the diversity of morphologies, optical and radiative properties, solar access and air circulation in different street canyons. For these reasons, beyond strategies at urban scale, mitigation needs to be addressed at district or even at urban canyon scale, just like the design of buildings. Among different options, canopy shading has been proposed in several urban contexts, and to assess the impact of this mitigation technique on air temperature and outdoor thermal comfort conditions we performed numerical simulations for a north-south oriented urban canyon with high solar access (height to width ratio equal to 0.18) in the climate context of Milano (Italy).

Published

2014

29. The hygrothermal performance of residential buildings at urban and rural sites: Sensible and latent energy loads and indoor environmental conditions

Author

Tiziana Poli, Riccardo Paolini, Maryam MeshkinKiya, Veronica Lucia Castaldo, Franco Cotana, Florian Antretter, Anna Laura Pisello, Andrea Zani, and Publica

Subjects

020209 energy, Urban heat island, 02 engineering and technology, 7. Clean energy, Building energy simulation, Heating, Cooling, Moisture, Latent heat, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Building energy simulatio, Electrical and Electronic Engineering, Civil and Structural Engineering, n Heating, Climate zones, Mechanical Engineering, Environmental engineering, Building and Construction, Heat wave, Urban building, 13. Climate action, Weather data, Environmental science, Indoor air temperature, Urban heat island, Building energy simulatio,n Heating, Cooling, Moisture

Abstract

Cities often show nighttime air temperatures higher by 3–4 °C than adjacent non-urban areas. This yields to cooling loads in average higher by 13% for urban than rural buildings. Here we assess the hygrothermal performance and the heating and cooling loads of a reference building representative of the Italian stock. We compare its performance calculated with hourly urban weather data (2002–2008) with the performance of the same building using a rural dataset instead. Milan’s Urban Heat Island reduces the heating loads by 12% and 16%, for the non-insulated and insulated building, respectively, while the cooling loads are increased by 41% and 39%. The urban building also shows dehumidification loads 74–78% lower than the rural building. Moreover, during the 2003 heat wave, the indoor air temperature is computed to be 1.5 °C–2.2 °C higher in a non-conditioned urban building than in the rural one. This increases the wakefulness, occupants’ vulnerability to overheating, and impacts the overall hygrothermal performance. Our findings highlight the need of a different design concept for urban with respect to non-urban buildings, even though they are, by law, in the same climate zone.

Published

2016

30. SolarPW: A New Solar Design Tool to Exploit Solar Potential in Existing Urban Areas

Author

Gabriele Lobaccaro, Tiziana Poli, Gabriele Masera, and Francesco Frontini

Subjects

Engineering, Architectural engineering, Solar thermal collectors, Zero-energy building, business.industry, Design tool, Photovoltaic mounting system, solar potential, solar energy, photovoltaic panels, solar thermal collectors, Solar potential, Solar energy, Low-energy house, Solar access, Energy(all), Photovoltaic panels, Urban planning, Sustainable design, business

Abstract

This paper aims to show a new solar design tool that can be used to optimize the building's shape and solar access in existing urban areas. The presented methodology was used for the analysis of the Surfers Paradise in Queensland, where in the past the urban and buildings development changed completely the morphology of the city. Since in the medium term the Zero Energy building will be the standard for new constructions, urban development should follow the Integrated Sustainable Design approach and the principles of solar design in order to exploit solar radiation using PV modules and Solar thermal collectors in the building envelopes. The tool is based on Matlab algorithm and on RADIANCE-DAYSIM, a dynamic simulation tool, and can help urban designers and architects since the first design phase.

Published

2012

31. Spectral Light Transmission Measure and Radiance Model Validation of an innovative Transparent Concrete Panel for Façades

Author

Michele Zinzi, Stefano Cangiano, Tiziana Poli, and Andrea Giovanni Mainini

Subjects

Light transmission, Measure (data warehouse), business.industry, Computer science, daylighting, Optical properties measurements, advanced envelope materials, building integration, Fiber-reinforced concrete, Transparency (human–computer interaction), Model validation, law.invention, Optics, Integrating sphere, Energy(all), law, Radiance, business, Daylighting

Abstract

This paper presents an approach to measure, characterize and simulate photometric performances of light transmission efficiency of an innovative transparent concrete panel for facades. The transparency was obtained by a texture of PMMA resin insertions in the fiber reinforced concrete panel. In the first part of the paper integrating sphere measurements were collected to derive spectral optical properties of the panel. The optical properties of a specimen were measured for incidence angles between normal and 60° and the spectral results were reported. The data collected during the measures were used to: create and validate a simplified Radiance model of the panel and to optimize simulation parameters to estimate properly the total internal reflections effects thought the PMMA resin insertions.

Published

2012

32. District Geometry Simulation: A Study for the Optimization of Solar Façades in Urban Canopy Layers

Author

Gabriele Masera, Gabriele Lobaccaro, Tiziana Poli, and Francesco Fiorito

Subjects

Solar façades, Engineering, Architectural engineering, business.industry, Solar potential, Photovoltaic mounting system, Civil engineering, Urban canopy, Low-energy house, Solar radiation, Solar reflection, Energy (all), Energy(all), solar radiation, solar façades, solar potential, solar reflection, Passive solar building design, business, Building envelope

Abstract

This paper shows the results of a research aimed at assessing the amount of energy that can be produced by solar envelopes (facades and roofs) in urban contexts. A preliminary set of simulations was carried out, through dynamic yearly analyses on a sample building, to identify the main parameters influencing the availability of solar radiation and to optimize the building’s shape. The general target is to maximise solar radiation available on the external building envelope, in order to exploit it through building integrated solar systems. Furthermore, the effect of reflected solar radiation has been analysed by simulating different finishing materials (green facades, glazed facades, concrete facades and aluminium facades) on the neighbouring buildings. © 2012 Published by Elsevier Ltd. Selection and/or peer-review under responsibility of PSE AG

Published

2012

33. Long term self-cleaning and photocatalytic performance of anatase added mortars exposed to the urban environment

Author

Michele Zinzi, Aysegul Basak Aslan, Tiziana Poli, MariaPia Pedeferri, Riccardo Paolini, Maria Vittoria Diamanti, Marta Rossini, and Zinzi, M.

Subjects

Lightness, Anatase, Aging, Soiling, Materials science, Titanium dioxide, Self-cleaning, Building envelope, Civil and Structural Engineering, Building and Construction, Materials Science (all), Environmental engineering, Durability, chemistry.chemical_compound, chemistry, Chemical engineering, Photocatalysis, Degradation (geology), General Materials Science, Irradiation, Porosity

Abstract

Building envelope materials containing titanium dioxide have been proposed to exploit their photoactivated depolluting and self-cleaning potential, but a full appraisal of their durability and long-term performance is still missing. This study reports a two-year campaign of natural exposure in Milano, Italy, of photoactive and non-photoactive fiber-reinforced mortars, analyzing the evolution of lightness, solar reflectance, porosity and photoactivity. After aging, photoactive samples showed limited color variation. The photocatalytic activity of TiO2 containing samples, characterized with dye degradation tests, was minimal after aging. Then, after alternated cycles of UV-Vis irradiation and rinsing, almost 70% of the initial photocatalytic efficiency was recovered. © 2015 Published by Elsevier Ltd.

Published

2015

34. BIMM-Based Visual Language of Construction

Author

Giulio Zani, Fulvio Re Cecconi, Ingrid Paoletti, Alberto Pavan, Alessandra Zanelli, Maria Annunziata Pignataro, Bruno Daniotti, Tiziana Poli, Maria Pompeiana Iarossi, Daniele Giovanni Papi, Alberto Stefanazzi, E. Arlati, Angelo Lucchini, Stefano Capolongo, Gabriele Lobaccaro, A. Guzzetti, Roberto Naboni, Vittorio Caffi, B. Copa, Marco Lorenzo Agostino Trani, and Paolo Rigone

Subjects

Engineering drawing, Visual language, Universal Networking Language, Building information modeling, Relation (database), Computer science, business.industry, Field (Bourdieu), Architecture, business, Built environment, Building envelope

Abstract

The following paragraphs refer to the images included in the poster, focusing on the management of the Building Information Modeling in relation to the field of Architecture, Built Environment, Construction Engineering.

Published

2015

35. Metal mesh as shading devices and thermal response of an office building: Parametric analysis

Author

Alberto Speroni, Andrea Giovanni Mainini, Michele Zinzi, Tiziana Poli, and Zinzi, M.

Subjects

Engineering, Primary energy, Angular solar and visible transmittance measurements, business.industry, Shading devices, Building Envelope, Energy efficiency, Metal mesh, Office, Automotive engineering, Energy(all), Thermal, Shading device, Facade, Angular solar and visible transmittance measurement, Metal Mesh, Shading devices, Energy efficiency, Office, Building Envelope, Angular solar and visible transmittance measurements, Shading, business, Building envelope, Overheating (electricity), Simulation, Efficient energy use

Abstract

Windows are the most important part of the building façade to control solar gains, thermal losses and visual comfort. Office buildings usually have medium-high WWR (window to wall ratio value) and high internal gains (due to users, lighting and appliances). For this reason, they require a good balance between thermal and visible performances of transparent façades and shading control strategies to avoid overheating, optimizing daylighting aspects. A sensitivity analysis was assessed to evaluate primary energy use for heating, lighting and cooling for conventional Italian single office units equipped with static metal mesh shading devices with different geometries and openness factor values. Different location (Milan, Palermo), orientation (south and west) and WWR (33% and 100%) were analyzed. Hence shading devices alternatives as venetian blinds and sun control windows are proposed as a comparison. © 2015 The Authors.

Published

2015

36. Transparent multilayer ETFE panels for building envelope: Thermal transmittance evaluation and assessment of optical and solar performance decay due to soiling

Author

Andrea Giovanni Mainini, Lorenzo Vercesi, Michele Zinzi, Riccardo Paolini, Tiziana Poli, and Zinzi, M.

Subjects

Soiling of membrane, Materials science, business.industry, Building envelope, thermal transmittance assessment, Soiling of membranes, Experimental, Solar transmittance, Thermographic camera, law.invention, Thermal transmittance, chemistry.chemical_compound, ETFE, Tilt (optics), Optics, Building envelope, Energy(all), chemistry, law, Thermal, soiling of membranes, building envelope, thermal transmittance assessment, experimental, business

Abstract

This paper is divided in two sections. The first section present the measurement and evaluation of soiling effects of spectral light and solar transmittance decay of Ethylene Tetrafluoroethylene Copolymer (ETFE) membranes after three and six months of exposure in Milano city outdoor urban conditions, with different tilt and orientation. The obtained values where use to compute thermal and solar properties of a multilayer ETFE panel. The second section presents the results of an experimental campaign for measuring thermal transmittance of a non-pneumatic and non-cushion shape double layer ETFE sample panel realized with two membranes parallel to each other and tensioned on a frame. The thermal transmittance measurement reflects ISO 9869 measurement approach combined with the use of a thermographic camera to evaluate surface temperatures over the sample panel.

Published

2014

37. Effect of ageing on solar spectral reflectance of roofing membranes: Natural exposure in Roma and Milano and the impact on the energy needs of commercial buildings

Author

Emiliano Carnielo, Michele Zinzi, Tiziana Poli, Riccardo Paolini, Andrea Giovanni Mainini, Zinzi, M., Paolini, R, Zinzi, M, Poli, T, Carnielo, Emiliano, and Mainini, Ag

Subjects

Engineering, Cooling load, Microclimate, Ageing, Building energy need, Building envelope, Cool roof, Natural exposure, Soiling, Solar reflectance, UV-Vis-NIR, Atmospheric sciences, Optics, Electrical and Electronic Engineering, Roof, Civil and Structural Engineering, Riflettanza solare, Invecchiamento, Sporcamento, Cool roof, Fabbisogno energetico dell'edificio, UV-Vis-NIR, Esposizione naturale, Involucro Edilizio, Solar reflectance, Ageing, Soiling, Cool roof, Building energy need, UV-Vis-NIR, Natural exposure, Building envelope, business.industry, Mechanical Engineering, Building and Construction, Reflectivity, Reflective surfaces, Biological growth, business

Abstract

Highly reflective roofs, widely known as cool roofs, can reduce peak surface temperatures and the energy required to cool buildings, mitigate urban microclimates, and offset CO 2 . However, weathering, soiling, and biological growth affect their solar reflectance. In this study, the solar spectral reflectances of 12 roofing membranes were measured before the exposure and after 3, 6, 12, 18, and 24 months of natural ageing in Roma and Milano, Italy. The membranes with an initial solar reflectance greater than 0.80, for example, decreased in reflectance by 0.14 in Roma and 0.22 in Milano after two years. Then, for a typical highly insulated commercial building, the annual cooling load savings were calculated to be reduced by 4.1–7.1 MJ m −2 y −1 per 0.1 loss in reflectance. When the buildings are non-insulated, the savings reduction is 58–71 MJ m −2 y −1 in Milano and 70–84 MJ m −2 y −1 in Roma. Ageing yielded a reduction of the cooling load savings that could be achieved with a new white membrane of 14–23% in Roma and of 20–34% in Milano. Moreover, in Milano, an aged, white, highly insulated roof, which has a solar reflectance of 0.56, may reach a surface temperature 16 °C higher than a new roof, which has a solar reflectance of 0.80.

Published

2014

38. 4. Textile Façades

Author

Stefano Bertino, Andrea Giovanni Mainini, and Tiziana Poli

Subjects

Architectural engineering, Engineering, business.industry, Textile (markup language), business

Published

2013

39. 4. Textile Fassaden

Author

Andrea Giovanni Mainini, Tiziana Poli, and Stefano Bertino

Published

2013

40. Energy Problems Analysis

Author

Giorgio Pansa, Tiziana Poli, Andrea Giovanni Mainini, Enrico De Angelis, Riccardo Paolini, and Matteo Paolo Giovanni Fiori

Subjects

education.field_of_study, Architectural engineering, Exploit, business.industry, Computer science, Scale (chemistry), Population, Thermal comfort, Solar energy, Renewable energy, business, education, Energy (signal processing), Built environment

Abstract

The reduction of the energy demand of building stocks is a crucial issue for designers and public administrations, considering the huge effect on population in terms of health related to thermal comfort and to pollution, and in terms of energy costs. However, in common design practice just the effect of climate on buildings is considered, while designers, normally, since they are not provided with the suited tools for this, do not care about the influence of the built environment, which is proved in the literature to be huge. Herein we present the analyses of possible actions for refurbishing and reshaping the energy demand of the Walled City of Multan, focusing on three main aspects: urban scale, building scale, and solar energy exploitation. In detail, we analyzed and modeled the existing condition and possible improvements to mitigate thermal stress in urban areas. Then, we analyzed the energy demand of single buildings, modeling possible actions to improve indoor thermal comfort. Finally, we considered the possible ways to exploit the available solar energy to reduce the energy use in buildings. The aim of this study is then to assess the mitigation of outdoor heat stress conditions, within the urban environment; the thermal comfort conditions indoors; the operational energy need of buildings; and the fraction of energy that is possible to cover with renewable sources.

Published

2013

41. Overall environmental impact for structural polymers: a material selection process

Author

Khorasgani, R. A., Tiziana Poli, and Rezaallah, A.

Published

2013

42. Impedance Spectroscopy Analysis of Perovskite Solar Cell Stability

Author

Ilaria Matacena, Pierluigi Guerriero, Laura Lancellotti, Brigida Alfano, Antonella De Maria, Vera La Ferrara, Lucia V. Mercaldo, Maria Lucia Miglietta, Tiziana Polichetti, Gabriella Rametta, Gennaro V. Sannino, Paola Delli Veneri, and Santolo Daliento

Subjects

perovskite, solar cell, impedance spectroscopy, stability, degradation, Technology

Abstract

The aim of this work is to investigate the degradation of perovskite solar cells (PSCs) by means of impedance spectroscopy, a highly sensitive characterization technique used to establish the electrical response of a device in a nondestructive manner. In this paper, PSCs with two different electron transport layers (ETLs) are studied: PSCs with undoped SnO2 as an ETL are compared to PSCs with an ETL composed of graphene-doped SnO2 (G-SnO2). Experimental data were collected immediately after fabrication and after one week, monitoring both impedance spectroscopy and dark current-voltage (I-V) curves. It was observed that, in the case of the undoped PSCs, the degradation of the solar cells affected both the AC behavior of the devices, modifying the associated Nyquist plots, and the DC behavior, observable from the dark I-V measurements. Conversely, the solar cells with G-SnO2 showed no variation. Considering the Nyquist plots, a quantitative analysis was performed by comparing the parameters of a proper equivalent circuit model. The results were coherent with those achieved in the DC analysis, thus proving that the analysis of impedance spectra, supported with dark I-V curves, allows one to gain a deeper knowledge of the degradation phenomena of perovskite solar cells. This study opens the door for further improvement of these devices through a better understanding of their electrical behavior.

Published

2023

43. Illuminance Prediction through Statistical Models

Author

Vincenzo Piuri, Tiziana Poli, Marco Faifer, Massimo Lazzaroni, Loredana Cristaldi, Stefano Ferrari, and A. Fina

Subjects

Meteorology, business.industry, Weather forecasting, Illuminance, Statistical model, computer.software_genre, Renewable energy, Power (physics), Autoregressive model, Environmental science, Satellite, ELETTRICI, business, computer, Solar power, Remote sensing

Abstract

A reliable forecast of renewable energies production, like solar radiation, is required for planning, managing, and operating power grids. Besides, the short-term prediction of the climatic conditions is very useful for many other purposes (e.g., for Climate Sensitive Buildings). Data for the prediction can be produced by several sources (satellite and ground images, numerical weather predictions, ground measurement stations) with different resolution in time and space. However, the unsteadiness of the weather phenomena and the variability of the climate make the prediction a difficult task, although the data collected in the past can be used to capture the daily and seasonal variability. In this paper, several autoregressive models (namely, AR, ARMA, and ARTMA) are challenged on a two-year ground solar illuminance dataset measured in Milan, and the results are compared with those of simple predictor and results in literature.

Published

2012

44. Illuminance Prediction through SVM Regression

Author

Marco Rossi, Stefano Ferrari, Massimo Lazzaroni, Riccardo Paolini, Loredana Cristaldi, Tiziana Poli, and Francesco Bellocchio

Subjects

Engineering, business.industry, Regression analysis, computer.software_genre, Renewable energy, Data modeling, Support vector machine, Kernel (linear algebra), Smart grid, Production (economics), Data mining, business, computer, Energy (signal processing)

Abstract

In a scenario where renewable energies will play a foreground role, a reliable forecast of the energy production of such sources, like solar radiation, is a requirement for managing smart grids. However, the ability to predict the possibility to produce sustainable energy in different climatic conditions can be very useful for many other purposes (e.g., for Climate Sensitive Buildings). This is particularly true when working with climatic data that are, as a matter of fact, highly unsteady. Nevertheless, the use of data collected in the past can help to face the daily and seasonal variability. An algorithm for illuminance prediction based on Support Vector Regression (SVR) is here proposed and the results are presented and discussed.

Published

2011

45. The influence of albedo of surfaces on microclimatic modifications. New scenarios for Milano

Author

Tiziana Poli, Gattoni, L. P., Arlunno, R., Pansa, G., and Zappalà, D.

Published

2007

46. Daylight measurement in Milan

Author

Tiziana Poli, Gattoni, L. P., Zappalà, D., and Gottardi, R.

Published

2006

47. Radiological assessment of bone segments for transplantation: experience at Rizzoli Orthopedic Institute

Author

Tiziana Poli, Carmelo Quinto, Nicoletta Taddia, Pier Maria Fornasari, Ugo Albisinni, and Cecilia Tetta

Subjects

Lytic lesions, Adult, Male, medicine.medical_specialty, Adolescent, Radiography, Tissue Banks, Bone tissue, Bone and Bones, medicine, Humans, Radiology, Nuclear Medicine and imaging, Aged, Bone Transplantation, business.industry, General Medicine, Middle Aged, Surgery, Transplantation, medicine.anatomical_structure, Italy, Bone lesion, Radiological weapon, Orthopedic surgery, Female, Radiology, Bone Diseases, business, Donor screening

Abstract

Aim To analyse results obtained from radiological assessment of skeletal segments stored in the musculoskeletal tissue bank (MTB) at Rizzoli Orthopaedic Institute. Materials and methods Between January 1997 and June 2003, 891 bone segments underwent radiographic examination in two views. Two hundred and thirteen of these segments were examined by a radiologist between July 2002 and June 2003. Diagnostic evaluation was aimed at recognising relevant degenerative, traumatic and focal lesions. Focal lesions underwent histological tests. Results Twenty-two lytic lesions were found in 12 segments. Ten of these were studied between July 2002 and June 2003 and two in the period before specialist radiological assessment. In the latter cases the lesions were identified by the orthopedic specialist who had examined the X-rays before planning surgery. Histological tests showed that the bone tissue was normal or involved by degenerative phenomena. Conclusions We think donor screening should include radiological assessment of bone segments, performed according to standard parameters by a radiologist to identify bone lesions that may jeopardise the successful outcome of surgery.

Published

2006

48. Crowdsensing IoT Architecture for Pervasive Air Quality and Exposome Monitoring: Design, Development, Calibration, and Long-Term Validation

Author

Saverio De Vito, Elena Esposito, Ettore Massera, Fabrizio Formisano, Grazia Fattoruso, Sergio Ferlito, Antonio Del Giudice, Gerardo D’Elia, Maria Salvato, Tiziana Polichetti, Paolo D’Auria, Adrian M. Ionescu, and Girolamo Di Francia

Subjects

IoT AQ nodes, sensor network, calibration, air quality monitoring, machine learning, Chemical technology, TP1-1185

Abstract

A pervasive assessment of air quality in an urban or mobile scenario is paramount for personal or city-wide exposure reduction action design and implementation. The capability to deploy a high-resolution hybrid network of regulatory grade and low-cost fixed and mobile devices is a primary enabler for the development of such knowledge, both as a primary source of information and for validating high-resolution air quality predictive models. The capability of real-time and cumulative personal exposure monitoring is also considered a primary driver for exposome monitoring and future predictive medicine approaches. Leveraging on chemical sensing, machine learning, and Internet of Things (IoT) expertise, we developed an integrated architecture capable of meeting the demanding requirements of this challenging problem. A detailed account of the design, development, and validation procedures is reported here, along with the results of a two-year field validation effort.

Published

2021

49. CVD transfer-free graphene for sensing applications

Author

Chiara Schiattarella, Sten Vollebregt, Tiziana Polichetti, Brigida Alfano, Ettore Massera, Maria Lucia Miglietta, Girolamo Di Francia, and Pasqualina Maria Sarro

Subjects

ammonia, chemiresistors, CMOS-compatible process, graphene, nitrogen dioxide, transfer-free growth, Technology, Chemical technology, TP1-1185, Science, Physics, QC1-999

Abstract

The sp2 carbon-based allotropes have been extensively exploited for the realization of gas sensors in the recent years because of their high conductivity and large specific surface area. A study on graphene that was synthetized by means of a novel transfer-free fabrication approach and is employed as sensing material is herein presented. Multilayer graphene was deposited by chemical vapour deposition (CVD) mediated by CMOS-compatible Mo. The utilized technique takes advantage of the absence of damage or contamination of the synthesized graphene, because there is no need for the transfer onto a substrate. Moreover, a proper pre-patterning of the Mo catalyst allows one to obtain graphene films with different shapes and dimensions. The sensing properties of the material have been investigated by exposing the devices to NO2, NH3 and CO, which have been selected because they are well-known hazardous substances. The concentration ranges have been chosen according to the conventional monitoring of these gases. The measurements have been carried out in humid N2 environment, setting the flow rate at 500 sccm, the temperature at 25 °C and the relative humidity (RH) at 50%. An increase of the conductance response has been recorded upon exposure towards NO2, whereas a decrease of the signal has been detected towards NH3. The material appears totally insensitive towards CO. Finally, the sensing selectivity has been proven by evaluating and comparing the degree of adsorption and the interaction energies for NO2 and NH3 on graphene. The direct-growth approach for the synthesis of graphene opens a promising path towards diverse applicative scenarios, including the straightforward integration in electronic devices.

Published

2017

50. Correction: Alfano et al. A Review of Low-Cost Particulate Matter Sensors from the Developers’ Perspectives. Sensors 2020, 20, 6819

Author

Brigida Alfano, Luigi Barretta, Antonio Del Giudice, Saverio De Vito, Girolamo Di Francia, Elena Esposito, Fabrizio Formisano, Ettore Massera, Maria Lucia Miglietta, and Tiziana Polichetti

Subjects

n/a, Chemical technology, TP1-1185

Abstract

The authors wish to make the following corrections to this paper [...]

Published

2021