The architects transformed the old factory’s textile warehouse into the school’s main academic building, in which they carved out a spacious corridor that looks into classrooms and punched skylights into the roof.
The architects transformed the old factory’s textile warehouse into the school’s main academic building, in which they carved out a spacious corridor that looks into classrooms and punched skylights into the roof. China Retractable Security Screens Factory
The architects took advantage of the factory’s generous floor-to-ceiling heights to insert mezzanines in classrooms.
An elevated footbridge connects the academic building to the science center.
The library’s perforated Cor-Ten walls envelop raised courtyards open to the sky.
The architects added stairs and entries to a former workers’ housing block for the No. 3 Student Dorm.
Articulated windows and interior color transform another workers’ living quarters into the No. 2 Student Dorm.
Articulated windows and interior color transform another workers’ living quarters into the No. 2 Student Dorm.
A snaking walkway traverses the site by the No. 1 Student Dorm.
A second skin of steel grating envelops the old managers’ apartment building and creates an interstitial space, where teachers can relax outside their apartments and grow plants.
An exterior stair added to the teacher’s housing building offers views of the student center.
An exterior stair added to the teacher’s housing building offers views of the student center.
Image courtesy O-office Architects
The former Grey Fabric Warehouse - now the Academic Building
Inside the former Grey Fabric Warehouse - now the Academic Building.
Axonometric Drawing of Academic Building interventions.
The former Dyeing Warehouse - now the Science Building.
Axonometric Drawing of Science Building interventions.
The former Engine-generator Room - now the Library.
Axonometric Drawing of the Library interventions.
Workers' Dormitory - now the No.3 Student Dormitory.
Axonometric Drawing of Student Dormitory #3 interventions.
The former Workers' Dormitory - now the No.2 Student Dormitory.
The former Workers' Dormitory - now the No.2 Student Dormitory.
The former Training Building - now the No.1 Student Dormitory (left) and the former Worker Canteen - now the Student Center (right).
Axonometric Drawing of Student Dormitory #1 interventions.
The former Premium Dormitory - now Teacher's Housing.
The former Premium Dormitory, now Teacher's Housing (left) and the former Worker Canteen, now the Student Center (right).
Axonometric Drawing of Student Center interventions.
Axonometric Drawing of Teachers’ Housing interventions.
To understand China’s transition from a manufacturing nation to one driven by information and creative services, go to Shenzhen and walk around the Ming-De Academy, located on a hilly site on the far eastern edge of the city. A private high school with slightly more than 300 students, Ming-De occupies the grounds of the old Honghua Dyeing Mill, an industrial behemoth that opened in 1989 and closed just 14 years later. Today, the mill’s once-crumbling reinforced-concrete buildings have been skillfully transformed into attractive spaces for educating a new generation of Chinese, who require access to the latest digital technologies.
Additional Content: Jump to credits & specifications
He Jianxiang and Jiang Ying, the husband-and-wife team behind O-office Architects, have been rethinking their nation’s industrial heritage for more than a decade, adapting old factories in their native Guangdong Province, where China’s post-Mao economic resurgence began in the 1980s. Their own studio sits on top of a former beer factory’s concrete silo structure in Guangzhou, about 85 miles northwest of Shenzhen.
In 2014, prior to their creation of the high school, the firm converted a pair of buildings at the Honghua Dyeing Mill into an art gallery and artist studios—Phase 1 of a creative-services hub called iD Town. Now O-office has recycled nearly a dozen structures around iD Town’s core to create Ming-De Academy, a 253,000-square-foot complex encompassing a large classroom building, a library, a science center, a student center, housing for students and faculty, and recreational facilities. The school, which has 50 teachers and 35 nonteaching staff, eventually plans to grow to 600 students.
To connect the buildings and weave them into a coherent campus, He and Jiang created a series of gardens, plazas, promenades, and bridges on the sloping wooded site. In the area’s subtropical climate, trees and vines grow rapidly, so the architects used the natural flora as an integral part of their landscape plan—employing large species for shade, for example, and snaking an elevated walkway through the forest canopy. Because the buildings spread out in a great arc on the sprawling grounds—and the distance from the student center on the northeast to the classroom building on the southwest runs almost half a mile—O-office approached the outdoor spaces as a sequence of discrete experiences that wouldn’t overwhelm students or visitors. “Our overall strategy was to work on the ‘in-between,’ on the interrelation between different buildings, between buildings and topography, and between buildings and nature,” say He and Jiang.
Instead of trying to erase the imprint of the old factory in a rush to modernization, O-office “maintained the identity and contrast of the new and the old.” To do this, the architects kept as much of the fabric of the old buildings as possible—from outdoor corridors on some of the housing blocks to the mottled plaster facades on most of the structures—while adding distinctly new elements such as perforated steel screens, projecting steel window frames, and colorful entries. Most of the existing buildings were structurally sound but required steel reinforcing, due to higher safety standards for educational facilities. For Phase 1 of iD Town, the architects had established stark contrasts between the dilapidated fabric of the factory and a series of modern cubes inserted within it for use as artists’ studios and a café. At the school, they used a more “delicate” treatment to create greater spatial continuity and a more “intimate hospitality.” Throughout the school, they applied a palette of simple finishes such as drywall, colorful paints, and clear glass that gives the interiors a sleek, contemporary vibe.
While each building on the campus required specific responses to adapt it to its new use, the architects were able to apply some common strategies to multiple locations. The three student dormitories, for example, were all refashioned from existing worker dormitories, so O-office could retain much of the old buildings’ plans and simply add new staircases, faceted entries, and some shared terraces. For the faculty housing block, the architects wrapped the old managers’ apartment building with steel grating to create an interstitial space for private balconies and plantings. He and Jiang kept the arched openings of the factory’s canteen for the new student center, but reframed them in steel and added new glazing.
Other pieces required more radical transformations, such as the factory’s generator building, which O-office converted into the library by embedding a set of raised book-storage spaces in the old structure and cantilevering perforated Cor-Ten boxes beyond the building envelope to serve as small courtyards open to the sky. For the science building, the architects added a new roof canopy with a mirrored soffit to the old dye-storage structure, carved out an internal atrium, and placed a teaching garden on top. Jiang and He took the factory’s enormous fabric warehouse and turned it into the academic building by designing a long, tube-like space to serve as the main corridor connecting all of the classrooms, and punching out a series of skylights in the roof with small atria below. The addition of lime-green walls and ceilings, as well as interior glass partitions, project the image of a 21st-century learning environment.
Recrafting the outdoors was as important to O-office as adapting the buildings. The architects turned the side of one hill into an amphitheater facing the library, and transformed the barren concrete terrace outside the old canteen into a garden and landscaped plaza to serve as an open-air extension of the new student center. Walking from one part of campus to another, students experience a sequence of outdoor rooms and pathways that push them to engage with the rolling topography, lush plantings, and old architecture. While the architects had originally envisioned the school and iD Town as a seamless community of learning and creative spaces, security concerns have forced the school to limit access to its campus buildings. Ming-De Academy, though, shows how architecture can chart a path from heavy industry to a knowledge-based economy—layering new possibilities on top of an obsolete past.
O-office Architects, Loft E8-7,63Xizeng Road Liwan District Guangzhou China, +86 20 85577225, www.o-officearch.com
Personnel in architect's firm who should receive special credit:
Chief Architects: He Jianxiang, Jiang Ying; Project Architect: Dong Jingyu,Huang Tong; Design Team: Huang Chengqiang, Chen Xiaolin, He Wenkang, Zhang Wanyi, Deng Mincong, Lin Licong, Zhang Tao, Fan Zhen
Shenzhen Yizhou Architectural & Engineering Design Ltd
Steel Construction: Shenzhen Kaihua Building
Sign Design: W.W.D.
Jiangsu Huajian Construction co. Ltd,
Teyida interior construction co.Ltd
Zhang chao, Wu Siming, Huang Chengqiang, He Zhenzhong
Metal/glass curtain wall: AVIC SANXING
Fire-control doors, security grilles: Fangda Security technology
Floor and wall tile: TPY
Interior ambient lighting: RH lighting
Electric ventilator: JT Environmental Technology
Contributing editor Clifford Pearson is the co-author, with A. Eugene Kohn, of The World By Design, and writes about architecture and urbanism.
You must have JavaScript enabled to enjoy a limited number of articles over the next 30 days.
Sponsored Content is a special paid section where industry companies provide high quality, objective, non-commercial content around topics of interest to the Architectural Record audience. All Sponsored Content is supplied by the advertising company and any opinions expressed in this article are those of the author and not necessarily reflect the views of Architectural Record or its parent company, BNP Media. Interested in participating in our Sponsored Content section? Contact your local rep!
Credits: 1 AIA LU/HSW;1 AIBD P-CE;0.1 ICC CEU;0.1 CEU lies
This course targets architects and engineers seeking advanced knowledge in the design and implementation of vertical extensions above existing buildings using innovative wood systems.
Credits: 1 AIA LU/HSW;1 AIBD P-CE;0.1 ICC CEU;0.1 CEU lies
This course discusses structural stainless steel usage by providing a simplified “check list” and a high level summary of the key specification, fabrication, and erection differences.
Copyright ©2023. All Rights Reserved BNP Media.
High-Quality Weld Mesh Fence Panels Factories Design, CMS, Hosting & Web Development :: ePublishing