HENN has unveiled the design for the Sino-French Aviation University. The concept draws on the traditional culture of Liangzhu, a UNESCO World Heritage site located in the Yangtze River Delta. Of the 1.5 million sm, 660,000 sm are dedicated to the academic campus and 930,000 sm host the science and technology park with corporate and commercial companies.
The campus’s central building and its flying roof are the most important design element of the project. The lightweight, concave roof sits atop the main building and opens itself towards the sky, meant to resemble a plane taking off. Public and shared functions, such as research labs, classrooms, conference halls, the canteen, and sports halls, are distributed among the central building.
The overall planning skeleton of the project comprises an industry-academia axis and an urban landscape axis. The industry-academia axis connects to the north and the south with courtyards, squares, and roads, while combining public teaching, labs, and service function buildings. The landscape axis connects the green corridor on the west side of the city with the east-west main entrance of the campus. It extends to the mountain on the east side to become the main landscape corridor of the campus.
See Also: GLY Construction to build underground, robotic parking garage for Seattle Cancer Care Alliance
The buildings’ facades incorporate rough natural materials and masonry texture, and modern technical components like glass, concrete, and steel complement the traditional Chinese facade parts.
Related Stories
Smart Buildings | Apr 28, 2014
Cities Alive: Arup report examines latest trends in urban green spaces
From vertical farming to glowing trees (yes, glowing trees), Arup engineers imagine the future of green infrastructure in cities across the world.
| Apr 16, 2014
Upgrading windows: repair, refurbish, or retrofit [AIA course]
Building Teams must focus on a number of key decisions in order to arrive at the optimal solution: repair the windows in place, remove and refurbish them, or opt for full replacement.
| Apr 9, 2014
Steel decks: 11 tips for their proper use | BD+C
Building Teams have been using steel decks with proven success for 75 years. Building Design+Construction consulted with technical experts from the Steel Deck Institute and the deck manufacturing industry for their advice on how best to use steel decking.
| Apr 8, 2014
Science, engineering find common ground on the Northeastern University campus [slideshow]
The new Interdisciplinary Science and Engineering Building is designed to maximize potential of serendipitous meetings between researchers.
| Apr 2, 2014
8 tips for avoiding thermal bridges in window applications
Aligning thermal breaks and applying air barriers are among the top design and installation tricks recommended by building enclosure experts.
| Mar 26, 2014
Callison launches sustainable design tool with 84 proven strategies
Hybrid ventilation, nighttime cooling, and fuel cell technology are among the dozens of sustainable design techniques profiled by Callison on its new website, Matrix.Callison.com.
| Mar 20, 2014
Common EIFS failures, and how to prevent them
Poor workmanship, impact damage, building movement, and incompatible or unsound substrate are among the major culprits of EIFS problems.
| Mar 12, 2014
14 new ideas for doors and door hardware
From a high-tech classroom lockdown system to an impact-resistant wide-stile door line, BD+C editors present a collection of door and door hardware innovations.
| Feb 25, 2014
Are these really the 'world's most spectacular university buildings'? [slideshow]
Emporis lists its top 13 higher education buildings from around the world. Do you agree with the rankings?
| Feb 24, 2014
First look: UC San Diego opens net-zero biological research lab
The facility is intended to be "the most sustainable laboratory in the world," and incorporates natural ventilation, passive cooling, high-efficiency plumbing, and sustainably harvested wood.