01136nam0 2200265 i 450 VAN006484820090610120000.088-14-12358-620080610d2005 |0itac50 baitaIT|||| |||||ˆLa ‰convivenza delle regolediritto, sicurezza e organizzazioni religioseRoberto MazzolaMilanoGiuffrè2005XV, 225 p.24 cm.001VAN00077752001 Memorie della Facoltà di giurisprudenza di AlessandriaUniversità degli studi del Piemonte orientale Amedeo Avogadro210 PadovaCEDAM2000-.18MilanoVANL000284MazzolaRoberto1961- VANV051645320316Giuffrè <editore>VANV109181650ITSOL20230616RICABIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZAIT-CE0105VAN00VAN0064848BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZA00CONS XII.El.7 00BFG72 20080610 Convivenza delle regole1416369UNICAMPANIA05076nam 2201237z- 450 991055755110332120231214133522.0(CKB)5400000000044095(oapen)https://directory.doabooks.org/handle/20.500.12854/68285(EXLCZ)99540000000004409520202105d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBuilding Energy Audits-Diagnosis and RetrofittingBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (298 p.)3-03943-829-8 3-03943-830-1 The book “Building Energy Audits-Diagnosis and Retrofitting” is a collection of twelve papers that focus on the built environment in order to systematically collect and analyze relevant data for the energy use profile of buildings and extended for the sustainability assessment of the built environment. The contributions address historic buildings, baselines for non-residential buildings from energy performance audits, and from in-situ measurements, monitoring, and analysis of data, and verification of energy saving and model calibration for various building types. The works report on how to diagnose existing problems and identify priorities, assess, and quantify the opportunities and measures that improve the overall building performance and the environmental quality and well-being of occupants in non-residential buildings and houses. Several case studies and lessons learned from the field are presented to help the readers identify, quantify, and prioritize effective energy conservation and efficiency measures. Finally, a new urban sustainability audit and rating method of the built environment addresses the complexities of the various issues involved, providing practical tools that can be adapted to match local priorities in order to diagnose and evaluate the current state and future scenarios towards meeting specific sustainable development goals and local priorities.Research & information: generalbicsscfeature selectionprediction of energy consumptionelectricity consumptionmachine learningnon-residential buildingssustainabilitybuildingsneighbourhoodsdecision-making processkey performance indicatorsKPIsbuilt environmentauditassessment toolsbrick 1moisture 2heat flow 3energetic rehabilitation 4non-destructive test 5energy community (EC)renewable energy sources (RESs)citizen involvementco-ownership in renewable energiesnonresidential buildingsbaselinesEUIenergy use intensitiescarbon emission intensitiesEPCsenergy performance certificatesbuilding energy simulationschool buildingfield measurementsvalidationairingwindows and door openingoccupancy behaviourenergy efficiency measuresretrofittingthermo-modernizationfinal energyprimary energyenergy consumptionhome energy management systemhuman comfort factorthermal comfortvisual comfortdemand responseenergy performanceenergy auditsschool buildingsindoor climateHeLLoenergy retrofitnon-destructive testin situhygrothermal measurementdynamic conditionshygrothermal simulationhistoric walldaylightlighting controllightingoccupant preferencesoccupant satisfactionphotosensorpost-occupancy evaluationsurveysingle-family housesembodied energyoperational energybenchmarksrenovationsenergy use intensity (EUI)embodied energy intensity (EEI)energy recovery timeResearch & information: generalBalaras Constantinos Aedt1289240Balaras Constantinos AothBOOK9910557551103321Building Energy Audits-Diagnosis and Retrofitting3021127UNINA