Container Park ATÖLYE Labs

2015-12-24 22:00
 © Yerçekim Photography
Yer Ekim摄影
架构师提供的文本描述。认识到21世纪承诺在教育、研究和工业之间建立新的生产关系,iDEEGE Technopark A.Ş。与Atolye实验室讨论了一个设施,以促进跨学科的合作,并将新兴的技术公园锚定在伊兹密尔的心脏地带,伊兹密尔是土耳其西部一个繁华的国际大都市。由此产生的项目重新利用了35个二手集装箱,形成了校园内一个新的、充满活力的研究社区的核心,并在伊格大学、伊兹密尔和整个爱琴海地区发挥了吸引人才的创造性磁铁的作用。
Text description provided by the architects. Recognizing that the 21st Century promises new productive relationships between education, research, and industry, iDEEGE Technopark A. Ş. approached Atolye Labs about a facility to foster interdisciplinary collaboration and anchor the emerging technopark in the heart of Izmir, a bustling cosmopolis in Western Turkey. The resulting project repurposes 35 second hand shipping containers to form the centerpiece of a new, vibrant research community on the campus as well as to function as a creative magnet for talent in Ege University, Izmir and Aegean region at large.
 Floor Plan

                            
1000平方米的技术园区将容纳独立的R。
The 1000m2 technopark facility will house independent R & D facilities of large Turkish and International companies focusing on biotechnology, energy, materials and software research. This program is coupled with strategically situated “catalysts” to increase interaction and collaboration potential among all members of this community.
 © Yerçekim Photography
Yer Ekim摄影
 
该项目的独特之处不仅在于其快速的研究、设计和施工过程(都在9个月的紧凑时间表内),而且还因为该项目的简短、现场和程序是由设计团队自己开发和完善的。此外,场地特性、生态和未来校对的关键设计原则有助于为土耳其和其他地区的类似机构树立榜样。
The project was unique not only in terms of its fast-paced research, design and construction process (all in all in a tight 9-month schedule), but also because the project’s brief, site and program was developed and refined by the design team itself. Furthermore, key design principles of site-specificity, ecology and future proofing helped create a role model for similar institutions in Turkey and beyond.
 © Yerçekim Photography
Yer Ekim摄影
以下是这些设计原则的细节。
Here are the details of these design principles.
特定地点设计:
Site-specific design:
该项目开始时,发现了一个休眠的遗址,废墟中的一座被拆除的建筑物在大的大学校园。通过重新使用当地采购的位于伊兹米尔港12公里外的二手集装箱,设计小组得以利用未充分使用的建筑材料提升了一个未充分使用的工地的周期。
The project started with the discovery of a dormant site with the rubble of a demolished building amidst the large university campus. By repurposing locally acquired second hand shipping containers located 12km away in Izmir port, the design team was able to upcycle an underused site with underused construction materials.
 © Yerçekim Photography
Yer Ekim摄影
从场地、太阳能方向、现有校园循环路线、风角、树荫地区和前一栋建筑的轮廓来看,有助于形成一个有意义和财政上可行的方案划分、体积安排,最终形成流动的用户循环。关于可能的用户交互的故事板有助于传达围绕艺术、设计和技术的催化剂程序的重要性。同时,一个垂直的“信标”容器,一个内部庭院,狭窄的交叉循环走廊,以及充足的座位空间,使视野和避难所,以及自发的相遇和玩耍。
Looking into the site, solar orientation, existing campus circulation routes, wind angles, tree shaded areas and the contours of the previous building helped craft a meaningful and financially viable programmatic division, volumetric arrangement and ultimately a fluid user circulation. Storyboard of possible user interactions helped communicate the importance of catalyst programs around art, design and technology. Meanwhile, a vertical ‘beacon’ container, an inner courtyard, narrow cross-circulation corridors, and ample seating spots enable spaces for prospect and refuge, as well as spontaneous encounters and play.
 © Yerçekim Photography
Yer Ekim摄影
生态设计:
Ecological Design :
除了大量的材料回收和再利用外,该项目还展示了广泛的生态战略。通过放置最大的南北曝光率和狭窄的截面的容器模块,该设计最大限度地利用被动太阳能策略和自然通风的能力。
Aside from an exceptional amount of material recycling and reuse, the project exhibits a wide gamut of ecological strategies. By placing container modules with maximum north-south exposure and narrow cross sections, the design maximized the ability to use passive solar strategies coupled with natural ventilation.
 © Yerçekim Photography
Yer Ekim摄影
现有的树木、优化设计的遮阳设备、太阳能涂层的南方窗户、厚厚的隔热层、高效的空调、软木等天然材料以及LED照明系统,都有助于将建筑物的环境影响降到最低。
Existing trees, optimally designed shading devices, solar coated southern windows, thick insulation, efficient air conditioning, natural materials such as cork, and LED lighting systems all helped minimize the building’s environmental impact.
 
未来-校对设计:
Future-proofed Design:
考虑到核心的适应性和弹性
Given that adaptability and resilience of a core & shell building is its biggest asset in the long term, the project features multiple technical details such as exposed beams and columns, visible electrical trays, abundant plugs, high-capacity ventilation, locally controllable heating-cooling systems and supporting sub-structure to help build separators in the future. All these systems help easily modify spatial programs over time.
 © Yerçekim Photography
Yer Ekim摄影
从程序上讲,该项目通过在现场各地放置交互催化剂、设计替代布局和模块化家具、将集装箱正面的部分设想为壁画家的可行画布,以及为便于拆除和搬迁而设计的项目,成为建筑原型的一种表现,这就需要激发伊兹密尔及其他地区一个有才华的社区。
Programmatically, by placing interaction catalysts across the site, designing alternative layouts and modular furniture, envisioning sections of the container facades as a workable canvas for muralists and designing for easy dismantlement and relocation, the project becomes a manifestation of a building as a prototype, one that entails galvanizing a talented community in Izmir and beyond.
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Architects ATÖLYE Labs
Location Bornova,35040 Bornova/İzmir,Turquia
Category Office Buildings
Design Team Engin Ayaz, Nesile Yalçın, Nujen Acar, Elif Karaköse, Buşra Tunç, Berna Erenoğlu
Project Manager Nesile Yalçın
Interns Begüm Ural, Batuhan Türker
Visualization Murathan Sırakya, Gökhan Gürbüz
Architectural Design ATÖLYE Labs
Project Year 2015
Photographs Yerçekim Photography

                    

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