Search results for "Embodied Energy"

showing 10 items of 27 documents

From lab to industry: Scaling up green geopolymeric mortars manufacturing towards circular economy

2021

Abstract Construction is nowadays considered an extremely energy intensive industry and one of the main sources of environmental pollution in the world. Therefore, the research and the development of novel energy-saving manufacturing processes and sustainable construction materials is more than ever urgent and challenging. This paper aims at identifying the industrial process for the production of novel geopolymers to be used as a greener substitute for cement, especially the Portland one, widely used for structural applications to significantly reduce the environmental impact of the construction industry. Here, the materials sustainability and the manufacturing process are improved by valo…

020209 energyStrategy and ManagementCircular economy Construction Economic analysis Geopolymeric mortars Industrial scale-up SustainabilitySettore ICAR/10 - Architettura TecnicaEnvironmental pollution02 engineering and technologyReuseRaw materialIndustrial and Manufacturing EngineeringCircular economy; Construction; Economic analysis; Geopolymeric mortars; Industrial scale-up; SustainabilitySettore ING-IND/17 - Impianti Industriali Meccanici0202 electrical engineering electronic engineering information engineeringProcess engineering0505 lawGeneral Environmental ScienceRenewable Energy Sustainability and the Environmentbusiness.industryCircular economy05 social sciencesBuilding and ConstructionEnergy consumptionProduct (business)Sustainability050501 criminologyEnvironmental sciencebusinessEmbodied energy
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Energy demand reduction of aluminum alloys recycling through friction stir extrusion processes implementation

2019

Abstract Aluminum alloys are characterized by high-energy demands for primary production. Recycling is a well-documented strategy to lower the environmental impact of light alloys production. Despite that, conventional recycling processes are still energy-intensive with a low energy efficiency. Also, permanent material losses occur during remelting because of oxidation. Recently, several solid-state recycling approaches have been analyzed; in fact, by avoiding the remelting step both energy and material can be saved and, therefore, the embodied energy of secondary production can be substantially reduced. In this paper, the solid-state approach Friction Stir Extrusion (FSE) is analyzed for a…

0209 industrial biotechnologyEnergy demandMaterials scienceAluminum alloyPrimary energyComparative analysiMetallurgychemistry.chemical_element02 engineering and technologyFSEIndustrial and Manufacturing EngineeringSolid state recycling020303 mechanical engineering & transports020901 industrial engineering & automationLow energy0203 mechanical engineeringchemistryArtificial IntelligenceAluminiumExtrusionReduction (mathematics)Embodied energySettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
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Energy and environmental assessment of heritage building retrofit

2020

In the transition to a low-energy economy, the building stock renovation should address the reduction of the environmental impacts, by means of suitable energy retrofits oriented to meet current energy efficiency regulations, construction guidelines, and standards on comfort and operation. With regard to the historic segment of the building stock, suitable refurbishment policies are needed to avoid the loss of their heritage values, even if this is a complex issue requiring interdisciplinary approaches, dedicated diagnostic procedures, and specific tools. In this paper a suitable method for energy and environmental assessment specifically devoted to historical building retrofit, following a…

Architectural engineeringEngineeringBuildings Embodied energy LCASettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryEnergy (esotericism)Heritage buildingEnvironmental impact assessmentbusinessEmbodied energyStock (geology)
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Multi-objective optimization of building life cycle performance. A housing renovation case study in Northern Europe

2020

While the operational energy use of buildings is often regulated in current energy saving policies, their embodied greenhouse gas emissions still have a considerable mitigation potential. The study aims at developing a multi-objective optimization method for design and renovation of buildings incorporating the operational and embodied energy demands, global warming potential, and costs as objective functions. The optimization method was tested on the renovation of an apartment building in Denmark, mainly focusing envelope improvements as roof and exterior wall insulation and windows. Cellulose insulation has been the predominant result, together with fiber cement or aluminum-based cladding …

Architectural engineeringbuilding renovationLow-energy buildings020209 energylcsh:TJ807-830Geography Planning and Developmentlcsh:Renewable energy sources02 engineering and technology010501 environmental sciencesManagement Monitoring Policy and Law01 natural sciencesMulti-objective optimizationLife cycle assessmentlife cycle assessment0202 electrical engineering electronic engineering information engineeringBuilding life cycleCellulose insulationRoofLife-cycle assessmentlcsh:Environmental sciences0105 earth and related environmental scienceslcsh:GE1-350Settore ING-IND/11 - Fisica Tecnica Ambientalelow-energy buildingBuilding renovation Embodied Life cycle assessment Low-energy building Multiobjective optimizationRenewable Energy Sustainability and the Environmentlcsh:Environmental effects of industries and plantsEmbodiedSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaMulti-objective optimizationGlazinglcsh:TD194-195multi-objective optimizationGreenhouse gasembodiedEnvironmental scienceEmbodied energyBuilding renovation
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An integrated energy simulation and life cycle assessment to measure the operational and embodied energy of a Mediterranean net zero energy building

2022

Abstract Net Zero Energy Buildings can play a key role in reducing the energy use, greenhouse gas emissions and the use of natural resources associated to the built environment. It is widely recognized that in low energy building a shift in relevance may occur from the operational to the embodied impacts. However, building performance assessment focus mostly on the operational phase and on primary energy consumption. This study aims to assess the energy and environmental impacts of a residential net zero energy building expanding the analysis to the full life cycle and to a wide range of environmental impact categories. The methodological approach integrates a non-steady state building ener…

Battery (electricity)Zero-energy buildingMechanical EngineeringPhotovoltaic systemBuilding and ConstructionEnvironmental economicsResource depletionBuilding energy simulation Embodied impacts Insulation materials Life cycle assessment Net zero energy building Renewable energy technologiesGreenhouse gasEnvironmental scienceEnvironmental impact assessmentElectrical and Electronic EngineeringLife-cycle assessmentEmbodied energyCivil and Structural Engineering
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Investigation on a Bio-Composite Material as Acoustic Absorber and Thermal Insulation

2020

In order to limit the anthropic emissions of CO2, research is currently investigating new materials for the building sector. The main purpose is the reduction in the embodied energy consumption, especially in the residential sector, and consequently the limitation of the direct and indirect utilization of fossil fuels, for the indoor heating, cooling, and ventilation services. Indeed, the residential sector is affected by a high energy demand, thus the choice of improved materials is fundamental to improve the sustainability. All phases: construction, building life, and dismantling are impacting in terms of resource and energy consumption, both associated with the emissions of pollutants in…

Control and Optimization0211 other engineering and technologiesEnergy Engineering and Power Technology020101 civil engineering02 engineering and technologyengineering.materialUSablelcsh:Technology0201 civil engineeringThermal insulation021105 building & constructionThermalElectrical and Electronic EngineeringProcess engineeringEngineering (miscellaneous)LimeSettore ING-IND/11 - Fisica Tecnica Ambientalebio-composite materiallcsh:TRenewable Energy Sustainability and the Environmentbusiness.industryFossil fuelEnergy consumptionAcoustic absorber Bio-composite material Thermal insulationSustainabilityengineeringthermal insulationEnvironmental scienceacoustic absorberbusinessEmbodied energyEnergy (miscellaneous)Energies
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Earth Construction: The Mechanical Properties of Adobe with the Addition of Laponite

2015

The contribution describes testing of compression strength, flexural strength and abrasion resistance of adobe made up of soil, water and sand (AS), soil, water, sand and straw (ASP), soil, water, sand and laponite nanoparticles (ASN). Embodied energy in materials presents an increasingly high percentage of the energy spent in the whole life cycle of a building. The same applies for carbon dioxide (CO2). Therefore, the development of new sustainable construction materi- als with lower embodied energy and lower CO2 emissions is needed. The use in construction of the brick made from soil, water and sand or straw, called adobe, boasts a millenary tradition and in recent years there has been re…

Earth Nanoparticles Architecture Low energybusiness.industryAdobeEnvironmental engineeringMechanical engineeringStrawengineering.materialSettore ICAR/12 - Tecnologia Dell'ArchitetturaLow energySustainable constructionCompressive strengthFlexural strengthengineeringbusinessEmbodied energyEarth (classical element)
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Materiali edilizi e sostenibilità

2012

Edilizia sostenibilità embodied energy certificazioni ambientali Banche dati
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Embodied energy and environmental impacts of a biomass boiler: a life cycle approach

2015

The 2030 policy framework for climate and energy, proposed by the European Commission, aims towards the reduction of European greenhouse gas emissions by 40% in comparison to the 1990 level and to increase the share of renewable energy of at least the 27% of the European's energy consumption of 2030. The use of biomass as sustainable and renewable energy source may be a viable tool for achieving the above goals. However, renewable energy technologies are not totally clean because they cause energy and environmental impacts during their life cycle, and in particular they are responsible of air pollutant emissions. In this context, the paper assesses the energy and environmental impacts of a …

EngineeringEnergy Engineering and Power Technologyenvironmental impactrenewable energy technologyEnergy developmentlife cycle assessmentlcsh:TK1001-1841Life-cycle assessmentSettore ING-IND/11 - Fisica Tecnica AmbientaleWaste managementRenewable Energy Sustainability and the Environmentbusiness.industrygreenhouse gas emissionsEnvironmental engineeringEnvironmental impact of the energy industryEnergy consumptionenvironmental impactslife cycle assessment; embodied energy; biomass boiler; environmental impacts; renewable energy technology; greenhouse gas emissionsbiomass boilerembodied energyRenewable energyEnergy conservationlcsh:Production of electric energy or power. Powerplants. Central stationsFuel TechnologybusinessEmbodied energyEfficient energy use
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Life cycle energy performances of a Net Zero Energy prefabricated building in Sicily

2017

The paper presents the energy performances in a life cycle perspective of a prefabricated building. The building was simulated in energy plus and validated on monitored data. To avoid the shifting of energy burdens from one life cycle stage to others, a Life Cycle Energy Assessment was performed. The primary energy use throughout the building's life cycle is 1,242 GJ. The materials production stage consumes the highest amount of primary energy (680 GJ) followed by the use stage (484 GJ), while the construction and end-of-life require respectively 1.7 % and the 4.6 % of total primary energy. (C) 2017 The Authors. Published by Elsevier Ltd. Peer-review under responsibility of the scientific c…

EngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleZero-energy buildingPrimary energyNet Zero Energy Buildingsbusiness.industry020209 energyEnvironmental engineering02 engineering and technology010501 environmental sciences01 natural sciencesEnergy assessmentModular BuildingsEnergy life-cycle approach0202 electrical engineering electronic engineering information engineeringNet Zero Energy BuildingbusinessCartographyEmbodied energyEmbodied energyEnergy (signal processing)0105 earth and related environmental sciences
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