Bambey University by IDOM | World Design Awards 2020

IDOM: Winner of World Design Awards 2020. In Senegal, shade and water are everything. This lecture-room block project is set in the city of Bambey, located 120 km west of Dakar. With a population of 20,000, Bambey stands out for its peanut and cattle farming, its scarce urban infrastructures and the surrounding harsh life conditions.

The University of Bambey is around 5 km away from the metropolitan area, occupying an area of 64 Ha and catering for 2,000 students. Its buildings, erected between 2004 and 2007, have seen their capacity reduced due to the growing numbers of the student body. Therefore, the extension project was calculated for 1,500 students, with lecture rooms for 50 and 100 people, a 500 seat lecture hall, laboratories, computer rooms and offices for the teaching body, all distributed over an enclosed built-up area of 4,200 m2 and 11,500 m2 of urbanized area.

The project aims to respond to this context as a perfect machine, beautiful in its efficiency and without an engine. We found inspiration on campus by reproducing a great tree as a contributor of shelter, which would offer shade, coolness and comfort to its users without energy consumption. We developed the project from its cross-section, providing the building with a large double roof and a great lattice on the south façade, an L-shaped shield laying on its back, which avoids direct solar radiation but is permeable to air. This shield creates a Venturi effect generating a constant air flow between the building envelope and the lecture rooms, reducing the interior temperature by 10-15 ºC degrees, a change from the outside 40-45 ºC.

The building is both simple and repetitive in its construction, of a scale commensurate to the campus, very practical and integrated into the environment whilst generating optimal conditions for protection against the extreme climate. The roof is like a double skin supported by steel lattice beams: a metal sandwich panel with insulation on top, as a first barrier against heat and solar radiation, and a dropped ceiling of mineralised fibres on the inside, generating two layers with ventilation between them. For the south façade, we created a large latticework, permeable to air, which eliminates any solar incidence towards the interior and acts as a great filter of solar radiation, extreme in this environment, but still allowing enough light through for the interior functional needs. We planted citronella grass in the cavity between the two skins to avoid the presence of malaria-bearing mosquitoes and to freshen up the space. Complementary, the roof is extended into a 10 meter long canopy, covering a wide exterior area, sheltering students when not in class.

The combination of the double roof and the double-skin façade, having 1 and 3 meter cavities respectively, makes it possible to create a breeze: the heat concentrated on the outer skin of the façade ends up flowing under the roof, eased by the inclination of the latter. This system allows for a high percentage of outside heat to be dissipated while at the same time generating a constant flow of air through the cavity of the building’s envelope.

To solve the lack of sewage and rainwater networks, we incorporated infiltration rafts with vegetation that collect rainwater by means of different-sized basalt-lined exterior canals. These retain sediments and reduce the speed of the water. The rafts can be interconnected in the event of saturation and are laid out in keeping with the surroundings as a natural meander, favouring the natural development conditions of native vegetation.

A purification system by means of activated sludge allows the purification of waste waters, which, once purified, are discharged to the same rafts. The used sludge will be reused as agricultural fertilizer.

Lastly, we wanted the project to be sensitive to the social component. For this purpose, we designed a façade made up of blocks with triangular perforations that could be prefabricated in situ by the local workforce. And so, the 20,000 concrete pieces, similar in size to a conventional concrete block, were built manually on site by means of a stainless steel mould and then air-dried. The construction of the 2,000 m2 of the south elevation lattice employed over a hundred workers from Bambey for 6 months.


Firm: IDOM
Architect: IDOM
Category: Institutional Building Built
Project Location: Bambey
Team: Federico Pardos Auber, Javier Pérez Uribarri

Country: Senegal
Photography ©Credit: IDOM

IDOM is one of the leading companies in the fields of architectural, engineering and consultancy professional services. At IDOM over 3,000 professionals carry out their activity, in offices scattered over 44 cities in 25 different countries.

We define ourselves as an association of professionals. In Architecture, our participation brings together more than 300 professionals, with more than half of those being Architects, and counting with mechanical, electrical and civil engineers among other disciplines. Facing the challenges of specialization and new technologies, we aim to solve any problem from their origin, providing an integration value and enhanced quality to our architectural responses.