Skidmore, Owings & Merrill

Beijing Greenland Center

Skidmore, Owings & Merrill
23. June 2016
Photo: Courtesy SOM © LV Hengzhong

The 260-meter-tall, 55-story tower prioritizes sustainability and e ciency and is clad in a prismatic trapezoidal glass façade that generates self- shading to enhance the building’s environmental performance.

Photo: Courtesy SOM © LV Hengzhong

The design team sought to create an elegant, eye-catching tower by exploring interactions between simple form, light, and shadow. In a response to Beijing’s overcast skies, the tower catches and re ects daylight to enliven the surrounding neighborhood. The tower accommodates multiple programs—Class A o ce space and serviced apartments—and connects to an attached multi-story retail podium. The tower stacks 178 serviced apartments on top of four o ce oor zones, organized around a simple rectangular plan with a central core to maximize exibility. The tower’s striking façade pattern is informed by the bas relief carving technique: Isosceles trapezoidal modules function as prisms, catching daylight and refracting it to create an interplay of light and shadow. Each face is composed of two vertical, low-E insulated vision glass panels. Two trapezoid types alternate in a regular pattern up the tower’s height, tapering toward the sky or the neighborhood below. The trapezoidal skin increases the building’s performance, providing energy-saving self-shading on all faces.

Photo: Courtesy SOM © LV Hengzhong

The design aims to achieve a 30% reduction in energy use and water consumption compared to baseline by utilizing sustainable features such as a Direct Digital Control building automation system, a heat reclaim wheel, variable speed pumps for heating and cooling, and a water-side economizer to utilize evaporative cooling.

Addressing a need for environmentally responsible, mixed-use urban development, Beijing Greenland Center is a highly visible example of how visually striking design can also be highly exible and sustainable.

Photo: Courtesy SOM © LV Hengzhong

A vibrant new neighborhood in Beijing
Beijing Dawangjing is a new neighborhood located on Beijing’s northeast side, halfway between the city’s historic core and Beijing Capital International Airport. The mixed-use development was master planned by SOM to be a walkable, green district that prioritizes quality of life and responsible use of natural resources. Adjacent to the Capital-Airport Freeway and the 5th Ring Road and near the M15 metro, Dawangjing seamlessly integrates with the built environment in Beijing’s Wangjing area and brings new greenspace, cultural and civic venues, and residential, retail, o ce options to the growing Beijing neighborhood. Several SOM-designed towers, including the Beijing Greenland Center and a cluster of three towers at Poly International Plaza, anchor the district.

Photo: Courtesy SOM © LV Hengzhong

A vision for walkable, green living
The master plan establishes principles and guidelines for the Dawangjing neighborhood that reduce environmental impact and make walking and bicycling safer and more compelling. A new park is the area’s centerpiece and incorporates destination amenities like cafes and recreation facilities to encourage interaction and a sense of community. Streets are designed to be as verdant and welcoming as the park, with bike lanes and sidewalks set alongside green features such as bioswales. Pedestrian-scaled commercial and retail bolster an active streetscape, and main o ce and hotel lobbies are located along pedestrian thoroughfares. Strategies for the massing of buildings emphasize the human scale, and design guidelines recommend the creation of timeless buildings with modulated facades—a long-term approach that focuses on design and planning principles that will endure.

Photo: Courtesy SOM © LV Hengzhong
Photo: Courtesy SOM © LV Hengzhong
Urban Context Map (Image © SOM)
Comparative analysis helped us achieve the current curtain wall design. These images demonstrate the comparison of our façade with a flat façade. (Image © SOM)
Modular Unit Organization (Image © SOM)
Running analysis on each façade for various times of the year verified continuous performance benefits. Comparing these results for different variations of the geometry confirmed our design. (Image © SOM)
Typical Floor Plans (Image © SOM)

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