International Architecture Awards Tell a friend
ARCHIVE 2022
International Architecture Awards
Architects: ikon.5 architects
Landscape Architects: Prosser, Inc.
General Contractor: Barton Malow Company
Client: Embry-Riddle Aeronautical University
Photographers: Brad Feinknopf Feinknopf Photography
Inspired by the gracefulness of birds in flight, the Mori Hosseini Student Union at Embry-Riddle Aeronautical University is an expression of the University’s mission to teach the science, practice, and business of aviation and aerospace. Located at the front door to its Daytona Beach campus, the building’s gently soaring form expressing flight creates an iconic identity for the University and embodies its student’s values of fearlessness, adventure, and discovery. Programmatically, the 177,000-square-foot student union building is an aeronautical athenaeum combining social learning spaces, an events center, club offices, student affairs offices, career services, dining, and the University library.
A soaring, triple-height commons integrates the collaborative social and learning environments. The lounges, dining venues, group study rooms, clubs and organizations offices, career services, student affairs, and the University library wrap the commons and culminate in a multi-story amphitheater that overlooks the commons and building entry. The amphitheater is a place to see and be seen. An event center that can accommodate up to 900 people is housed on the first floor. The top floor houses the university library which is set beneath a dynamic 200-foot arching skylight that opens to the sky. A roof terrace on the second floor allows students to gaze upon the adjacent runway of Daytona International Airport and beyond to rocket launches from the Kennedy Space Center at Cape Canaveral. Creating this athenaeum of program spaces for student of aviation and aerospace technology within a building that characterizes fearlessness and discovery of flight has given Embry-Riddle an iconic main building that appropriately expresses their mission. Structurally expressive steel forms and curvilinear organic spaces create a language inspired by aeronautics.
