Search results for "Comfort"

showing 10 items of 178 documents

Overview and future challenges of nearly zero energy buildings (nZEB) design in Southern Europe

2017

In times of great transition of the European construction sector to energy efficient and nearly zero energy buildings (nZEB), a market observation containing qualitative and quantitative indications should help to fill out some of the current gaps concerning the EU 2020 carbon targets. Next to the economic challenges, there are equally important factors that hinder renovating the existing residential building stock and adding newly constructed high performance buildings. Under these circumstances this paper summarises the findings of a cross-comparative study of the societal and technical barriers of nZEB implementation in 7 Southern European countries. The study analyses the present situat…

EngineeringArchitectural engineeringEPBD020209 energy02 engineering and technologyThermal comfortCivil Engineering7. Clean energy11. SustainabilityWarm climate0202 electrical engineering electronic engineering information engineeringRetrofittingElectrical and Electronic EngineeringEmpirical evidenceNearly zero energy building (nZEB)Civil and Structural EngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleScience & TechnologyZero-energy buildingGreat TransitionRenovationbusiness.industryMechanical EngineeringEnvironmental resource managementBuilding and ConstructionFuel poverty13. Climate actionConstruction quality; EPBD; Fuel poverty; Nearly zero energy building (nZEB); Net zero energy building (NZEB); Renovation; Thermal comfort; Warm climate; Civil and Structural Engineering; Building and Construction; Mechanical Engineering; Electrical and Electronic EngineeringConstruction qualityEngineering and TechnologyNet zero energy building (NZEB)businessFuel povertyEfficient energy use
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An Overview on Solar Shading Systems for Buildings

2014

Abstract In recent years, different types of solar shading devices have been proposed, depending on building orientation, location, window characteristics, etc. They can contribute to improve or worsen building thermal and lighting performances both from an energy and comfort point of view. The present paper reports a critical analysis of some studies that investigate shading devices’ effects on building thermal and/or lighting performances. This article points out the difficulty in comparing the different results given the lack of uniformity between the studies, since they analysed buildings with different characteristics, locations and using various indices. Therefore a protocol to carry …

EngineeringArchitectural engineeringOrientation (computer vision)business.industrysolar radiationThermal comfortSolar shadingbuildingsthermal and energy analysiShading systemenergy savingsHVAC systemshading deviceEnergy(all)thermal and energy analysislighting analysiHVACbuildingSettore ING-IND/10 - Fisica Tecnica Industrialeshading devicesShadingbusinessProtocol (object-oriented programming)lighting analysisHVAC systemsEnergy Procedia
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The relavance of indoor comfort in the process of prisoners’ rehabilitation: a case study

2016

The history of prisons is full of contradictions in every historical period and the evolution of prison buildings expresses many faces in the history of each country. The concept of punishment imposed on the offender has undergone several changes over the centuries, related to culture, politics, and to the evolution of the human thought. For centuries, tiny closed spaces have been adapted for the offenders' detention, without ever thinking to create an ad hoc functional distribution of spaces. The issue of the design of prisons has often been a reason of debate, and it is still an open field of discussion. From a legal point of view, in recent years there has been a rethinking of the proble…

EngineeringArchitectural engineeringRehabilitationForcing (recursion theory)Settore ING-IND/11 - Fisica Tecnica AmbientaleExploitbusiness.industrymedia_common.quotation_subjectmedicine.medical_treatmentsmart city and smart safequestionnaireSettore ICAR/11 - Produzione EdiliziaPrisonindoor comfort; prison building; questionnaire; smart city and smart safePublic relationsTechnical designPoliticsindoor comfortmedicinebusinessprison buildingmedia_common
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Sizing analysis of interior lighting using tubular daylighting devices

2017

Abstract Daylight access and indoor thermal comfort are key issues for high design level of sustainable buildings. In fact, daylight provides energy savings and visual comfort condition that can foster higher productivity and performance. This paper proposes a case study of sizing of daylight devices for zenith light. It enables the decision-making process of the designer to reach high levels of daylight factor. The proposed method is shown with an example of application. For the case study, a room in south of Italy, 24 different solar tunnels configurations and 12 cases with different number of skylights have been evaluated.

EngineeringArchitectural engineeringnatural lightreflectance020209 energy0211 other engineering and technologies02 engineering and technologyKey issuesinternal comfortoverhangrooflightdaylight systemtransmittancedaylight factorenergy consumption021105 building & construction0202 electrical engineering electronic engineering information engineeringDaylightDaylightingZenithSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industrydaylightingsolar tunnelThermal comfortSizingskylightDaylight factorEnergy (all)Daylight systemilluminancebusinessDaylightingenergy
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Building green covering for a sustainable use of energy

2013

Nowadays the growth of the cities increased built and paved areas, energy use and heat generation. The phenomenon of urban warming, called urban heat island, influences negatively outdoor comfort conditions, pollutants concentration, energy demand for air conditioning, as well as increases environmental impact due to the demand of energy generation. A sustainable technology for improving the energy efficiency of buildings is the use of green roofs and walls in order to reduce the energy consumption for conditioning in summer and improve the thermal insulation in winter. The use of green roofs and walls can contribute to mitigate the phenomenon of heat island, the emissions of greenhouse gas…

EngineeringBioengineeringAir-conditioning; Energy savings; Green roofs; Green walls; Urban ecology; Industrial and Manufacturing Engineering; Mechanical Engineering; BioengineeringEnergy savingsair-conditioning energy savings urban ecology green roofs green walls.Industrial and Manufacturing Engineeringlcsh:Agriculturegreen roofsenergy savingSustainable designUrban heat islandlcsh:Agriculture (General)business.industryair-conditioningMechanical EngineeringEnvironmental engineeringlcsh:SThermal comfortEnergy consumptiongreen wallslcsh:S1-972urban ecologyAir conditioningHeat generationSustainabilitybusinessEfficient energy useair-conditioning; energy saving; urban ecology; green roofs; green walls
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Numerical Modelling of Room Thermal Comfort Conditions

2006

Particular heat transfer coefficients of building elements gives quantitative notion only about heat losses through this building element. Analysis of the overall heat balance and heat losses of complete building and study of particular contribution of building elements in overall balance allows one to figure out the state of the building and find the building elements of bounding construction with most significant heat losses. Project variants of the buildings (or rebuilding in case of renovation), which ensure the desirable economy of energy and proportions of investments can be find varying the proportions of the surface area of building elements (e.g., windows and doors). A lot of facto…

EngineeringComputer simulationbusiness.industryBounding overwatchPassive coolingHeat exchangerMechanical engineeringThermal comfortHeat transfer coefficientConstant (mathematics)businessmathematical modelling; numerical simulation; hydrodynamics; heat exchange; convective and conductive heat losses; ANSYS/Flotran; boundary constructions; temperature and air flow distribution; thermal comfort conditionsBlock (data storage)Environment. Technology. Resources. Proceedings of the International Scientific and Practical Conference
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Phase Change Materials Applications to Optimize Cooling Performance of Buildings in the Mediterranean Area: A Parametric Analysis

2015

Abstract Building integrated thermal energy storage systems cover a wide range of techniques and solutions depending on technology applications and aims. They however all have in common the concept behind: being able to store energy for later use in order to reduce the time mismatch between energy availability and demand. In this context, Phase Change Materials (PCMs) fit the above description, since they would allow for mostly isothermal phase change within normal thermal comfort range. In order to face the typical challenges of the Mediterranean climate, the following concept was elaborated: the idea is to use the phase change mechanics as a substitute to the thermal inertia of massive wa…

EngineeringEnergy storageSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryMechanical engineeringThermal comfortNatural ventilationContext (language use)Thermal energy storagePhase change materialsEnergy PluEnergy storageBuilding simulationEnergy(all)Range (aeronautics)businessEnergy PlusEnergy (signal processing)Phase change materialEfficient energy useEnergy Procedia
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Air quality and relative humidity in commercial aircrafts: an experimental investigation on short-haul domestic flights

2013

Abstract Nowadays the achievement of a comfortable environment in aircraft cabins is a factor of paramount importance in air travel business competition; on the other hand, the need of reducing the propulsion fuel cost has driven the airline companies to adopt air handling systems that may reduce the levels of thermal comfort and air quality inside the cabins of commercial airliners. With the aim of contributing to a better knowledge of this matter, this paper reports the results of an experimental study upon the indoor air quality aboard commercial aircrafts for 14 domestic flights less than 1 h and half long. The parameters monitored were temperature, relative humidity and carbon dioxide …

EngineeringEnvironmental EngineeringSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryGeography Planning and DevelopmentCrewThermal comfortBuilding and ConstructionPropulsionAutomotive engineeringlaw.inventionIndoor air qualityAeronauticslawDomestic flightVentilation (architecture)Aircraft cabinsCabin comfort Aircraft ECS Hygrometrical control Air quality Carbon dioxideRelative humiditybusinessAir quality indexCivil and Structural Engineering
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Analysis of Thermal Comfort Conditions and Actual Energy Efficiency for Different Heating Systems in Test Buildings

2015

The aim of this study is detailed analysis of long-term monitoring data on thermal comfort conditions and energy efficiency in small test buildings equipped with different heating systems. Calculations of PPD index and local thermal discomfort factors, as well as actual energy efficiency ratios for different heat pump systems are provided for the test buildings during three weeks of the heating season. It is shown that the type of heating system has an influence not only on heating energy needs, but also on thermal comfort conditions in the room.

EngineeringHeating seasonbusiness.industryNuclear engineeringMechanical engineeringThermal comfortlaw.inventionHeating systemHeating energylawMonitoring dataThermalTest buildings; thermal comfort; PPD; heating systems; energy efficiencybusinessEfficient energy useHeat pumpProceedings of REHVA Annual Conference "Advanced HVAC and Natural Gas Technologies"
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Modelling relationship among energy demand, climate and office building features: A cluster analysis at European level

2016

Abstract More than one-third of the energy demand of industrialised countries is due to achieving acceptable conditions of thermal comfort and lighting in buildings. Energy demand in buildings depends on a combination of several parameters, such as climate, envelope typologies, occupant behaviour, and intended use. Indeed, assessing a building’s energy performance requires substantial input data describing constructions, environmental conditions, envelope thermo-physical properties, geometry, control strategies, and several other parameters. This has been a very active area of research in recent years, and several numerical approaches have been developed for building simulation; furthermore…

EngineeringHigh-energy performance020209 energyClimate02 engineering and technology010501 environmental sciencesManagement Monitoring Policy and LawTRNSYS01 natural sciencesThermal energy demand0202 electrical engineering electronic engineering information engineeringCluster analysiShape factorSimulation0105 earth and related environmental sciencesSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryMechanical EngineeringThermal comfortBuilding and ConstructionIndustrial engineeringGeneral EnergyWork (electrical)Learning curveHeating Degree DaybusinessHeating degree dayEnergy (signal processing)Thermal energyEnvelope (motion)
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