景观建筑学SMITGROG JJR结构工程SmithGroupJJRMEP工程顾问KJWW工程顾问照明设计KJWW工程顾问土木工程Terra工程有限公司。承包商威廉斯兄弟建筑公司主要团队成员Andrew Vazzano(首席主管SmithGroupJJR)、David King(首席设计师SmithGroupJJR)、Tim Tracey(SmithGroupJJR)、卡罗莱娜·洛佩兹(项目经理SmithGroupJJR)、Laura Holman(项目建筑师SmithGroupJJR)、Coty Sandberg(项目设计师SmithGroupJJR)、Victor Cardona(实验室规划师SmithGroupJJR)、Andrea Reynolds(结构工程师SmithGroupJJR)、Marisa Dittman(景观设计师SmithGroupJJR)公司名称：KJWW工程顾问公司(高级工程师，KJWW工程顾问)多规格少规格

Landscape Architecture SmithGroupJJR Structural Engineering SmithGroupJJR MEP Engineering KJWW Engineering Consultants Lighting Design KJWW Engineering Consultants Civil Engineering Terra Engineering Ltd. Contractor Williams Brothers Construction, Inc. Key Team Members Andrew Vazzano (Principal in Charge SmithGroupJJR), David King (Lead Designer SmithGroupJJR), Tim Tracey (SmithGroupJJR), Carolina Lopez (Project Manager SmithGroupJJR), Laura Holman (Project Architect SmithGroupJJR), Coty Sandberg (Project Designer SmithGroupJJR), Victor Cardona (Laboratory Planner SmithGroupJJR), Andrea Reynolds (Structural Engineer SmithGroupJJR), Marisa Dittman (Landscape Architect SmithGroupJJR), Dave Bodenschatz (Senior Engineer, KJWW Engineering Consultants) Manufacturers Loading... More Specs Less Specs

 © Liam Fredrick

连姆·弗雷德里克

架构师提供的文本描述。伊利诺伊大学香槟分校的电气和计算机工程系是新技术和突破性创新的中心。这座新的欧洲经委会大楼旨在超越一堆砖头和灰泥，它将成为该部门的核心和灵魂-在这个地方，人们会庆祝好奇心，并自然地发生智力冲突。这座建筑占地23万平方英尺，由SmithGroupJJR设计，旨在激发和支持跨学科学习和研究。从一开始，建筑设计就受到能源效率的推动。这座高性能建筑是将文化、能源研究和建筑-一种新的可持续设计范式结合在一起的直接结果。

Text description provided by the architects. The Department of Electrical and Computer Engineering at the University of Illinois, Urbana-Champaign (ECE ILLINOIS) is the epicenter of new technology and groundbreaking innovation. Intended to go beyond a collection of bricks and mortar, the new ECE building will be the heart and soul of the department – a place where curiosity is celebrated and intellectual collisions occur naturally. The building, containing 230,000 square feet of research, instructional and office space, is designed by SmithGroupJJR to inspire and support interdisciplinary learning and research. From its inception, the building design was driven by energy efficiency. This high-performance building is the direct result of integrating culture, energy research and architecture – a new paradigm for sustainable design. 

 © Liam Fredrick

连姆·弗雷德里克

 © Liam Fredrick

连姆·弗雷德里克

伊利诺伊大学决心在建筑能源使用方面制定新的标准，并探索有可能使建筑提供自己能源的机会。欧洲经委会大楼旨在实现零净，它表明了对可持续设计的真诚承诺，同时效仿了公认的推动技术创新极限的部门的精神。从排量和需求控制通风、采用净计量的热回收冷却器到冷梁技术，该建筑以其最小的碳足迹成为校园的重要补充。欧洲经委会大楼的能耗将比ASHRAE 90.1-2007规定的最低建筑能效标准少50%。这是一个特殊的成就，考虑到能源密集的性质的实验室大楼与教学洁净室。

The University of Illinois was determined to set new standards in building energy use and explored opportunities that could potentially enable the building to supply its own energy. Designed to be net-zero ready, the ECE Building demonstrates a sincere commitment to sustainable design while emulating the spirit of the department that is recognized for pushing the limits of technological innovation. From displacement and demand control ventilation, heat recovery chillers with net metering to chilled beam technology, the building is an important addition to the campus in terms of its minimal carbon footprint. The ECE Building will use 50% less energy than the minimum building energy efficiency standards established in ASHRAE 90.1-2007. This is an exceptional achievement considering the energy-intensive nature of a laboratory building with an instructional clean room. 

Architecture

欧洲经委会大楼将是伊利诺伊大学校园未来建筑的可持续性原型。受欧洲经委会伊利诺斯州的技术发现的启发，SmithGroupJJR创造了一种建筑表达方式，它推动了创新的极限，同时保持了与传统砖块校园的美学连续性。该建筑的特点是一个压力均衡的赤陶雨幕包层系统，并结合一个R-30热包络，以获得最佳的能源性能。被动太阳能设计的特点，如最佳的建筑方向，30%的整体玻璃和外部遮阳设备，有助于更大的采光和减少能源负荷。除了保持一个一致的材料调色板，兵马俑和太阳遮阳罩作为外部遮阳装置的80%的玻璃。综合可持续性特征被纳入建筑外部和内部的各个方面。能源效率不仅是优先事项，而且是整个设计过程中每个决策的驱动因素。

The ECE Building will be a sustainability prototype for future buildings on the University of Illinois campus. Inspired by the technological discoveries of ECE ILLINOIS, SmithGroupJJR created an architectural expression that pushed the limits of innovation while maintaining aesthetic continuity with the traditional brick campus. The building features a pressure-equalizing terracotta rainscreen cladding system in conjunction with an R-30 thermal envelope for optimum energy performance. Passive solar design features such as optimal building orientation, 30% overall glazing and exterior shading devices lend to greater daylighting and reduced energy loads. In addition to maintaining a consistent material palette, terracotta baguettes and the solar canopy act as exterior shading devices on 80% of the glazing. Comprehensive sustainability features were incorporated into every aspect of the building’s exterior and interior. Energy efficiency was not only the priority, but the driver for every decision throughout the design process. 

 © Liam Fredrick

连姆·弗雷德里克

 © Liam Fredrick

连姆·弗雷德里克

欧洲经委会伊利诺伊州的新建筑为设想未来的创新、培育技术进步和领导可持续的研究实践提供了一个家园。更重要的是，这座建筑是一个环保管家。整体设计方法-将文化、能源研究和建筑联系起来-是在可持续建筑绩效方面取得重大进展的一种组织模式。新的欧洲经委会大楼是设计创新的突破，也是能源研究未来发现的催化剂-这是一个值得庆祝欧洲经委会伊利诺伊州取得的成就的特殊场所。

ECE ILLINOIS’ new building provides a home to imagine future innovation, to incubate technological advances and to lead sustainable research practices. More importantly, this building is an environmental steward. The holistic approach towards design – linking culture, energy research and architecture – represents an organizational model to achieve significant advances in sustainable building performance. The new ECE building is a breakthrough in design innovation as well as a catalyst for future discoveries in energy research – a special place worthy of celebrating the achievements of ECE ILLINOIS.

 © Liam Fredrick

连姆·弗雷德里克

Architects SmithGroup

Location Urbana, IL, USA

Category University

Owner University of Illinois at Urbana-Champaign

Architecture and Design SmithGroupJJR

User Department of Electrical Computer Engineering Department

Area 230000.0 ft2

Project Year 2014

Photographs Liam Fredrick

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