Saddleback College Opens New STEM Facility

Saddleback College in Mission Viejo, Calif., recently opened a new STEM facility on its campus. The Advanced Technology and Applied Sciences (ATAS) building measures in at 52,913 square feet and provides multidisciplinary space for labs and classrooms, general instructional areas, and administrative space. The building will serve career technical education students in subjects like architecture and drafting, environmental sciences, communications, horticulture and more.

The college partnered on the project with construction firm McCarthy Building Companies, Inc. and architecture and design firm HED.

“We’re ecstatic to open this new facility for our students, faculty, staff and broader Orange County community,” said Ann-Marie Gabel, Vice Chancellor, Business Services, for the South Orange County Community College District. “It’s a beautiful space, designed to promote student-to-student collaboration and a sense of openness as the facility blends into the gorgeous Southern California landscape. Students can enjoy the local habitat and feel more connected to nature with onsite butterfly gardens, bird and wildlife areas.”

A news release notes that the ATAS building has achieved a LEED Gold rating equivalency with passive design strategies intended to minimize energy use. The main part of the building connects directly with campus sidewalks. Students enter through one of two entrances into a central collaboration space that opens into a courtyard. Two wings containing classrooms and lab space flank the courtyard, while landscape areas serve as outdoor learning gardens.

“The ATAS project enabled us to integrate the campus, with its highly beautiful natural surroundings, while exceeding the SOCCCD’s goals for the space,” said Martha Ball, Principal at HED. “The design considerations employed were a celebration of the natural habitat, which surrounds the Saddleback College campus. With energy efficiency in mind, the ATAS facility effectively harvests daylight to reduce the need for electrical lighting and derives 35 percent of its energy from solar panels. This, combined with an efficient wall-to-window ratio, are the main strategies to achieve energy savings. Additionally, the concrete structure provides thermal mass to absorb heat with nightly release, and longevity through a robust structure.”

About the Author

Matt Jones is senior editor of Spaces4Learning. He can be reached at [email protected].

Featured

  • Understanding the Training of School Resource Officers

    SROs are now integral components of nearly every educational system in the country. But instead of being a more passive entity in schools, they have gradually become mentors to students, adding to their support network of teachers, parents, coaches, and other caring adults.

  • University of Florida to Start Construction on New Agricultural, Engineering Building

    The University of Florida in Gainesville, Fla., recently announced that it will soon begin construction on a new academic building for the department of agricultural and biological engineering (ABE), according to a news release. The W.W. Glenn Teaching Building is scheduled to begin construction by the end of 2024 and finish by August 2025, in time for the new academic year.

  • University of Kentucky Receives $2.5M Donation Toward Renovation Project

    The University of Kentucky in Lexington, Ky., recently announced that it has accepted a $2.5-million donation that will transform Pence Hall into the home of the university’s College of Communication and Information, according to a news release.

  • San Diego High School Hits Construction Milestone

    Part of a whole-site modernization project at Mira Mesa High School in San Diego, Calif., recently reached a construction milestone. The final steel beam of the new classroom and student services facility was put into place, completing the building’s structural framework.

Digital Edition