Daylighting connects students with outdoors By Marcy Marro, Managing Editor
The University of Illinois-Urbana-Champaign’s 340,000-square-foot Activities and Recreation Center (ARC) is one of the country’s largest on-campus recreation centers. Designed by Chicago-based VOA Associates Inc., the ARC replaces the original campus recreation center that opened in 1971.
According to Richard H. Fawell, AIA, NCARB,
IIDA, principal at VOA and a U of I alumni, the goal was to provide a student-oriented fitness center that would make fitness and wellness attractive and approachable for all students, and aimed specifically at the non-athlete. Additionally, the new facility was to provide a student community center where stu- dents could meet in a social non-academic setting with friends, and together experience the mental and spiritual benefits of physical fitness.
PROJECT SCOPE The overall project scope included two existing buildings—the Intramural Physical Education Build- ing (IMPE) and the Campus Recreation Center East (CRCE)—getting a renovation and additional new construction. The original IMPE building became the new ARC, and was totally renovated along with a new construction that more than doubled the facil- ity’s size, Fawell explains. The project was complet- ed in phases so students always had an option for
30 METAL ARCHITECTURE
Illuminating Recreation
fitness and recreation, and part of the original IMPE was open during the renovation as well. The ARC’s new construction front brought the
building up to the street, making it more accessible and approachable. “The new ARC pays homage to the strong axial Georgian campus tradition and relates to the way that students and faculty remem- ber using the original IMPE, but also with the use of materials, its brick and limestone, and yet has a contemporary character necessary to achieve the internal functions of a state-of-the-art student recre- ation center,” he says. Located in different areas of the campus, both
buildings integrate seamlessly into the campus’ character, yet have a modern aesthetic that doesn’t feel foreign and call attention to itself, Fawell adds. “We wanted to provide a building that nestled into its context rather than trying to reinvent the context.”
BRINGING LIGHT INSIDE A key feature to the ARC’s interior and exterior design, daylighting allows for less power to be used for lighting during the day, while also giving students the chance to feel as if they were outside, regard- less of the time of year. “The internal focus was to make the various
program areas work together and allow students and faculty to see all the other activities by opening up the interior to each area, track to weights to pool to cardio and even to the main entry,” Fawell says.
“In addition, the interior opens to the exterior so that even students passing by can see into the rec- reation areas day and night, but especially at night.” Fawell explains that using windows, skylights
and clerestory lighting allow the building to feel con- temporary and light in a traditional Georgian campus setting, where the building melds in with the cam- pus’ tradition while making a strong statement that it was a contemporary expression. The highlight of the ARC’s design is the new
winter garden atrium and architectual entrance canopy. Both are glazed with translucent Quad- wall Nano-Cell polycarbonate panel systems from CPI Daylighting, Lake Forest, Ill. The 42-foot-wide and 123-foot-long half-round barrel vault skylight adorning the center extends seamlessly beyond the building envelope into the entry canopy. It measures 30 feet wide by 30 feet long, and helps bring the outside daylight into the interior space. CPI fabricated the translucent panels directly
on-site due to the skylights’ unique shape and size, and to accommodate the existing steel structure. The customized 2.75-inch-thick Quadwall panel system features a clear glazed exterior skin and a white matte interior skin for soft, glare-free daylight transmission into the space. A balance was crafted between the visible
transmittance and the heat gain required to ef- ficiently heat and cool the space with the least amount of energy. The skylight, therefore, has a