At 480 meters tall, North Bund (Lot 91) will be the world’s tallest, and Shanghai’s first, all-electric supertall, creating a new framework for sustainable towers by prioritizing carbon footprint reduction and serving as a model for the city’s responsible growth.

北外滩（91号地块）高480米，将成为世界最高，也是上海首个全电气化的超高层建筑。它以减少碳足迹为首要目标，为可持续塔楼构建了全新的框架，并将成为城市负责任发展的典范。

Located near the confluence of two bodies of water, the Huangpu River and Suzhou Creek, and at the nexus of three neighborhoods, LuJiaZhui, PuXi, and North Bund, the project reflects themes of intersection and balance throughout its design. The main form of the tower begins as a circle at ground level and transforms into a triangle as the floor plates rise, optimizing sweeping views from the office floors and thoughtfully directing views from hotel rooms. The crown of the tower culminates in three dramatic, stepped elements that reinforce the embodiment of nature, culture, and technology. Soaring vertical recesses emphasize the tower’s connection from ground to sky, ensuring the supertall remains visually approachable and reminding all that the tower’s highest point is truly publicly accessible.

该项目位于黄浦江与苏州河两大水系的交汇处附近，地处陆家嘴、浦西和北外滩三个街区的交汇处，其设计始终贯穿着交汇与平衡的主题。塔楼主体造型从底层开始呈圆形，随着楼层升高逐渐演变成三角形，优化了办公楼层的视野，并巧妙地引导了酒店客房的视线。塔顶由三个引人注目的阶梯式元素构成，进一步强化了自然、文化和科技的融合。高耸的垂直凹槽强调了塔楼从地面到天空的联系，确保这座超高层建筑在视觉上易于接近，并提醒所有人，塔楼的最高点是真正开放的公共区域。

To support China’s vision of becoming fully carbon neutral by 2060, the tower is fully electrified, burning no fossil fuels on site. Its modulated triangular shape reduces wind loads, allowing for a lighter structure that uses less material. By catching the sun at an oblique angle, the façade minimizes solar heat gain, while integrated photovoltaic solar panels harvest electricity.

为了支持中国到2060年实现完全碳中和的愿景，该塔楼完全电气化的，现场不燃烧任何化石燃料。其可调节的三角形形状减少了风荷载，从而实现了更轻的结构和更少的材料使用。通过以倾斜角度捕捉阳光，立面最大限度地减少了太阳热增益，同时集成的光伏太阳能电池板可以收集电能。

The project further addresses the consequences of climate change by prioritizing resiliency and the public realm; the tower’s flared base collects rainwater and directs it to holding cisterns, aiding with urban flood mitigation and providing irrigation for a park at ground level. Working together, advanced mechanical, façade, and structural solutions will reduce operational carbon by 40-50% and embodied carbon by 20-30% compared to a typical supertall tower.

该项目通过优先考虑韧性和公共领域，进一步应对气候变化的影响；塔楼的喇叭形底座收集雨水并将其引导至蓄水池，有助于缓解城市洪涝灾害，并为地面公园提供灌溉。与典型的超高层塔楼相比，先进的机械、立面和结构解决方案共同作用，将减少40-50%的运营碳排放和20-30%的隐含碳排放。

CLIENT: Shanghai Construction Engineering Group, Shanghai Industrial Development Company

TYPE: Civic + Cultural, Hospitality, Mixed-Use, Office, Retail, Supertall

SIZE: 350,000 m2 / 3,767,000 ft2

HEIGHT: 480 m / 1,600 ft

UNITS: 132 Rooms / 144 Residences

SEE MORE (来自)   KPF