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Nick Merrick © Hall+Merrick
尼克·梅里克
架构师提供的文本描述。这个188,447个SF研究设施的目的是建立一个鲜明的校园门户的身份,同时也满足客户对可持续的“马匹”实验室建筑的需求。大楼的五层以上和地下室将容纳各种科学学科,将利用建筑物的混合实验室,其中包括高海湾空间,高罩密度实验室,以及三个水平的通用生命科学实验室。该定制设计,高度强化的地下室层将容纳世界上第一个紧凑的X射线自由电子激光器.
Text description provided by the architects. The 188,447 SF research facility was intended to establish an identity as a striking campus gateway, while also delivering on the client’s need for a sustainable “workhorse” laboratory building. The building’s five above-grade levels and basement will house various scientific disciplines that will utilize the building’s mixture of laboratories, which includes high bay space, high hood-density laboratories, and three levels of generic life sciences laboratories. The custom-designed, heavily reinforced basement level will house the world’s first compact X-ray free-electron laser.
Text description provided by the architects. The 188,447 SF research facility was intended to establish an identity as a striking campus gateway, while also delivering on the client’s need for a sustainable “workhorse” laboratory building. The building’s five above-grade levels and basement will house various scientific disciplines that will utilize the building’s mixture of laboratories, which includes high bay space, high hood-density laboratories, and three levels of generic life sciences laboratories. The custom-designed, heavily reinforced basement level will house the world’s first compact X-ray free-electron laser.
Nick Merrick © Hall+Merrick
尼克·梅里克
该建筑的主要形式是三个研究“邻里”组成的每一层平面图。形成了一个以詹姆斯·特雷尔装置为中心的研究四合院的北缘,这三个建筑段已被战略性地定位,以保护从内部的视野。独特的铜外表是对亚利桑那州根的一种认可(铜是亚利桑那州历史上的“五国集团”之一,推动了该州早期的经济发展),也是贯穿校园建筑的红色色彩的独特表现。
The building’s primary form is an expression of the three research “neighborhoods” that comprise each floor plan. Forming the northern edge of a research quadrangle centered on a James Turrell installation, the three building segments have been strategically positioned to protect the view from within the installation. The distinctive copper exterior is a nod to Arizona’s roots (copper being one of Arizona’s historic “Five Cs” that drove the state’s early economy) and a unique expression of the reddish hue that permeates the campus architecture.
The building’s primary form is an expression of the three research “neighborhoods” that comprise each floor plan. Forming the northern edge of a research quadrangle centered on a James Turrell installation, the three building segments have been strategically positioned to protect the view from within the installation. The distinctive copper exterior is a nod to Arizona’s roots (copper being one of Arizona’s historic “Five Cs” that drove the state’s early economy) and a unique expression of the reddish hue that permeates the campus architecture.
Nick Merrick © Hall+Merrick
尼克·梅里克
设计为实现LEED白金®,与现有园区实验室相比,节能目标为44%,生物设计C旨在成为校园中最节能的实验室。平衡性能、美观性和预算,独特的外部铜网缠绕在绝缘金属板的初级蒙皮周围,以形成高性能的双FA1ADE。包括数以千计的铜面板,该屏幕具有八个不同的穿孔水平。对研究中心的微气候和FASTODE特定条件进行了深入的研究,告知其校准和定位,以最大限度地减少太阳能热增益,优化采光和视觉舒适性,并提供无障碍的视图。
Designed to achieve LEED Platinum®, with an energy savings goal of 44% compared to existing campus laboratories, Biodesign C is intended to be the most energy efficient lab on campus. Balancing performance, aesthetics, and budget, the distinctive outer copper screen wraps around a primary skin of insulated metal panels to create a high-performance dual façade. Comprised of thousands of copper panels, the screen features eight different levels of perforation. Intensive studies of the site’s micro-climate and façade-specific conditions informed their calibration and positioning to minimize solar heat gain, optimize daylighting and visual comfort, and provide unobstructed views out.
Designed to achieve LEED Platinum®, with an energy savings goal of 44% compared to existing campus laboratories, Biodesign C is intended to be the most energy efficient lab on campus. Balancing performance, aesthetics, and budget, the distinctive outer copper screen wraps around a primary skin of insulated metal panels to create a high-performance dual façade. Comprised of thousands of copper panels, the screen features eight different levels of perforation. Intensive studies of the site’s micro-climate and façade-specific conditions informed their calibration and positioning to minimize solar heat gain, optimize daylighting and visual comfort, and provide unobstructed views out.
Nick Merrick © Hall+Merrick
尼克·梅里克
作为一种遮阳装置,在炎热的夏季,屏幕可使内立面的表面温度降低约65度,大大减少周边空间的冷却负荷。
As a shading device, the screen reduces the surface temperature of the inner façade by roughly 65 degrees on hot summer days, significantly reducing the cooling load on perimeter spaces.
As a shading device, the screen reduces the surface temperature of the inner façade by roughly 65 degrees on hot summer days, significantly reducing the cooling load on perimeter spaces.
Nick Merrick © Hall+Merrick
尼克·梅里克
Nick Merrick © Hall+Merrick
尼克·梅里克
进一步结合形式和功能,广场已经从建筑的基础上雕刻出来,这允许所有的壁画和会议,尽管沙漠炎热。位于这一空间上方的三层实验室通常需要重型混凝土剪力墙。然而,结合设计的优点和结构的完整性,设计了一系列倾斜和垂直柱,以提供横向支撑。虽然一个优雅和创新的设计解决方案,它提出了一个独特的挑战-一些柱子是角度,一些直立,其中一个是三层楼高。多个大型模型帮助完善混合和模板的每一种情况。
Further combining form and function, a plaza has been carved out of the building’s base, which allows for al fresco breaks and meetings, despite the desert heat. Three levels of labs located directly above such a space would typically require heavy concrete shear walls. However, melding design excellence and structural integrity, a series of sloped and vertical columns was devised to provide lateral bracing. While an elegant and innovative design solution, it posed a unique challenge—some columns are angled, some upright, and one is three stories tall. Multiple large-scale mockups helped perfect the mix and formwork for each condition.
Further combining form and function, a plaza has been carved out of the building’s base, which allows for al fresco breaks and meetings, despite the desert heat. Three levels of labs located directly above such a space would typically require heavy concrete shear walls. However, melding design excellence and structural integrity, a series of sloped and vertical columns was devised to provide lateral bracing. While an elegant and innovative design solution, it posed a unique challenge—some columns are angled, some upright, and one is three stories tall. Multiple large-scale mockups helped perfect the mix and formwork for each condition.
Sustainability Diagram
可持续性图
建筑的生物友好型设计元素旨在营造一个积极的、富有成效的室内环境,同时保持与自然和社区的联系。35%的窗墙比和透明的空间分层,确保白天洪水以上等级的室内。富丽堂皇的窗户和玻璃围封的大厅俯瞰着活跃的校园大道和充满活力的PaloVerdes树林。玻璃机库门无缝连接底层制造商空间和小树林。未经处理的铜墙面将逐渐变薄,模仿沙漠不规则的、不断演变的颜色和纹理。
The building’s biophilic design elements are intended to foster a positive, productive indoor environment, while maintaining connection with nature and community. A 35% window-to-wall ratio and transparent layering of spaces ensures daylight floods above-grade interiors. Abundant windows and the glass-enclosed lobby overlook active campus thoroughfares and a grove of vibrant palo verdes. Glass hangar doors seamlessly connect ground-floor maker spaces with the grove. The untreated copper façade will patina gradually, emulating the irregular, ever-evolving colors and textures of the desert.
The building’s biophilic design elements are intended to foster a positive, productive indoor environment, while maintaining connection with nature and community. A 35% window-to-wall ratio and transparent layering of spaces ensures daylight floods above-grade interiors. Abundant windows and the glass-enclosed lobby overlook active campus thoroughfares and a grove of vibrant palo verdes. Glass hangar doors seamlessly connect ground-floor maker spaces with the grove. The untreated copper façade will patina gradually, emulating the irregular, ever-evolving colors and textures of the desert.
Nick Merrick © Hall+Merrick
尼克·梅里克
Architects ZGF Architects
Location Tempe, Arizona, United States
Lead Architects ZGF
Area 188447.0 ft2
Project Year 2018
Photographs Nick Merrick © Hall+Merrick
Category Sustainability
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