公司: | ecoLogicStudio | 类型: | 景观 |
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地区: | 意大利 | 标签: | 艺术装置 |
ecoLogicStudio的创始人Claudia Pasquero和Marco Poletto及其研究伙伴因斯布鲁克大学的合成景观实验室和巴特勒大学的城市形态发生实验室已被邀请参加由Hashim Sarkis策划的第17届威尼斯国际建筑展 "我们将如何共同生活?"该展览将于2021年5月22日至11月11日在威尼斯举行。
Claudia Pasquero and Marco Poletto, founders of ecoLogicStudio www.ecologicstudio.com and their research partners The Synthetic Landscape Lab at Innsbruck University and the Urban Morphogenesis Lab at the Bartlett UCL have been invited to participate in “How will we live together?” the 17th International Architecture Exhibition — La Biennale di Venezia curated by Hashim Sarkis which will be held in Venice from May 22nd to November 11th, 2021.
在Corderie dell'Arsenale的 "As New Households"部分,工作室将展示BIT.BIO.BOT--一个1:1比例的装置,一个关于城市微生物组的家庭培养的沉浸式实验。这个实验空间旨在测试人类和非人类生物体在后大流行的城市圈中的共存情况。
Within the “As New Households” section of the Corderie dell’Arsenale, the studio will present BIT.BIO.BOT — a 1:1 scale installation, an immersive experiment in the domestic cultivation of the urban microbiome. The experimental space is designed to test the co-existence between human and non-human organisms in the post-pandemic Urbansphere.
"BIT.BIO.BOT有助于质疑和重新设计导致我们目前健康危机的一些逻辑。如果我们每天集体地、在当地为将空气污染物和水污染物转化为高营养的食物做出贡献,那么不平衡的病毒生态利用不可持续的食物供应链和受污染的大气到达我们的机体并对我们造成伤害的机会就会减少”。- ecoLogicStudio的联合创始人Claudia Pasquero断言。
"BIT.BIO.BOT contributes to questioning and re-designing some of the logics which led us to the current health crisis. If we, collectively, daily and locally, will contribute to transforming air pollutants and water contaminants into highly nutritious aliments, there will be fewer opportunities for unbalanced viral ecologies to exploit unsustainable food supply chains and polluted atmospheres to reach our organism and cause us harm". — asserts Claudia Pasquero, co-founder of ecoLogicStudio.
该装置是一个城市实验室,将先进的建筑学与微生物学相结合,建立一个人工栖息地,由一系列系统管理,使微藻在城市领域的培养成为可能。
The installation is an urban laboratory that combines advanced architecture with microbiology to build an artificial habitat, managed by a collection of systems which enable the cultivation of microalgae in the urban realm.
▼项目效果图 Rendering
▼项目效果图 Rendering
▼项目效果图 Rendering
BIT.BIO.BOT的核心生物机制是光合作用过程,由太阳和螺旋藻(通常被称为蓝绿色微藻的单细胞微生物)和小球藻SP的活体培养物的代谢提供动力。这些活的生物体是地球上最古老的生物体之一,并且已经发展出一种独特的生物智能,使它们能够以无与伦比的效率将太阳辐射转化为实际的氧气和生物量。
The core biological mechanisms of BIT.BIO.BOT is the process of photosynthesis, powered by the sun and by the metabolism of living cultures of Spirulina Platensis, single-celled microbes that are often referred to as blue-green microalgae, and Chlorella SP. These living organisms are among the oldest on Earth, and have developed a unique biological intelligence that enables them to convert solar radiation into actual oxygen and biomass with unrivalled efficiency.
在Corderie展出的先进建筑系统是10年生物数字设计研究的结果,由ecoLogicStudio开发,并将计算设计策略(BIT)与专有制造技术(BOT)相结合,以实现集体微生物培养协议(BIO)。
The advanced architectural system on show at the Corderie is the result of 10 years of bio-digital design research, developed by ecoLogicStudio and combining computational design strategies (BIT) with proprietary fabrication techniques (BOT) to implement a collective microbiological cultivation protocol (BIO).
PROJECT NAME: BIT.BIO.BOT
ARCHITECT: ecoLogicStudio
PROJECT TEAM: Claudia Pasquero, Marco Poletto with Eirini Tsomouku, Oscar Villarreal, Claudia Handler, Korbinian Enzinger, Terezia Greskova, Alessandra Poletto, Emiliano Rando, Joy Bolois.
ACADEMIC PARTNERS: WITH THE ADDITIONAL SUPPORT OF Synthetic Landscape Lab IOUD Innsbruck University, Urban Morphogenesis Lab BPRO The Bartlett UCL
Innsbruck University, Swarovski, Ecoduna, Destination Wattens, anonymous donor
PHOTOGRAPHER: ©Marco Cappelletti
更新日期:2021-05-21 12:48:18
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