Energy Performance and Indoor Climate Analysis in Buildings
Thalfeldt, Martin||Ferrantelli, Andrea||Kurnitski, Jarek
Energy Performance and Indoor Climate Analysis in Buildings
English[eng]
indoor air quality||stratification||chiller plants||alternate operation||displacement ventilation||draught rate||building||indoor temperature after renovation||DHW heating||daylight factor||energy||energy performance modeling||hybrid displacement device||building energy modelling||energy performance of buildings directive||condenser evaporative precooling||DHW energy use||heating mode||ground source heat pump||personalized ventilation||daylight||existing buildings||optimal energy management||cooling||mixing ventilation||daylight survey||user behavior||local air change effectiveness||basketball hall||CFD||sizing||electricity use||control strategy||HVAC systems||ventilation||occupant behavior||smart readiness indicator||energy signature||standard use||building energy simulation||outdoor air||monitoring measurements||COP||qualitative control||wind pressure||decentralized ventilation unit||field measurement||thermal comfort||student dormitories||data-driven analysis||energy performance||daylight simulations||air jet||ISO 52016-1||multiple sensor nodes||downdraught||energy efficiency||building pressure condition||meteorological reanalysis data||ISO 7730||thermal analysis||Monte Carlo method||corner impinging jet||greenhouse||Pro-GET-onE H2020||in situ measurements||smart buildings||skin temperature||retirement home||demand side management||indoor climate||user input data||Indoor Environmental Quality (IEQ)||ventilation renovation||tracer gas||gray box||Jaya algorithm||single room ventilation unit||satellite-based solar radiation data||chiller performance||rooftop air conditioners||smart grid||TRNSYS||stack effect||space heating||energy flexibility||corner mixing ventilation||load shifting||heating power||air exchange effectiveness||indoor temperature uniformity||demand response
Energy Performance and Indoor Climate Analysis in Buildings
English[eng]
indoor air quality||stratification||chiller plants||alternate operation||displacement ventilation||draught rate||building||indoor temperature after renovation||DHW heating||daylight factor||energy||energy performance modeling||hybrid displacement device||building energy modelling||energy performance of buildings directive||condenser evaporative precooling||DHW energy use||heating mode||ground source heat pump||personalized ventilation||daylight||existing buildings||optimal energy management||cooling||mixing ventilation||daylight survey||user behavior||local air change effectiveness||basketball hall||CFD||sizing||electricity use||control strategy||HVAC systems||ventilation||occupant behavior||smart readiness indicator||energy signature||standard use||building energy simulation||outdoor air||monitoring measurements||COP||qualitative control||wind pressure||decentralized ventilation unit||field measurement||thermal comfort||student dormitories||data-driven analysis||energy performance||daylight simulations||air jet||ISO 52016-1||multiple sensor nodes||downdraught||energy efficiency||building pressure condition||meteorological reanalysis data||ISO 7730||thermal analysis||Monte Carlo method||corner impinging jet||greenhouse||Pro-GET-onE H2020||in situ measurements||smart buildings||skin temperature||retirement home||demand side management||indoor climate||user input data||Indoor Environmental Quality (IEQ)||ventilation renovation||tracer gas||gray box||Jaya algorithm||single room ventilation unit||satellite-based solar radiation data||chiller performance||rooftop air conditioners||smart grid||TRNSYS||stack effect||space heating||energy flexibility||corner mixing ventilation||load shifting||heating power||air exchange effectiveness||indoor temperature uniformity||demand response