Search results for "Projected area factor"

showing 6 items of 6 documents

An Anthropometric Analysis of Seated and Standing People

2012

Thermal radiative exchanges of the human body with surrounding surfaces play an essential role in describing the thermal conditions of people in a given environment. Moreover, they could be induced by, among other causes, the presence of high intensity radiant sources, like lighting spots or infrared heating panels. This implies that a suitable set of radiation data related to human body anthropometry is required. This set of data mainly comprises the body surface area, the clothing area factor, the effective radiation area factor, and projected area factors. Several analytical or experimental methods may be utilized in order to compute these parameters. A detailed description of the most c…

Body surface areaeducation.field_of_studyDry Heat Exchanges clothing area factor effective radiation area factor projected area factors southern Italy.Settore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industrySample (material)PopulationAnthropometryClothingStatisticsProjected areaRadiative transferEnvironmental scienceeducationSet (psychology)business
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Angle Factors and Projected Area Factors for Comfort Analysis of Subjects in Complex Confined Enclosures: Analytical Relations and Experimental Resul…

2008

This paper addresses an important problem in the evaluation of the thermal comfort of people living or working in the sort of confined spaces typical of current architecture. In the details, a new algorithm is proposed for the evaluation of the angle factors of people within rooms characterized by complex shapes, where the envelope components are not always mutually orthogonal. The algorithm is based on field data obtained by means of an experimental photographic apparatus which allows measurements of projected area factors of seated or standing people in such complex confined environments.

EngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleProjected area factorbusiness.industryField dataAcousticsBuilding complex geometriePublic Health Environmental and Occupational HealthThermal comfortAngle factorThermal comfortField analysisProjected areasortbusinessConfined spaceSimulationField analysisEnvelope (motion)Indoor and Built Environment
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Measurements of projected areas of seated and standing people of southern Italy based on a statistical analysis

2006

One of the most important components affecting the human thermal balance is represented by its radiative exchange with the surrounding surfaces. The projected area of the human body is an important parameter of these thermal exchanges. Unfortunately, although the anthropometric measures of people are characterized by significant differences among various populations, the experimental data currently available in the literature refers to a small group of people. Moreover, measurements are generally performed regardless of the statistical significance of the involved subjects with respect to the population to which they belong. In this study, a statistical study is introduced that is based on …

MalePosturePopulationPhysical Therapy Sports Therapy and RehabilitationHuman Factors and ErgonomicsSample (statistics)Models BiologicalWhite PeopleSocial groupStatisticsHumansBody Weights and MeasuresStatistical analysisSafety Risk Reliability and QualityeducationEngineering (miscellaneous)education.field_of_studySettore ING-IND/11 - Fisica Tecnica AmbientaleAngle factors Projected area factors Effective radiating area Thermal comfortExperimental dataAnthropometryGeographyItalyProjected areaThermodynamicsFemaleThermal balanceBody Temperature RegulationDemographyApplied Ergonomics
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A generalized model of human body radiative heat exchanges for optimal design of indoor thermal comfort conditions

2018

Abstract Human thermal sensation depends heavily on radiative exchanges between the human body and the surrounding environment. Because these exchanges play a crucial role in the thermal balance of the human body, about 35% of the process, human thermal sensation should draw the attention of planners when designing both indoor environments and equipment. The present study aims to contribute to this field by proposing a procedure for delineating the optimal comfort conditions for occupants in most of the articulate and realistic configurations of actual indoor environments. Specifically, this procedure enables accurate assessment of the radiant field surrounding a subject in a given indoor r…

Optimal designThermal comfort Radiative exchange Projected area factors View factorsSettore ING-IND/11 - Fisica Tecnica AmbientaleRenewable Energy Sustainability and the Environmentbusiness.industryComputer science020209 energyProcess (computing)Thermal comfort02 engineering and technologyAir conditioningThermal radiationLimit (music)Thermal0202 electrical engineering electronic engineering information engineeringRadiative transferGeneral Materials SciencebusinessSimulation
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The spatial evaluation of the radiative human body heat exchanges: An effective contribution for limiting energy consumption and achieving better ind…

2018

Abstract Radiative heat exchanges inside buildings remarkably affect the thermal balance of the human body in confined spaces and the related thermal comfort sensations of people. The mean radiant temperature is an important component of this balance. Unfortunately, it is usually computed by means of too simplified relationships, which significantly influence the comfort evaluations. Such simplified approaches are also accountable for a less effective design of HVAC systems which, in turn, could result in high energy consumption in the climatization of buildings. However, an accurate evaluation of the mean radiant temperature, especially when high intensity sources are present in a given in…

Projected area factorArchitecture2300 Environmental Science (all)Computer science020209 energyEnclosureMechanical engineering02 engineering and technologyThermal comfortHVAC systemComplex geometryArchitectureHVAC0202 electrical engineering electronic engineering information engineeringRadiative transferMean radiant temperatureSafety Risk Reliability and QualityCivil and Structural EngineeringSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryMean radiant temperatureRadiative exchangeThermal comfortEnergy consumptionBuilding and ConstructionMechanics of MaterialsProjected areabusiness
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Algorithms for the calculation of the projected area factors of seated and standing persons

1991

Moderate thermal environments, other than being affected by the mutual radiative heat exchange at low frequency among the internal surfaces, are often characterized by the presence of high intensity sources, that is, radiant sources showing a small area, a high emission temperature and a strongly directional beam. The sun's direct radiation can be considered to be among these radiant sources. In these cases, the computation of the mean radiant temperature and, consequently, the evaluation of the thermal comfort conditions, require knowledge of the “project area factor”, fp, of the subject. Moreover, the fp parameters are also applicable to derivation of the shape factors between subjects an…

Projected area factorsComputer scienceMechanical EngineeringComputationThermal comfortBuilding and ConstructionView factorBeam (nautical)ThermalProjected areaElectrical and Electronic EngineeringMean radiant temperatureSet (psychology)Shape factorAlgorithmCivil and Structural Engineering
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