Nîmes Arena

Nîmes, France
1989
 

Roman Arena

In December 1988 the ancient arena of Nîmes is for the first time covered with temporary roofing – a lens-shaped pneumatic form commissioned for winter-season use. Meant to be assembled and dismantled twice a year, the lightweight structure keeps careful distance between the ancient walls and the new roofing. The discreet solution, characterized by its very low section, from the exterior hardly renders visible the fact that within the old Roman walls something has changed. Inside the arena, the shape of the new roof does not limit the natural upward lift of the ancient elliptical theatre seating. The pneumatic construction is an integrated contemporary solution, technically compatible with the monument.

Catalyst for a mixed city

The structure impressively symbolizes the idea of a European city, honoring histories while providing new opportunities for a contemporary and future public via integrative design and innovative technologies. The amphitheatre of Nîmes demonstrates a principle of entanglement with the urban fabric – simultaneously concentrated and connected – thus embodying a contemporary model of the mixed city.

Form

Running counter to an assimilative language, the autonomous and independent element within the ancient arena’s cavea refrains from interacting, keeping a significant distance from the structure; the result: a lenticular pneumatic form, floating freely above the elliptical area of the arena, the lower convex lens enclosing not like a lid, but somehow retaining a lightness, open to the sky.

Lens

The roof consists of two translucent polyester tarpaulins of 4,200 m² that create an air cushion 13 m high.
Both membranes covering the arena are made of a PVC-coated polyester fabric; the lower membrane rests on a network of cables to reduce its interior curvature.

Plan

The structure itself consists of an elliptical steel compression ring with hinged cushioned membranes. This highly flexible compression ring is bowed and stabilized simultaneously. The self-stabilizing steel ring, similar to a wheel hub, rests on 30 supporting metallic columns

Permeability

The roof and the steps are connected by a transparent and adjustable cimbia composed of polycarbonate sheets mounted on aluminium supports, allowing the public inside to fully appreciate the monument. The cimbia was carefully researched down to the last detail as regards to shape, curvature, assembly and storage. The hollow box girders have a wingspan of 6.35 meters, with a height of 150 mm and a width of 450 mm. The principle was based on slat prototypes developed by Merlo, a Turin company specializing in sun protection systems.

Assembly

Cyclical use and economic demands require the weight and dimensions of all components to be intensely calibrated, taking into consideration potential expansion and shifting of materials as a result of climate and regular handling.

Components

All components are designed and factory-manufactured to the nearest millimeter before being assembled on site, without the possibility of an on-site adjustment.
These requirements help further our approach in seeing architecture not purely as an explicitly formal activity, but as a system of complex interactions between dynamic states and singular parts.

Weightlessness

Despite the roof’s "weightlessness", a powerful shape persists, completely lacking in nostalgic elements, an air cushion confronting the monolithic stone. This architecture is not a frontal attack against established patterns and ruins but develops out of 'practical knowledge' which makes a critical contribution towards the enduring life of this historical monument. A crowded urban vista is met by the weightlessness of an interior intervention enabling the ancient facility a modern day use.

Interior

The new roof guarantees maximum illumination for the auditorium, offers both technical and acoustic insulation for the complex, and provides air circulation via the rotating sheets of the inclined cimbia façade.

Temporality

A winter flight over Nîmes reveals a glowing lens exposed and hovering above the amphitheatre. However, while the stone skeleton of the arena rests hulking and immobile, the NAC shelter is temporary and reversible. Besides the mounting apparatus, in the summer months no element of the 6,000 m2 construction remains. Contrary to its first impression this massive structure is not final and immutable, but carries within itself the principle of its cyclical addition and removal.

Project Data

Program

Installation of a mobile and temporary roofing to create a winter show space in the antique arena (1st century AD). The inflatable membrane lens (91m x 62m) is held in a compression ring on 30 metallic columns. The periphery is closed by a system of transparent and revolving coverslips.

Client: City of Nîmes

Status: since December 1989 yearly erection

Location: Nîmes, Gard, France Arènes antiques, Place de la République

Cost: 6.50 Mio€ (value 1989)

Surface: 8,000 m², Inflatable Lense measures: 91m x 62m

 

Team

Architects: LABFAC, Finn Geipel, Nicolas Michelin; Structural Engineers: Werner Sobek; Schlaich, Bergermann and Partner, Stuttgart; Acoustic Engineers: Roger Lamoral, Cannes; Civil Engineers:  Guy Bonardi, Paris; Construction Firm: Baudin Châteauneuf, Orléans; Façade Engineers: Merlo, Turin; Engineers for the membrane: Stromeyer Ingenieurbau, Konstanz; Sound: Christian Heil, Gonnesse; Execution: Baudin Châteauneuf, Orléans; Electric Engineer: Bet Bleuse; Photography: George Fessy

Roman Arena
NAC-01-LIN-ESS-Internal view of the Nîmes arena, photo: George Fessy
Image 1/11 NAC-01-LIN-ESS-Internal view of the Nîmes arena, photo: George Fessy
Catalyst for a mixed city
NAC-02-ESS-LIN-Urban Structure around the Nîmes arena
Image 2/11 NAC-02-ESS-LIN-Urban Structure around the Nîmes arena
Form
NAC-03-ESS-LIN-Cross section of the Nîmes arena and Construction of the lens for the roof
Image 3/11 NAC-03-ESS-LIN-Cross section of the Nîmes arena and Construction of the lens for the roof
Lens
 NAC-04-ESS-LIN-internal lens view, photo: George Fessy
Image 4/11 NAC-04-ESS-LIN-internal lens view, photo: George Fessy
Plan
NAC-05-ESS-LIN-floor plan
Image 5/11 NAC-05-ESS-LIN-floor plan
Permeability
 NAC-06-ESS-transparency through the structure, photo: George Fessy
Image 6/11 NAC-06-ESS-transparency through the structure, photo: George Fessy
Assembly
NAC-07-ESS-LIN-Installation of the canopy over the arena, photo: George Fessy
Image 7/11 NAC-07-ESS-LIN-Installation of the canopy over the arena, photo: George Fessy
Components
NAC-08-ESS-LIN-Detail  of the connecting plate, photo: George Fessy
Image 8/11 NAC-08-ESS-LIN-Detail of the connecting plate, photo: George Fessy
Weightlessness
 NAC-09-ESS-LIN-Process of inflation of the pneumatic membrane, photo: George Fessy
Image 9/11 NAC-09-ESS-LIN-Process of inflation of the pneumatic membrane, photo: George Fessy
Interior
 NAC-10-ESS-LIN-Internal view after installation, photo: George Fessy
Image 10/11 NAC-10-ESS-LIN-Internal view after installation, photo: George Fessy
Temporality
 NAC-11-ESS-LIN-New roof amidst the surroundings, photo: George Fessy
Image 11/11 NAC-11-ESS-LIN-New roof amidst the surroundings, photo: George Fessy
bild
bild
 
 
Category Ref. Title Year City Country Type Status
Architecture MVS Montrouge Verdun Sud Montrouge Verdun Sud 2023 Montrouge France Housing Realized + 27
Architecture, Urbanism FUW Quartier Fürstenried West Quartier Fürstenried West 2024 Munich Germany Mixed-Use Competition 1st prize, ongoing + 31
Architecture BGW Bremer Punkt 1-10 Vielfalt in Serie Bremer Punkt 1-10 Vielfalt in Serie 2022 Bremen Germany Housing Realized + 2343
Architecture SCD Cité du Design Cité du Design 2009 Saint-Étienne France Cultural Realized + 2286
Architecture N6N Halle 6 ouest Halle 6 ouest 2019 Nantes France Cultural Realized + 1627
Architecture PAQ Housing Building, Quai Henri IV Housing Building, Quai Henri IV 2015 Paris France Housing Realized + 1968
Urbanism PAM Grand Paris Métropole Douce Grand Paris Métropole Douce 2008 Paris France Urban Design Study Completed + 1530
Architecture BT2 Typenhochhaus Typenhochhaus 2017 Berlin Germany Housing Competition 1st Prize + 1314
Architecture PRC Paris, Caserne de Reuilly Paris, Caserne de Reuilly 2019 Paris France Housing Realized + 1489
Architecture SNA Alvéole 14 Alvéole 14 2007 Saint- Nazaire France Cultural Realized + 1697
Architecture BPJ Boulogne Point-du-Jour Boulogne Point-du-Jour 2019 Paris France Housing Realized + 161
Design PAR Permanent Exhibition Space Permanent Exhibition Space 2003 Paris France Exhibition Realized + 1302
Architecture TAC Achillion Coastal Platform Achillion Coastal Platform 1997 Thessaloniki Greece Infrastructure Competition + 1326
Architecture NAC Nîmes Arena Nîmes Arena 1989 Nîmes France Cultural Realized + 1799
Architecture AMF Métafort Multimedia Research Center Métafort Multimedia Research Center 1998 Aubervillers France Cultural Competition + 1511
Architecture LEC National School of Art National School of Art 1994 Limoges France Education Realized + 1447
Architecture OKH Oldenburg House Oldenburg House 2003 Oldenburg Germany Housing Realized + 1406
Urbanism ZAA Atlas Actif des Vallées Stéphanoises Atlas Actif des Vallées Stéphanoises 2008 Saint-Étienne France Research Study Completed + 1405
Art BSY Syn Chron Syn Chron 2005 Berlin Germany Exhibition Realized + 1391
Architecture POL Office Building in Paris Office Building in Paris 2012 Paris France Office Realized + 1423
Urbanism KSB Strasbourg - Kehl, Cour des Douanes - Zollhofareal Strasbourg - Kehl, Cour des Douanes - Zollhofareal 2013 Strasbourg/Kehl France/Germany Urban Design Competition 1st Prize + 1351
Architecture BIN LIN Office Space LIN Office Space 2012 Berlin Germany Office Realized + 1625
Urbanism AMP Aix-en-Provence Marseille Aix-en-Provence Marseille 2015 Aix-Marseille-Provence France Urban Design Study Completed + 1184
Design D+-0 Density ±0 Density ±0 2004 Paris France Exhibition Realized + 1440
Urbanism STA Urban Study for the Development of Sevran Urban Study for the Development of Sevran 2015 Sevran France Urban Design Study Completed + 1365