SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313445060> ?p ?o ?g. }

Showing items 1 to 100 of ±108 with 100 items per page.

W4313445060 endingPage "224" @default.
W4313445060 startingPage "191" @default.
W4313445060 abstract "The main bioclimatic passivePassive strategies include optimization of the use of natural lightNatural light, reducing the need for artificial lightArtificial light, maximizing the solar gainSolar gain using thermal traps and promotion of natural ventilationNatural ventilation in order to avoid the need for air conditioning for coolingCooling. The usage of cool air passing through the underground tunnelsTunnels located in the selected neighborhood in Tirana in order to enhance the cooling process is of huge importance. On the other hand, the buildingBuilding must benefit from the passive solar systemsPassive solar systems and thermal energyThermal energy conservation strategies implementing thermal insulationThermal insulation materialsMaterials. These strategies improve both the indoorIndoor comfort and economic aspect. The aim is to be aware of the communityCommunity for the big benefits of such strategies, increasing the number of passivePassive bioclimaticBioclimatic implementations not only in Albania but also in the region. Through the use of such systems the building can obtain indoor thermal comfortThermal comfort without a traditional coolingCooling system. The passive systems discourage the use of mechanical systems for lighting, cooling, and heatingHeating, supporting the natural phenomena such as power of the sun, underground constant temperatureTemperature, wind direction, and other climate parameters. The selection of the proper thermal insulationThermal insulation materials is complex and sometimes determinant in order to reduce heatHeat gain. The thermal accumulation capacity depends on materialMaterials width, material type, density, and porosity of the material. The top insulating materialsMaterials are mostly used in the Tirana. Albania is the expanded polystyrenePolystyrene (EPS). The energyEnergy needed for its production is relatively low compared to the other insulating materials. Passive designDesign encourages the application of such kind of materials, reducing the ecological footprintEcological footprint of the buildingsBuilding. WaterWater recyclingRecycling is another aspect that bioclimaticBioclimatic design takes into consideration, promoting it. The use of specific materials in order to recycle the rain water through drainage is an important task. The buildingBuilding is faced with significant thermal losses due to the windowsWindows. The sizing of the glassGlass area, the orientationOrientation, as well as the choice of glass determine the penetration of solarSolar radiation in the building. The selection of the correct type of window is also a complex task. The designer should consider the climate type, the area of the openings, the typology of the windowWindows, and the characteristics of the window materialsMaterials and its thermal performancePerformance before implementing it. The usage of the high thermal capacity materials (stone, waterWater) is getting noticed nowadays in bioclimaticBioclimatic and passivePassive buildingBuilding designsDesign. These materials are efficient when having large surfaces and face a strong solarSolar radiation. PCM (phase change materialsPhase Change Materials (PCM)) are innovative materials that undergo a physical transformation stabilizing the temperatureTemperature fluctuations in the indoorIndoor area of the buildingBuilding archiving and improving thermal comfortThermal comfort parameters inside the building. The typology of such materialsMaterials and their field of implementation is a very large one. Such materials have resulted to be an added value when implemented and are part of passive systems such as Trombe wallTrombe wall, enhancing its performancePerformance. The piezo-electric materials are another group of innovative materialsMaterials used to gain energy. Their role in energyEnergy gaining nowadays is very small but the future belongs to them. The use of such materials is promoted by bioclimaticBioclimatic designDesign benefiting by their mechanical properties, producing electricityElectricity. The Empathic houseEmpathic house is one of the examples of the future generations. The implementation of some other materialsMaterials such as ETFEETFE in the buildingBuilding envelope in contrast to glassGlass allows the long-waveLong wave penetration inside the building increasing the solar gainSolar gain capacity. The visibility of such materials is still under examination." @default.
W4313445060 created "2023-01-06" @default.
W4313445060 creator A5026455579 @default.
W4313445060 date "2023-01-01" @default.
W4313445060 modified "2023-10-18" @default.
W4313445060 title "Bioclimatic Eco-Renovation Concept Design and Strategies. The Use of Different Materials" @default.
W4313445060 cites W1062318464 @default.
W4313445060 cites W1618872124 @default.
W4313445060 cites W1971597947 @default.
W4313445060 cites W1976803513 @default.
W4313445060 cites W1984500493 @default.
W4313445060 cites W1992540497 @default.
W4313445060 cites W2020378028 @default.
W4313445060 cites W2034198395 @default.
W4313445060 cites W2034691413 @default.
W4313445060 cites W2054013460 @default.
W4313445060 cites W2055259410 @default.
W4313445060 cites W2061690946 @default.
W4313445060 cites W2064615357 @default.
W4313445060 cites W2065955904 @default.
W4313445060 cites W2079475039 @default.
W4313445060 cites W2096647907 @default.
W4313445060 cites W2283314327 @default.
W4313445060 cites W2296434142 @default.
W4313445060 cites W2303115861 @default.
W4313445060 cites W2308361057 @default.
W4313445060 cites W2314778883 @default.
W4313445060 cites W2519996648 @default.
W4313445060 cites W2548940817 @default.
W4313445060 cites W2576632723 @default.
W4313445060 cites W2604571249 @default.
W4313445060 cites W2754166331 @default.
W4313445060 cites W2765676214 @default.
W4313445060 cites W2767922623 @default.
W4313445060 cites W2898463599 @default.
W4313445060 cites W2898688924 @default.
W4313445060 cites W2921953887 @default.
W4313445060 cites W2955749531 @default.
W4313445060 cites W2967647312 @default.
W4313445060 cites W2971825235 @default.
W4313445060 cites W2982605700 @default.
W4313445060 cites W2997801968 @default.
W4313445060 cites W4251205607 @default.
W4313445060 cites W4254649199 @default.
W4313445060 doi "https://doi.org/10.1007/978-3-031-20959-8_8" @default.
W4313445060 hasPublicationYear "2023" @default.
W4313445060 type Work @default.
W4313445060 citedByCount "1" @default.
W4313445060 crossrefType "book-chapter" @default.
W4313445060 hasAuthorship W4313445060A5026455579 @default.
W4313445060 hasConcept C103742991 @default.
W4313445060 hasConcept C127413603 @default.
W4313445060 hasConcept C128014804 @default.
W4313445060 hasConcept C133913538 @default.
W4313445060 hasConcept C147176958 @default.
W4313445060 hasConcept C153294291 @default.
W4313445060 hasConcept C159985019 @default.
W4313445060 hasConcept C170154142 @default.
W4313445060 hasConcept C192562407 @default.
W4313445060 hasConcept C200457457 @default.
W4313445060 hasConcept C204530211 @default.
W4313445060 hasConcept C205649164 @default.
W4313445060 hasConcept C206018219 @default.
W4313445060 hasConcept C2779227376 @default.
W4313445060 hasConcept C39432304 @default.
W4313445060 hasConcept C40221189 @default.
W4313445060 hasConcept C64839514 @default.
W4313445060 hasConcept C78519656 @default.
W4313445060 hasConcept C79795727 @default.
W4313445060 hasConcept C87717796 @default.
W4313445060 hasConceptScore W4313445060C103742991 @default.
W4313445060 hasConceptScore W4313445060C127413603 @default.
W4313445060 hasConceptScore W4313445060C128014804 @default.
W4313445060 hasConceptScore W4313445060C133913538 @default.
W4313445060 hasConceptScore W4313445060C147176958 @default.
W4313445060 hasConceptScore W4313445060C153294291 @default.
W4313445060 hasConceptScore W4313445060C159985019 @default.
W4313445060 hasConceptScore W4313445060C170154142 @default.
W4313445060 hasConceptScore W4313445060C192562407 @default.
W4313445060 hasConceptScore W4313445060C200457457 @default.
W4313445060 hasConceptScore W4313445060C204530211 @default.
W4313445060 hasConceptScore W4313445060C205649164 @default.
W4313445060 hasConceptScore W4313445060C206018219 @default.
W4313445060 hasConceptScore W4313445060C2779227376 @default.
W4313445060 hasConceptScore W4313445060C39432304 @default.
W4313445060 hasConceptScore W4313445060C40221189 @default.
W4313445060 hasConceptScore W4313445060C64839514 @default.
W4313445060 hasConceptScore W4313445060C78519656 @default.
W4313445060 hasConceptScore W4313445060C79795727 @default.
W4313445060 hasConceptScore W4313445060C87717796 @default.
W4313445060 hasLocation W43134450601 @default.
W4313445060 hasOpenAccess W4313445060 @default.
W4313445060 hasPrimaryLocation W43134450601 @default.
W4313445060 hasRelatedWork W1993699292 @default.
W4313445060 hasRelatedWork W2586299377 @default.
W4313445060 hasRelatedWork W2617462934 @default.
W4313445060 hasRelatedWork W2801624769 @default.
W4313445060 hasRelatedWork W284218519 @default.