flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

High School in a Hurry

High School in a Hurry

A design-build team on a tight budget converts an empty supermarket into an innovative, high-tech charter high school in just 14 weeks.


By By Matthew Phair, Contributing Editor | August 11, 2010
This article first appeared in the 200506 issue of BD+C.

One of the more compelling arguments for charter schools is their theoretical ability to streamline decision making. Eliminate all those layers of bureaucratic fat that clog the arteries of most public school systems, the argument goes, and decisions can be made to flow much more smoothly, even when it comes to designing and building a major school project.

That's the theory, but when the charge is to design and build a new charter high school in just over three months, it takes more than fast-tracking to make the project succeed.

Five years ago, teachers, parents, local business owners, high-tech advocates, and entrepreneurs in Anchorage, Alaska, came together to discuss creating a charter school as an alternative for middle and high school students. They envisioned a small school with a low student-teacher ratio that taught a technology-rich curriculum, problem solving, and team-building skills through project-based education.

Their efforts paid off when the Anchorage School District chartered an innovative, tuition-free secondary school in late spring 2003 to serve a maximum of 450 7th–12th graders. The new facility, named Highland Technical High School, was to be built in time for occupancy in August.

The timing couldn't have been better for local developer J. L. Properties The developer had recently purchased the Boniface Mall of East Anchorage, which included an abandoned Safeway supermarket.

Seizing the opportunity, J.L. Properties and Anchorage school officials engaged a design-build team consisting of local general contractor Davis Constructors & Engineers, local architect RIM Architects, and its sister firm RIM Design. The lease was signed in April 2003, leaving just 14 weeks to completely renovate the 30,000-sf supermarket.

Meeting a pencil-thin budget

The Building Team quickly learned that the school founders wanted a design that supported the innovative educational model proposed in the charter, but were somewhat vague on what that meant.

"When we first met with them, they had no idea what the program was going to be," says Rolland Reed, principal in charge at RIM Architects. "We really had to work with them on a fast-track basis to turn it into design and then reality." Added to that was the challenge of turning a drab, empty building into a modern, stimulating environment on a budget of roughly $60 a square foot.

The solution was to model the overall design concept after the unique aspects of the school's program. To meet a tight budget and schedule and still design an open, interactive facility, basic cost-effective construction materials were used to define free-flowing partitions with portions of the metal stud framing exposed. "With so little money and time, exposing the building structure, the metal studs, and the centrally located computer wires all worked," says Reed.

"If we had gone through the normal design-by-committee process of a school district, we could have never had it done [in time], so it certainly was a help that it was a charter school," says Sheila Shanks, interiors principal in charge, RIM Design. "We also had a lot of recent design-build projects with the developer and this contractor, so we were able to move quickly to accommodate the schedule."

Demolition began on May 4, 2003, with the removal of the cashier line, shelving units, freezers, and mechanical/electrical mezzanine.

Structurally, Davis limited its work to adding brackets to seismically reinforce the roof-to-tilt-up concrete wall connection. "It would hold snow all day long, but as far as today's seismic codes, it wasn't up to snuff," says John Pepperd, Davis project manager.

Interior walls were treated more like visual screens than as structural elements. They were punctuated with clear openings and translucent polycarbonate panels which assist in connecting interior rooms. Some partitions have been left unfinished and open at the ceiling in order to temper the large volume of the existing space and to avoid compartmentalization of rooms.

All electrical and HVAC utilities were left exposed. Producing an open ceiling system of cable trays and heating ducts contrasted by the wood ceiling gave the school a contemporary feeling and kept construction costs low.

RIM included a new energy-efficient lighting system of high-output fluorescent and high-bay HID fixtures. Heating and cooling was addressed with a new boiler with baseboard and a roof-mounted heating package unit. Because the facility would be used primarily during the shoulder seasons and not in summer, ceiling fans were substituted for a more expensive vent system to keep heat circulated, says Reed.

Material procurement management was also a key concern for general contractor Davis had to monitor to keep the project on schedule. "Up here in Alaska, everything has to be shipped," says Pepperd. "If the designers pick a tile that's not available in Seattle or Portland or somewhere on the West Coast, it's pretty much a show-stopper," because the tile would never get to there on time.

High-tech learning environment

The space was ready for full occupancy and furniture installation in August 2003, a little more than three months after the lease was signed.

The program for the school is based on a comprehensive digital learning environment that integrates technology, connectivity, and digital content into the classroom. There is a computer workroom with 150 stations and seven seminar rooms. "The school is real technology driven, and they learn everything on computers, from biology to history," says project designer Megan Taushek of RIM Interiors. "When they dissect a frog, they don't actually have a frog in front of them." The focus is on project-based work.

The school has six tech labs: a project lab, an intelligent systems lab, a pre-engineering lab, a communications lab, an information technology lab, and an environmental lab. All rooms are wired for audio-visual projection units, and the tech labs are equipped for various types of technology, including environment lab studies, robotics, and even flight simulation. Highland Tech also supports a wireless environment for laptops and hand-held devices.

The curriculum includes numeric literacy; oral and written communication literacy; reading and literature; technological literacy; science and global environments; social environments; personal, social, and service skills; and career and content literacy. Students must demonstrate what they know through presentations, simulations, and real-life applications.

In at least one respect, getting the high-tech effect led to problems. High ceilings, walls that end four feet lower than the ceiling, curved walls, and the lack of doors made the interior pretty noisy. "It's one of the first questions we raised," adds Reed. "We asked if it would be a problem, but they said they wanted that 'live' kind of environment. Now they're finding it's acoustically a little too live, and they're adding some acoustical panels on the ceiling to further dampen the sound."

Overall, the Building Team remains confident that they met not only the logistical and budgetary demands of the school board, but also the educational needs of the students.

"Right away, we heard very positive response from the students," says Reed. "Kids can immediately relate to it, it's very complementary to the program, it's high tech, it's unusual, and it's cool."

He adds: "One thing we learned from this project is that this type of open planning with basic materials is very good for a program that's still not yet defined. There's no backtracking, and no losing your investment."

Related Stories

Contractors | Apr 10, 2023

What makes prefabrication work? Factors every construction project should consider

There are many factors requiring careful consideration when determining whether a project is a good fit for prefabrication. JE Dunn’s Brian Burkett breaks down the most important considerations. 

Architects | Apr 6, 2023

New tool from Perkins&Will will make public health data more accessible to designers and architects

Called PRECEDE, the dashboard is an open-source tool developed by Perkins&Will that draws on federal data to identify and assess community health priorities within the U.S. by location. The firm was recently awarded a $30,000 ASID Foundation Grant to enhance the tool. 

Architects | Apr 6, 2023

Design for belonging: An introduction to inclusive design

The foundation of modern, formalized inclusive design can be traced back to the Americans with Disabilities Act (ADA) in 1990. The movement has developed beyond the simple rules outlined by ADA regulations resulting in features like mothers’ rooms, prayer rooms, and inclusive restrooms.

Education Facilities | Apr 3, 2023

Oklahoma’s Francis Tuttle Technology Center opens academic center for affordable education and training

Oklahoma’s Francis Tuttle Technology Center, which provides career-specific training to adults and high school students, has completed its Francis Tuttle Danforth Campus—a two-story, 155,000-sf academic building. The project aims to fill the growing community’s rising demand for affordable education and training.

K-12 Schools | Mar 6, 2023

Benefitting kids through human-centric high school design

Ingrid Krueger, AIA, LEED AP, shares why empathetic, well-designed spaces are critical in high schools.

Sustainability | Mar 2, 2023

The next steps for a sustainable, decarbonized future

For building owners and developers, the push to net zero energy and carbon neutrality is no longer an academic discussion.

K-12 Schools | Feb 18, 2023

Atlanta suburb opens $85 million serpentine-shaped high school designed by Perkins&Will

In Ellenwood, Ga., a southeast suburb of Atlanta, Perkins and Will has partnered with Clayton County Public Schools and MEJA Construction to create a $85 million secondary school. Morrow High School, which opened in fall 2022, serves more than 2,200 students in Clayton County, a community with students from over 30 countries.

K-12 Schools | Feb 11, 2023

An elementary school in Canada for intellectually challenged kids completes a three-year-long facelift

Last fall, the Yaldei School in Montreal, Quebec, which provides education and therapy to children ages 4 through 16 with intellectual disabilities, completed a $4.5 million renovation of the three-story former parochial school that it had moved into in 2016. The goal of this project, by the firm Stendel + Reich Architecture, was to create spaces that relieve students’ anxiety and make things fun.

Giants 400 | Feb 9, 2023

New Giants 400 download: Get the complete at-a-glance 2022 Giants 400 rankings in Excel

See how your architecture, engineering, or construction firm stacks up against the nation's AEC Giants. For more than 45 years, the editors of Building Design+Construction have surveyed the largest AEC firms in the U.S./Canada to create the annual Giants 400 report. This year, a record 519 firms participated in the Giants 400 report. The final report includes 137 rankings across 25 building sectors and specialty categories.   

Giants 400 | Feb 6, 2023

2022 Reconstruction Sector Giants: Top architecture, engineering, and construction firms in the U.S. building reconstruction and renovation sector

Gensler, Stantec, IPS, Alfa Tech, STO Building Group, and Turner Construction top BD+C's rankings of the nation's largest reconstruction sector architecture, engineering, and construction firms, as reported in the 2022 Giants 400 Report.

boombox1
boombox2
native1

More In Category



K-12 Schools

Designing for dyslexia: How architecture can address neurodiversity in K-12 schools

Architects play a critical role in designing school environments that support students with learning differences, particularly dyslexia, by enhancing social and emotional competence and physical comfort. Effective design principles not only benefit students with dyslexia but also improve the learning experience for all students and faculty. This article explores how key design strategies at the campus, classroom, and individual levels can foster confidence, comfort, and resilience, thereby optimizing educational outcomes for students with dyslexia and other learning differences.


halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021