0000000001129689

AUTHOR

Teresa Maria Gulotta

showing 11 related works from this author

Constructal law optimization of a boiler

2017

The paper aims at the optimization of the design of a biomass boiler under the inspiration of the Constructal Law by Bejan. The boiler is of the smoke tubes typology, fuel being biomass pellets. The smoke tubes are 16 and are placed in a staggered configuration. A model is built in MATLAB environment, based on empirical correlations and the mean log temperature methodology. The analysis is based on the development of a wide parametric analysis that involves variations of diameters, numbers and positioning of the tubes. Results are based on the concept of the overall performance coefficient methodology and investigate both the pressure drops variation and the thermal power generated in the d…

Fluid Flow and Transfer ProcessesConstructal law020209 energyMechanical EngineeringSettore ING-IND/10 - Fisica Tecnica Industriale0202 electrical engineering electronic engineering information engineeringBoiler (power generation)Mechanical engineeringEnvironmental science02 engineering and technologyCondensed Matter PhysicsBoiler Constructal Law Modelling Parametric Analysis Overall Performance CoefficientInternational Journal of Heat and Technology
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Measuring the Sustainability of Transportation Infrastructures Through Comparative Life Cycle and Energy Assessment

2020

The 2030 Agenda for Sustainable Development was adopted at the United Nations Sustainable Development Summit on 25 September 2015. It addresses people, planet and prosperity needs and particularly focuses on transport systems that must be 1) Sustainable. 2) Quality and resilient. 3) Safe. 4) Affordable and accessible. The Research Project PRIN USR342 focuses on similar concepts and the expected outputs are 3 paving solutions (made with recycled materials and sustainable technologies), 4 sets of modules (software), and 2 platforms. In this view, the objective of this study is the identification of the best pavement technology in terms of energy and environmental performance. To this aim a LC…

Sustainable developmentgeographySummitgeography.geographical_feature_categorymedia_common.quotation_subjectPrincipal (computer security)Environmental economicsSustainabilityProduction (economics)Quality (business)BusinessProsperityLife-cycle assessmentmedia_common
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A bottom-up harmonized energy-environmental models for europe (BOHEEME): A case study on the thermal insulation of the EU-28 building stock

2021

Abstract The paper presents a methodological approach, called “BOttom-up Harmonized Energy-Environmental Models for Europe” (BOHEEME), that combines bottom-up modeling, energy dynamic simulation, and life cycle assessment for evaluating and comparing the energy and environmental effects of different renovation strategies of the residential EU building stocks, from micro to the macro level. The study defines 672 building models representative of the residential EU-28 building stocks built before 2010, called archetypes, and the improvement of their envelope, applying different insulation materials from a traditional one to bio-based materials and studying their environmental effects via LCA.…

Archetypes Bio-based insulation materials Bottom-up approach European building stocks LCA Renovation actionsSettore ING-IND/11 - Fisica Tecnica AmbientaleResidential energybusiness.industry020209 energyMechanical Engineering0211 other engineering and technologiesClimate change02 engineering and technologyBuilding and ConstructionTop-down and bottom-up designEnvironmental economicsDynamic simulationThermal insulation021105 building & construction0202 electrical engineering electronic engineering information engineeringEnvironmental scienceEnvironmental impact assessmentElectrical and Electronic EngineeringbusinessLife-cycle assessmentStock (geology)Civil and Structural EngineeringEnergy and Buildings
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Integration of Building Simulation and Life Cycle Assessment: A TRNSYS Application

2016

Abstract The study proposes a tool developed within the TRNSYS environment aimed at integrating its building simulation features during the use phase with a Life Cycle Assessment approach. The tool can be used to investigate the relevance of each life-cycle step of the building on the primary energy consumption and global warming potential. The Life Cycle stages can be modelled with different approaches: direct input of the embodied energy and global warming potential values for each life cycle step as defined in the EN 15978, use of an internal database of embodied energy and global warming potential of construction materials and energy systems, direct connections of building simulation ou…

Engineeringbusiness.industry020209 energy02 engineering and technologyLife Cycle Assessment010501 environmental sciencesTRNSYSBuilding simulation01 natural sciencesBuilding simulationTRNSYSSoftwareProduct life-cycle managementEnergy(all)Component (UML)0202 electrical engineering electronic engineering information engineeringSystems engineeringbusinessTool integrationEmbodied energyLife-cycle assessmentEnergy (signal processing)0105 earth and related environmental sciencesEnergy Procedia
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A Constructal Law optimization of a boiler inspired by Life Cycle thinking

2018

Abstract The aim of the paper is to explore how design optimization contributes to a technology's ecological evolution. The article develops this concept through an application of Constructal Law, used to account for the “evolution” of technologies design (configuration, shape, structure, pattern, rhythm), and Life Cycle Assessment (LCA), used for quantifying the environmental impacts of the design choices. The combination of both methods assesses how technology evolution affects the environment during its life, extending the concept of evolution of design. The study is applied to a case study of a real biomass boiler. The study analyses basic case and a series of alternative scenarios opti…

Fluid Flow and Transfer ProcessesGlobal energyConstructal lawBiomass boilerBoilerSettore ING-IND/11 - Fisica Tecnica AmbientaleComputer sciencebusiness.industry020209 energyBoiler (power generation)Technological evolution02 engineering and technology021001 nanoscience & nanotechnologyIndustrial engineeringOverall Performance CoefficientLife cycle thinkingLife cycle assessment0202 electrical engineering electronic engineering information engineeringConstructal Law0210 nano-technologybusinessLife-cycle assessmentThermal energy
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A life cycle scenario analysis of different pavement technologies for urban roads.

2019

In the past, lowest price was the award criterion, given that structural capacity and safety were assured. In the last years, environmental, energy, and long-term impacts have been introduced (climate change, resource depletion, energy consumption, generated solid waste, discharged water, and emissions). Unfortunately, the introduction of new pavement technologies and materials (i.e., waste plastics) affects maintenance and rehabilitation processes and call for accurate and timeliness studies and criteria. Consequently, this paper presents an energy and environmental assessment of an Italian urban road and considers different material-related scenarios that fully comply with emerging techno…

Reclaimed asphalt pavement (RAP)Municipal solid wasteEnergyEnvironmental Engineering010504 meteorology & atmospheric sciencesEmerging technologiesEnergy consumption010501 environmental sciencesEnvironmental economicsResource depletion01 natural sciencesPollutionProduct (business)Environmental impactWarm mix asphalt (WMA)Life cycle assessmentEnvironmental scienceEnvironmental ChemistryEnvironmental impact assessmentScenario analysisLife-cycle assessmentHot mix asphalt (HMA)Waste Management and Disposal0105 earth and related environmental sciencesThe Science of the total environment
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Life Cycle Energy and Environmental Assessment of the Thermal Insulation Improvement in Residential Buildings

2021

The refurbishment of the building stock is a key strategy towards the achievement of the climate and energy goals of the European Union. This study aims at evaluating the energy and environmental impacts associated with retrofitting a residential apartment to improve its vertical envelope thermal insulation. Two insulation materials, stone wool and cellulose fibers, are compared. The life cycle assessment methodology is applied assuming 1 m2 of retrofitted vertical envelope as functional unit. Moreover, to estimate the net energy and environmental benefits achievable in the retrofitted scenario compared with the non-retrofitted one, a second analysis is performed in which the system boundar…

bio-based materialsTechnologyControl and OptimizationPrimary energy020209 energyEnergy Engineering and Power Technology02 engineering and technology010501 environmental sciences01 natural sciencesCivil engineeringEnergy policylife cycle assessmentThermal insulationbuilding retrofitbuilding0202 electrical engineering electronic engineering information engineeringmedia_common.cataloged_instanceRetrofittingEnvironmental impact assessmentGebäudeElectrical and Electronic EngineeringEuropean unionEngineering (miscellaneous)Life-cycle assessment0105 earth and related environmental sciencesmedia_commonWohnungKlimawandelSettore ING-IND/11 - Fisica Tecnica AmbientaleNachhaltigkeitRenewable Energy Sustainability and the Environmentbusiness.industryTEnergiepolitiksustainabilityclimate changeSustainabilityEU-SILC 2010; building retrofit; thermal insulation; bio-based materials; energy; life cycle assessment; sustainabilityapartmentthermal insulationEnvironmental sciencebusinessBio‐based materials Building retrofit Energy Life cycle assessment Sustainability Thermal insulationEnergieenergy policyEnergy (miscellaneous)energy
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Introducing exergy analysis in life cycle assessment: A case study

2018

Life Cycle Assessment (LCA) is a methodology for assessing the potential environmental aspects associated with a product or service along its life cycle. However, in the case of energy technologies, it is suggested that the LCA of a product encompasses also further aspects other than environmental aspects and primary energy calculations. In particular, to optimize the reduction of raw materials during the whole life cycle, it is important to introduce the assessment of the irreversibility, applying the exergy analysis. In this paper, an integrated approach of exergy analysis and LCA is proposed, developing the Life-cycle quality index able to suggest potential exergy inefficiencies and the …

ExergyCumulative exergy demand (CExD)Biomass boilerbusiness.industryApplied MathematicsBiomass boilerExergy analysiLife Cycle Assessment (LCA)Technology obsolescenceModeling and simulationModeling and SimulationEconomicsProcess engineeringbusinessLife-cycle assessmentEngineering (miscellaneous)
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Energy and Environmental Life Cycle Assessment of asphalt pavements: A Scenario Analysis for Urban Roads

2018

This paper aims at calculating the life-cycle energy and the environmental impacts pertaining to roads management, including materials production, transportation, construction, maintenance, and rehabilitation. A life-cycle approach is applied to assess energy and environmental impacts of a typical Italian urban road, according to the ISO 14040 series. In more detail, the Authors assess the energy and environmental profile of different optimized scenarios of bituminous mixtures. The aim of scenario analysis is to identify the less impacting scenario from an energy and environmental point of view. For each analysed scenario, the contribution of each life-cycle step to the total impacts and th…

Energy Environmental Impacts Hot Mix Asphalt (HMA) Warm Mix Asphalt (WMA) Life Cycle Assessment Reclaimed Asphalt Pavement (RAP)
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ELISA: A simplified tool for evaluating the Environmental Life-cycle Impacts of Solar Air-conditioning systems

2018

The paper presents ELISA, a simplified tool for estimating the Environmental Life-cycle Impacts of Solar Air-conditioning systems. The tool is designed to support researchers, designers and decision makers in a simplified evaluation of the life cycle energy and environmental potential benefits related to the installation of solar heating and cooling systems in substitution of conventional ones. The tool was developed within the research activities of Task 53 “New Generation Solar Cooling & Heating Systems (PV or solar thermally driven systems)” of the International Energy Agency.

Life Cycle Assessment Solar Air - conditioning systemsSettore ING-IND/11 - Fisica Tecnica Ambientale
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TOWARDS THE DECARBONIZATION OF THE EU BUILDING STOCK: AN INTEGRATED BUILDING STOCK RENOVATION MODELING APPROACH

2020

In Europe, the residential building stock is responsible for about 40% of the energy demand and about 36% of the CO2 emission at global level. Considering that almost 70% of the existing building stock will still be used in 2050, a long-term vision is needed to align with future challenges to avoid having significant increases in carbon emissions. The European policymakers have a long-recognized potential energy saving associated with the renovation of the existing building stocks, as demonstrated by the directives on the Energy performance of buildings (EPBD), introducing also the need to developed an integrated buildings design approach with environmental analysis. The purpose of this the…

Settore ING-IND/11 - Fisica Tecnica AmbientaleEuropean building stocks archetypes energy bottom-up model LCA renewable energy technology
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