Search results for " roofs"

showing 10 items of 22 documents

Thirty years unmanaged green roofs: Ecological research and design implications

2016

Abstract The variations in species composition and assemblage of unmanaged simple-intensive green roofs in Hannover, Germany, were investigated over a thirty year period, in order to assess the persistence of the initial seed mixture and to evaluate floristic changes. The roofs were greened in 1985 with soil-based turf rolls sown with a mixture of five grasses (Festuca rubra, Festuca ovina, Agrostis capillaris, Lolium perenne and Poa pratensis). Three sets of 120 phytosociological releves, sampled in 1987, 1999 and 2014, have been compared to assess: (1) nestedness vs spatial turnover, (2) functional diversity and (3) the importance of vegetation dynamics on green roof performance and desig…

0106 biological sciencesSeed dispersalGreen roofSettore AGR/13 - Chimica AgrariaSimple-intensive green roofs Temperate ecosystems Long term dynamics Plant functional traits Urban biodiversity Descriptors010501 environmental sciencesManagement Monitoring Policy and LawBiology010603 evolutionary biology01 natural sciences333: Bodenwirtschaft und RessourcenSimple-intensive green roofs Temperate ecosystems Long term dynamics Functional traits Urban biodiversity DescriptorsRuderal species577: Ökologie0105 earth and related environmental sciencesNature and Landscape ConservationEcologyEcologySpecies diversityPlant community15. Life on landbiology.organism_classificationUrban StudiesSettore BIO/03 - Botanica Ambientale E ApplicataNestednessFestuca ovinaFestuca rubra
researchProduct

A plant sociological approach for extensive green roofs in Mediterranean areas

2013

Extensive Green roofs can be an important mean for environmental mitigation if designed according to the principles of restoration ecology. Moreover, if optimally executed, properly managed and of sufficient extension, they could be assimilated to meta-populations of natural habitats, worth to be included in the biodiversity monitoring networks. The best example supporting this hypothesis is the Lake water plant Moos in Wollishofen (Zurich, Switzerland) where, on three 100 years old units of extensive green roofs, occur most of the typical flora of Mesobromion, including high density of some endangered orchid species. With this work, we propose a methodology approach for green roofs in Medi…

333: Bodenwirtschaft und RessourcenExtensive green roofs plant sociology habitat replication biodiversity assessment Natura 2000 hay transfer.Plant sociologySettore BIO/03 - Botanica Ambientale E ApplicataHabitat replicationHay transferSettore AGR/04 - Orticoltura E Floricoltura577: ÖkologieBiodiversity assessment
researchProduct

Computing methods for resilience: evaluating new building components in the frame of SECAPs

2019

Resilience represents a new important feature that the anthropic systems, and cities among them, are called to cope with. In fact, the increasing negative stresses to which urban contexts are exposed, and mainly the climatic pressures, call for the capability of adapting to these modifications and, possibly, to restore the ex-ante situations. The role of the buildings and their envelope components is of crucial importance to this aim. This paper analyses the features of resilience of the roofs of buildings by means of proper quantitative indexes. On purpose, the performances of green and cool roofs are compared. The possibility of adopting nonstructural solutions, like the windows shading d…

Architectural engineeringgreen roofComputer science020209 energycool roof0211 other engineering and technologies02 engineering and technologygreen roofsenergy consumption021105 building & constructionbuilding0202 electrical engineering electronic engineering information engineeringFeature (machine learning)shading devicesResilience (network)resilienceshading devices.Settore ING-IND/11 - Fisica Tecnica AmbientaleFrame (networking)Energy consumptionbuildingsbuildings energy consumption resilience green roofs cool roofs shading devicescool roofsbuildings; cool roofs; energy consumption; green roofs; resilience; shading devicesReflective surfacesEnvelope (motion)
researchProduct

A Survey on Daylighting Education in Italian Universities : Knowledge of Standards, Metrics and Simulation Tools

2021

Daylighting is a strategic topic to achieve sustainable buildings, so it is more and more imperative that it is implemented in architecture curricula to prepare a new generation of daylighting-oriented practitioners. In this frame, the DAYKE project (Daylight Knowledge in Europe) was set up to explore the level of knowledge about daylighting among European professionals and students. DAYKE-Europe was replicated as DAYKE-Italy to study the knowledge of daylight standards, metrics and software among Italian architecture students, and to compare it to that observed within DAYKE-Europe. A sample of 542 questionnaires were collected in five universities. Primary outcomes were: (i) a general low …

Architectural engineeringlcsh:TH2025-3000Renewable Energy Sustainability and the EnvironmentComputer scienceDaylighting education Italian university student DAYKE survey Daylight metricsDAYKE surveylcsh:Details in building design and construction. Including walls roofsDaylighting educationDaylight metricsItalian university studentDaylightingEnergy (miscellaneous)
researchProduct

VEGETATED ROOFS: AN ENERGY, ENVIRONMENTAL AND ECONOMICAL OPPORTUNITY FOR GREENING THE BUILDINGS

2012

ENERGYSettore ING-IND/11 - Fisica Tecnica AmbientaleBUILDINGSVEGETATED ROOFSGREENING
researchProduct

Building green covering for a sustainable use of energy

2013

Nowadays the growth of the cities increased built and paved areas, energy use and heat generation. The phenomenon of urban warming, called urban heat island, influences negatively outdoor comfort conditions, pollutants concentration, energy demand for air conditioning, as well as increases environmental impact due to the demand of energy generation. A sustainable technology for improving the energy efficiency of buildings is the use of green roofs and walls in order to reduce the energy consumption for conditioning in summer and improve the thermal insulation in winter. The use of green roofs and walls can contribute to mitigate the phenomenon of heat island, the emissions of greenhouse gas…

EngineeringBioengineeringAir-conditioning; Energy savings; Green roofs; Green walls; Urban ecology; Industrial and Manufacturing Engineering; Mechanical Engineering; BioengineeringEnergy savingsair-conditioning energy savings urban ecology green roofs green walls.Industrial and Manufacturing Engineeringlcsh:Agriculturegreen roofsenergy savingSustainable designUrban heat islandlcsh:Agriculture (General)business.industryair-conditioningMechanical EngineeringEnvironmental engineeringlcsh:SThermal comfortEnergy consumptiongreen wallslcsh:S1-972urban ecologyAir conditioningHeat generationSustainabilitybusinessEfficient energy useair-conditioning; energy saving; urban ecology; green roofs; green walls
researchProduct

Embedding “substrate” in environmental assessment of green roofs life cycle: evidences from an application to the whole chain in a Mediterranean site

2012

Abstract A classical LCA methodology is here applied to green roofs including in this analysis also the whole life cycle of the substrate, that represented a lack of previous LCA studies on green roofs. This inclusion will allow a complete and proper application of the LCA methodology to achieve an environmental accounting of the “green roof” performance. We have here chosen to approach the problem by analysing a specific substrate, that is used within an actual extensive green roof. Afterwards, we have applied the LCA methodology to the whole actual extensive green roof whose substrate under analysis is part of. In this manner, we achieved an environmental accounting of the “green roof” pe…

EngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleRenewable Energy Sustainability and the Environmentbusiness.industryStrategy and ManagementGreen roofEnvironmental engineeringCivil engineeringIndustrial and Manufacturing EngineeringEnvironmental accountingSubstrate (building)Work (electrical)Substrate specificityEnvironmental impact assessmentgreen roofs substrate extensive green roof life cycle assessment (LCA) life cycle approach end of life phase fertilizers MediterraneanbusinessGeneral Environmental ScienceJournal of Cleaner Production
researchProduct

Some European green roof norms and guidelines through the lens of biodiversity : do ecoregions and plant traits also matter?

2018

Abstract Green infrastructure and in particular green roofs are crucial to meet the challenge of sustainable urbanisation fostered by the current European Research and Innovation agenda. Several documents were issued in the last decades in Europe for regulating the design, construction and up-keep of roof greening. In particular, the actual German guidelines have been widely adopted as a reference basis for green roof design and regulation worldwide, because of its exhaustiveness and proven building- and landscaping tradition. With the aim to assess the effectiveness of green roof guidelines and norms in supporting plant and soil biodiversity in different ecoregions, and particularly of the…

Environmental Engineering010504 meteorology & atmospheric sciencesSoil biodiversitySettore AGR/13 - Chimica AgrariaGreen roofBiodiversity010501 environmental sciencesManagement Monitoring Policy and Law01 natural sciencesGermanEcoregion577: Ökologie0105 earth and related environmental sciencesNature and Landscape ConservationSettore ICAR/15 - Architettura Del PaesaggioBiodiverse green roofs Ecological design Biogeographic regions Nature-based solutions Policiesbusiness.industryEnvironmental resource managementlanguage.human_languageGeographySettore BIO/03 - Botanica Ambientale E ApplicatalanguageLandscapingNorm (social)Green infrastructurebusiness
researchProduct

Assessing the effectiveness of green roofs in enhancing the energy and indoor comfort resilience of urban buildings to climate change: Methodology pr…

2021

Abstract The effects of climate change on the built environment represents an important research challenge. Today, green roofs (GRs) represent a viable solution for enhancing energy and urban resilience in the face of climate change, as they can have a positive impact on the building's indoor thermal comfort and energy demand, as well as inducing various environmental benefits (easing urban heat island effects, improving the management of runoff water, reducing air pollution, etc.). Thus, it is important to be able to assess their effectiveness, both today and under future climate conditions, in order to evaluate whether they can also provide a valid long-term solution. In this paper, a sim…

Environmental EngineeringSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryGeography Planning and DevelopmentEnvironmental resource managementAir pollutionClimate changeThermal comfortBuilding and Constructionmedicine.disease_causeEffects of global warmingmedicineEnvironmental scienceClimate change adaptation Energy building simulation Energy savings Green roofs Indoor thermal comfort Urban buildings resilienceUrban heat islandbusinessResilience (network)Urban resilienceBuilt environmentCivil and Structural Engineering
researchProduct

Studies on sedum taxa found in Sicily (Italy) for mediterranean extensive green roofs

2018

One type of green roof whose function is ecological and environmental rather than aesthetic is the extensive green roof. Many studies have shown that Sedum performs very well compared to other hardy species in substrates of less than 10 cm. It seems that Sedum species are able to survive in very thin substrates; they tolerate extreme temperatures and sudden variations in temperatures, high levels of solar radiation, strong winds, poor substrate fertility and extreme drought. In particular, this paper looks at the potential of a number of species from the Sicilian taxa of the genus Sedum (Crassulaceae), which are considered to be those xerophytes most suited for use in extensive green roof s…

Mediterranean climate010504 meteorology & atmospheric sciencesGreen roofMediterranean environment.BiodiversityMediterranean environmentGreen roofs010501 environmental sciencesBiologylcsh:Plant culture01 natural sciencesSedumlcsh:AgricultureBotanyGreen rooflcsh:SB1-11100105 earth and related environmental scienceslcsh:Sbiology.organism_classificationDasyphyllumSedumCrassulaceaeSettore AGR/02 - Agronomia E Coltivazioni ErbaceeTaxonAgronomy and Crop ScienceGlobal biodiversity
researchProduct