05746nam 2201621z- 450 991055714230332120231214133029.0(CKB)5400000000040635(oapen)https://directory.doabooks.org/handle/20.500.12854/68323(EXLCZ)99540000000004063520202105d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierEvaluation of Energy Efficiency and Flexibility in Smart BuildingsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (442 p.)3-03943-849-2 3-03943-850-6 This Special Issue “Evaluation of Energy Efficiency and Flexibility in Smart Buildings” addresses the relevant role of buildings as strategic instruments to improve the efficiency and flexibility of the overall energy system. This role of the built environment is not yet fully developed and exploited and the book content contributes to increasing the general awareness of achievable benefits. In particular, different topics are discussed, such as optimal control, innovative efficient technologies, methodological approaches, and country analysis about energy efficiency and energy flexibility potential of the built environment. The Special Issue offers valuable insights into the most recent research developments worldwide.Research & information: generalbicsscreal-time optimal controlsystem coefficient of performanceevent-driven optimal controlbuilding energy efficiencyheat wheeldirect expansion coolingventilation systemenergy consumptionload forecast fuzzy (LFF) controlSVM methodbuilding HVAC systemtime delay effectoptimal control strategyphase change materialhysteresissimulationsEnergyPlusthermal energy storagegreen roofsbuildingsair conditioningenergy efficiencymediterranean areabuilding energy consumptionbuilding load forecastingrough set theorythermal improved of buildingssingle-family housedetached houseenergy renovationdeep retrofitpower demandelectric heatingground-source heat pumphybrid energy systemmicrogridmilitary applicationsrenewable energyremote areaselectricityHVACdemand forecastingflexibilityoffice buildingSmart Gridfault correctionfault detection and diagnosticsbuilding operationfield testingnZEB, BIPVroom ventilationdynamic thermal insulationmulti-parametric modelenergy optimizationsteady-state controlbuilding energy control systemcomfort and engineeringbuidling simulation (EnergyPlus and MATLAB)long-term thermal energy storageseasonal thermal energy storagethermochemical energy storageliquid sorption storagepower-to-heatseasonal energy flexibilityseasonal load shiftingvirtual battery effectdesign-time optimizationcost modeling and simulationcyber-physical systemelectrical energy systemsustainable energy planningsustainable power planningdesign space explorationSystemC-AMSwindow framesnumerical analysishot boxsensitivity analysisdemand flexibilitycontrol systemoptimizationresiliencysmart buildingsdistributed energy resourcesmodel predictive controldata-driven modelartificial neural networkphysical building modelenergy flexibilityurban scalebuilding energy simulationregressionbuilding archetypesenergy performance of buildingssolar passive systemslow energy buildingssmart districtssmart gridssmart readiness indicatorenergy performance of buildings directiveload shiftingdemand responsebuilding-integrated photovoltaicsBIPVhidden coloured BIPV moduleBIPV integrationphotovoltaicPVResearch & information: generalArteconi Alessiaedt1328656Arteconi AlessiaothBOOK9910557142303321Evaluation of Energy Efficiency and Flexibility in Smart Buildings3038786UNINA