Search results for "TRNSYS"

showing 10 items of 39 documents

Redesign of a Rural Building in a Heritage Site in Italy: Towards the Net Zero Energy Target

2017

In order to achieve the ambitious objective of decarbonising the economy, it is mandatory, especially in Europe and in Italy, to include the retrofitting of existing buildings. In a country where a large share of existing buildings have heritage value, it is important to design effective retrofit solutions also in historical buildings. In this context, the paper describes the experience of re-design of an existing rural building located in Sicily, inside the ancient Greeks' “Valley of the Temples”. An energy audit was performed on the building, and its energy uses were thoroughly investigated. A building model was developed in the TRNSYS environment and its performances validated. The valid…

EngineeringArchitectural engineeringBuilding scienceNet Zero Energy Buildings020209 energyBuilding modelContext (language use)Historical building02 engineering and technologyTRNSYSbuilding simulationEnergy engineeringlcsh:TH1-9745Architecture0202 electrical engineering electronic engineering information engineeringCivil and Structural EngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleZero-energy buildingbusiness.industryhistorical buildingsNatural ventilationBuilding and Constructionhistorical buildings; building simulation; Net Zero Energy Buildingsbusinesslcsh:Building constructionEfficient energy useBuildings
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Energy and Economic Analysis of Different Buildings Constructed with Environmentally Sustainable and Traditional Materials

2013

The use of bioclimatic principles can reduce energy demands and CO2emissions in the building sector. Costs are one of the most important barriers to a widespread adoption of the green architecture e.[ The aim of this study is to compare the energy and economic performances of two buildings: a real residential bioclimatic building located in Cinisi (a small town near Palermo, Sicily) and an imaginary residential building supposed having the same geographical location, cubature, shape and orientation as the bioclimatic building but built by conventional building materials. The tools used for this study were TRNSYS and HOMER[

EngineeringArchitectural engineeringSmall townbusiness.industryEnergy (esotericism)Economic analysisGeneral MedicineTRNSYSArchitecturebusinessLocationCivil engineeringApplied Mechanics and Materials
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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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MED parallel system powered by concentrating solar power (CSP): model and case study: Trapani, Sicily

2014

Abstract: This work presents an overlook on a new model that simulates the physical operation in steady state of a multi-effect distillation (MED) plant with parallel-feed (P) configuration. This model includes the consumption of steam with steam ejectors, and its validation was done using data from a real MED industrial plant using a thermal vapor compressor (TVC) operating in Italy, in the Sicilian city of Trapani. Results show that the MED model returns accurate predictions of the plant behavior, very useful for a first analysis on such type of investments. This MED model was also integrated into the system advisor model developed by the US National Renewable Energy Laboratory. Simulatio…

EngineeringParallel MED desalination model concentrated solar powerOcean EngineeringTRNSYS7. Clean energyDesalinationCogenerationCSPConcentrated solar powerMulti-effect-desalinationThermody- namic simulationThermodynamic simulationProcess engineeringSolar powerConcentrating solar powerWater Science and TechnologyCogenerationWaste managementbusiness.industryDesalinationParallel MEDSolar energyPollutionRenewable energyTRNSYS13. Climate actionbusinessEnergy sourceConcentrated solar powerModel
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A novel solar-geothermal trigeneration system integrating water desalination: Design, dynamic simulation and economic assessment

2016

Abstract In this paper, an innovative solar-geothermal polygeneration system is investigated. The system supplies a small community with electricity, desalinated water and space heating and cooling through a district network. The hybrid multi-purpose plant, based on an Organic Rankine Cycle (ORC) supplied by medium-enthalpy geothermal energy and by solar energy; this latter is provided by Parabolic Trough Collectors (PTC). The geothermal brine is first used to drive the ORC loop, then to provide space heating at around 85÷90 °C (in the winter), or cooling (in the summer, by means of a single-effect absorption chiller). Finally, the geothermal brine drives a Multi-Effect Distillation (MED) s…

EngineeringPayback period020209 energySolar energy Geothermy Polygeneration Desalination02 engineering and technologyTRNSYSDesalinationIndustrial and Manufacturing Engineering020401 chemical engineering0202 electrical engineering electronic engineering information engineeringParabolic troughSettore ING-IND/10 - Fisica Tecnica Industriale0204 chemical engineeringElectrical and Electronic EngineeringSolar energy Geothermal energy Polygeneration Desalination ThermoeconomicProcess engineeringGeothermal gradientCivil and Structural EngineeringOrganic Rankine cycleWaste managementbusiness.industryMechanical EngineeringGeothermal energyBuilding and ConstructionSolar energyPollutionGeneral Energybusiness
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Annual heating energy requirements of office buildings in a European climate

2016

Abstract The concept of implementing energy savings to reduce greenhouse gas emissions has become a key element of energy policies of any industrialized country. In the civil sector and specifically, energy savings for office buildings, there are still opportunities for further enhancements related to correctly determining the air conditioning thermal requirements. However, there is a lack of simple correlations that allow a preliminary assessment for a single building or correlations that can be quickly applied at the district level. This paper proposes several simple correlations that determine the heating loads of a typical office building by only knowing the Degree-Days of a specific Eu…

EngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleZero-energy buildingRenewable Energy Sustainability and the Environmentbusiness.industry020209 energyGeography Planning and DevelopmentBuilding modelTransportation02 engineering and technologyTRNSYSEnergy planningCivil engineeringEnergy policyAir conditioningEuropean Heating Degree Days Energy performance of office building Energy planning Thermal energy demandGreenhouse gas0202 electrical engineering electronic engineering information engineeringbusinessLevel of detailCivil and Structural EngineeringSustainable Cities and Society
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Is the transfer function method reliable in a European building context? A theoretical analysis and a case study in the South of Italy

2005

Abstract The available tools for dynamic simulation of the buildings thermal behaviour are manifold, and the most modern ones, known as TRNSYS, are founded upon the use of the Z-transform (ZT) set also called transfer function method (TFM). The transfer function method (TFM), recommended by American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), is one of the most modern tools available to solve heat transfer problems in building envelopes and environments. TFM utilises Z-transforms to solve the equation system that describes the heat transfer in a multi-layered wall. Due to an analogy with an electric circuit, it is possible to write the equation system in a mat…

EngineeringSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryEnergy Engineering and Power TechnologyMechanical engineeringContext (language use)Control engineeringTRNSYSTransfer functionIndustrial and Manufacturing EngineeringDynamic simulationStep responseHeat transferASHRAE 90.1businessCTF coefficients ASHRAE heat balance method Thermal building simulationReliability (statistics)
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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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Advanced Control Structure for Energy Management in Ground Coupled Heat Pump HVAC System

2008

Abstract Over the last 15 years, computerized controls have become more and more common in our homes. The smart home looks at expanding the use of the computers into the difference parts of the home, creating a network that can be easily and conveniently controlled. The use of computer controls removes the need to actually flick a switch and allows elements of the home to respond automatically to the people living in it. Successful control and heating ventilating and air-conditioning (HVAC) systems is a primary concern in building project: in order to achieve the required comfort and energy efficiency goals, a lot of variables must be coordinated and kept at particular pre-designed operatio…

Engineeringbusiness.industryEnergy managementControl engineeringGeneral MedicineTRNSYSlaw.inventionlawHome automationGeothermal heat pumpHVACbusinessHeat pumpEfficient energy useManagement control systemIFAC Proceedings Volumes
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Single thermal zone balance solved by Transfer Function Method

2005

We present an algorithm that uses the Z-transform operator to face the problem of heat transmission in a single thermal zone composed by multilayered walls. The method is very flexible and could be adopted to calculate the transfer function coefficients able to simulate the thermal behaviour of a room in free floating. Knowing the transfer function coefficients, it is possible to simulate the dynamic profile of each inner surfaces temperature and furthermore of the inner air temperature. The proposed algorithm is fully described granting maximum clarity. The explicitness of all steps of the calculus make possible the definition of a method that is able to vary all of the calculus parameters…

Engineeringbusiness.industryMechanical EngineeringMathematical analysisBuilding and ConstructionTRNSYSTransfer functionsymbols.namesakeOperator (computer programming)Fourier transformSampling (signal processing)Heat transferThermalCalculussymbolsFundamental Resolution EquationElectrical and Electronic EngineeringbusinessCTF coefficients ASHRAE heat balance method Thermal building simulationCivil and Structural EngineeringEnergy and Buildings
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