00998nam0 22002651i 450 SUN002009220050405120000.020040715d1979 |0itac50 baitaIT|||| |||||Saggi di psicoterapia di gruppoa cura di Ferdinando VanniTorinoBoringhieri1979246 p.20 cm.PsicoterapiaSaggiFISUNC009720TorinoSUNL000001616.89DISTURBI MENTALI21Vanni, FerdinandoSUNV016344BoringhieriSUNV001017650ITSOL20181109RICASUN0020092UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI PSICOLOGIA16 CONS 1454 16 VS 1340 UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI PSICOLOGIAIT-CE0119VS1340CONS 1454caSaggi di psicoterapia di gruppo271562UNICAMPANIA04522nam 2201009z- 450 991055735010332120220111(CKB)5400000000042389(oapen)https://directory.doabooks.org/handle/20.500.12854/77030(oapen)doab77030(EXLCZ)99540000000004238920202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierThe Built Environment in a Changing ClimateInteractions, Challenges and PerspectivesBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (234 p.)3-0365-2356-1 3-0365-2355-3 The papers included in this Special Issue tackle multiple aspects of how cities, districts, and buildings could evolve along with climate change and how this would impact our way of conceiving and applying design criteria, policies, and urban plans. Despite the multidisciplinary nature of the collection, some transversal take-home messages emerge: • Today's energy-efficient paradigms may lose their virtuosity in the future unless accurate estimates of future scenarios are used to design modelling platforms and to inform legislative frameworks; • Acting at the local scale is key. Future climate change adaptation will be implemented at the local level. Overlooking regional and local specificities will contribute to inaccurate and inefficient action plans. As such, the smaller scale will become vital in predicting future urban metabolic rates and corresponding comfort-driven strategies; • Energy poverty, heat vulnerability, and social injustice are emerging as critical factors for planning and acting for future-proof cities on par of micro- and meso-climatological factors; • Given that the impacts of climate change will persist for many years, adaptation to this phenomenon should be prioritized by removing any prominent barrier and by enabling combinations of different mitigation technologies. These topics will receive a global reach in few decades, since also developing and underdeveloped countries are starting their fight against local climate change, with cities at the forefront.Built Environment in a Changing Climate Research & information: generalbicsscadaptive comfortAustraliabarriersbuilding energy performancebuilding envelopebuildingsbuilt environmentbushfire smokecitiesclimateclimate changeclimate change adaptationcoastal citiesdecarbonizationdensificationdynamical downscaling of climate modelsenergyenergy efficiencyextreme heatfiltrationfocus group discussionfuture scenariosfuture weather dataheat stress from outsideheat-related mortalityindoor air qualityindoor environmentslong-term performanceMediterranean climatemitigationmulti-level office buildingsn/anear-zero energy buildingsoutdoor spacepopulationradiation environmentsample yearstatistical downscaling of climate modelsstructural equation modelingTehrantemperaturethermal comfortthermal environmenttropicsUHI effecturban heaturban heat islandurban heat island intensityurban managementurban modellingurban resilienceurbanisationwind environmentResearch & information: generalUlpiani Giuliaedt1303347Zinzi MicheleedtUlpiani GiuliaothZinzi MicheleothBOOK9910557350103321The Built Environment in a Changing Climate3026926UNINA