垂直绿洲
总部位于华沙的FAAB architektura通过其垂直绿洲建筑对典型的景观城市环境进行了持续调查。
为了减少建筑对环境的影响,该工作室开发了一种建筑塔式系统,该系统可从太阳获取电力,降低能源需求,并利用被动式遮阳来控制其富有表现力的绿色立面的几何形状。
该设计团队的主要目标是引入一种直接涉及居住者的生态过程,使其有能力控制、管理和改善不断变化的气候。
warsaw-based design studio FAAB architektura presents a continued investigation in prototypical landscape urban environments with its vertical oasis building. the studio, in seeking to reduce the environmental impact of buildings, develops an architectural tower system which works to harvest electricity from the sun, requires a lowered energy demand, and makes use of passive shading with the controlled geometries of its expressive green facade. the main goal of the design team is to introduce a performative ecological process that directly involves its occupants, allowing the capacity to control, manage and enhance the changing climate.
FAAB architektura设计的垂直绿洲建筑是一个不断增长的、可重复的系统,能够在城市尺度上改善自然环境。
该项目进一步寻求建立一种新型的城市环境,在那里,技术和生物技术将抵消居住者的自然影响,提供一个满足他们生活水平的栖息地。
垂直绿洲建筑类型被设想位于人口稠密的城市区域,具有多功能的规划,包括零售、办公、酒店和住宅空间。
当与地面热泵连接时,建筑被设计成周边地区的局部热量分配中心。
FAAB architektura designs its vertical oasis building as a growing, repeatable system able to improve the natural environment at an urban scale. the project further seeks to establish a new type of urbanity, where technology and biotechnology will counter the natural impact of its occupants, offering a habitat which satisfies their standard of living. the vertical oasis building typology is envisioned to be situated among densely populated urban areas, with multi-functional programming including retail, office, hotel, and residential spaces. when connected with ground heat pumps, the building is designed to serve as the local heat distribution center for surrounding area.
FAAB architektura设计的垂直绿洲建筑的特点是由多层构件组成的雕塑立面,每一层构件都扮演着重要的角色。
白色的不透明元素由建筑集成的光伏(bipv)板制成,而玻璃采用透明的太阳能技术,能够产生来自太阳收集的电能。
立面上的垂直花园由精心挑选的植物和微生物组成,与建筑系统和封闭循环策略一起净化空气中的二氧化碳、氮氧化物和颗粒物污染。 蒸腾的自然过程进一步帮助湿润和冷却空气。
the vertical oasis building by FAAB architektura is characterized by its sculptural facade comprised of multi-layered components, each of which plays an important role. the white opaque elements are made of building-integrated photovoltaic (bipv) panels while the glazing uses transparent solar power technology, capable of producing electricity harvested from the sun. the vertical garden along the facade is composed of carefully selected plants and microorganisms, which work with building systems and closed-circulation strategies to purify the air of CO2, NOx and PM pollution. the natural process of transpiration further help to humidify and cool the air.
垂直绿洲建筑立面的绿色层被设计成与移动应用程序相匹配,为矩阵中的每种植物提供系统状态。
基础设施连接传感器,使它们能够针对新的环境进行优化。最终用户将能够实时监控系统,并查看其中产生了多少O2z。
在人工智能和机器学习的支持下,该系统将具备自我完善的能力。
建筑的居民将能够在给定的矩阵中修改解决方案的美观性,因为系统会重新创造自己。
the green layer of the vertical oasis building’s facade is designed to be paired with a mobile application that provides the status of the system for each plant in the matrix. an infrastructure connects the sensors allowing them to be optimized for new environments. the end-user will be able to monitor the system in real-time and see, among many others, how much O2z was produced. the system, supported by AI and machine learning will have capabilities to improve itself. the inhabitants of the building will be able to modify the aesthetics of the solution in the given matrix as the system will re-invent itself.
建筑师:FAAB architektura
地址:波兰 华沙
全部回复(1 )
只看楼主 我来说两句 抢板凳垂直绿洲建筑立面的绿色层被设计成与移动应用程序相匹配,为矩阵中的每种植物提供系统状态。
基础设施连接传感器,使它们能够针对新的环境进行优化。最终用户将能够实时监控系统,并查看其中产生了多少O2z。
在人工智能和机器学习的支持下,该系统将具备自我完善的能力。
建筑的居民将能够在给定的矩阵中修改解决方案的美观性,因为系统会重新创造自己。
回复 举报