Federal and state incentives have sparked renewed interest in solar photovoltaic systems as a way for K-12 schools to lower their utility bills and, at the same time, educate students about the benefits of solar and other alternative energy sources.
Solar PV providers in California, Colorado, Massachusetts, New Jersey, and Utah are partnering with school districts to install solar equipment and develop a teaching curriculum. Funding can come from a variety of government and private sources, with the bulk coming from the American Reinvestment and Recovery Act of 2009.
Some organizations are sponsoring their own solar-school initiatives in conjunction with the National Energy Education Development Project (NEED). The Walmart Foundation is partnering with NEED and the Foundation for Environmental Education to implement solar schools in five cities: Chicago, Los Angeles, Minneapolis, Seattle, and Washington, D.C.
UTAH PUTS THE SUN TO WORK
Utah’s Solar for Schools program was launched in 2010, after the state received ARRA funding to install and promote renewable energy. The Salt Lake City office of Johnson Controls, Inc. won a $3 million bid to install solar in 73 Utah schools. Thus far, 55 installations had been completed.
Oscar Rangel, JCI’s manager of public-sector solutions, based in Denver, says the company’s system will save $7.75 per watt, for a potential annual savings of $800-1,200. Rangel stresses that there’s more to the program than putting panels on the roof: “There’s also an educational component that involves the teachers, the kids, and the administration.”
In an intensive one-day workshop developed by Johnson Controls and the National Energy Foundation, teachers from around the Beehive State were exposed to curriculum materials that are correlated to state and national standards. NEF educators provide on-site teacher training geared to children from elementary school through high school.
“The labs are very hands-on, with activities that engage the students in learning not just about solar, but all different kinds of alternative energy,” says one participant, Laura Wheeler, who teaches middle school and high school in Morgan, Utah.
In one lab, students learn how to configure solar panels to generate the most power. (Another lab challenges them to see who can build the best wind generator.) There’s also a program where students patrol the building to monitor and report on energy usage. Johnson Controls is supplying software that links all the solar schools in Utah, allowing students to compare their school’s performance with that of others.
A typical installation consists of a 5.3-kW solar PV module, which can provide enough electricity to power the computer lab and a few classrooms or a library, Rangel says. That may not sound like much, but don’t tell that to teacher Laura Wheeler. “Even if we’re just lighting a library with solar, that’s a big deal to our school,” she says. “We’re in a very small, rural school district, so every penny we save goes a long way.”
CALIFORNIA RAMPS UP SOLAR IN SCHOOLS
With the California Solar Initiative, a statewide solar rebate program, California’s public sector is forecasted to save $2.5 billion from solar installations over the 30-year life of the systems. Educational institutions are expected to save approximately $1.5 billion of the total, according to SunPower Corp., a solar provider based in San Jose, Calif. The California School Boards Association recently announced Solar Schools, a program that supports school districts in developing efficient solar projects. Districts borrow ARRA funds and the federal government subsidizes the interest rate, meaning that loans are repaid at an average rate of 1.5%.
Interest in solar for schools has been accelerating due to a growing emphasis on energy conservation. “Currently, we have installations planned or under way in more than 90 schools,” says Bill Kelly, SunPower’s managing director. “It’s keeping us busy along with local electricians, steel fabricators, and erectors, so we’re also stimulating the local economy.”
The SunPower systems range from 100 kW to 1,000 kW. “The larger systems are for high schools,” Kelly says. “On average, in the schools we’re working with, 75-80% of the electric bill is offset or reduced by solar.”
Most solar panels are designed for parking lots rather than rooftops, he says. The panels form a canopy over the cars, with the secondary benefit of providing shade during hot weather.
As in Utah, California’s school districts want to not only invest in solar but also bring information about the technology into the classroom.
“Many of the school districts have engineering academies, and we’re working with them to develop a renewable energy curriculum,” says Kelly.
Recently, 16 high school students from the San Ramon Valley Unified School District completed a two-week course sponsored by SunPower.
“They learned everything about solar that you could cram into two weeks,” says SunPower’s Madeleine Maguire. “The idea is to create solar ambassadors so that they can teach their peers about this technology.”
CHECKING SOLAR’S AFFORDABILITY
With solar, first cost is still the issue for property owners and their Building Teams. The price of PV panels has fallen in the last two years due to greater efficiencies in manufacturing and technology, as well as increased competition among a growing number of suppliers.
According to the market intelligence firm IHS iSuppli, in 2009 the cost per watt for a PV solar panel was nearly $2.50. By 2015, that cost is expected to drop to as low as $1, or roughly $200 per panel. Installation prices, too, are expected to decrease about 10% a year—from $5 per watt to around $3 per watt by 2015, according to IHS. The worldwide PV market is poised to double by 2015, with the U.S. market growing steadily.
SunPower’s Kelly agrees that first cost is a constraint: “Even though solar has great economics for the long term, building owners need to watch their budgets.” Still, he urges Building Teams not to miss out on rebates by waiting for prices to go down. “In California, at least, the sooner you install it the bigger the incentive you get,” he says.
SIDEBAR: Science School Raises the Green Bar
The Walking Mountains Science Center in Avon, Colo., is on target to be certified LEED Platinum, but that wasn’t the Building Team’s primary goal. “We didn’t want to just talk the talk,” says Barry Monroe, LEED AP, project manager for local builder R.A. Nelson and Associates. “We wanted to do everything we could to make the building as green and as energy efficient as possible.” The facility will act as an experiential learning center for adults and children, as well as a model of sustainability.
Designed by Avon-based architects Zehren & Associates, the building produces 42% of its own electricity on site. PV solar panels on two south-facing roofs create energy, and a heat capture system harvests excess heat from the electrical equipment room and transfers it to domestic hot water. The sun also generates heat for the radiant in-floor system.
“Sun shades are part of the solar component and work in conjunction with daylighting to reduce heat gain inside the building,” Monroe says. The building is not air conditioned.
Students will monitor the building’s energy and water usage via a computerized dashboard. The solar system is expected to save about $6,000 a year in energy costs.
Related Stories
| Nov 8, 2013
Walkable solar pavement debuts at George Washington University
George Washington University worked with supplier Onyx Solar to design and install 100 sf of walkable solar pavement at its Virginia Science and Technology Campus in Ashburn, Va.
| Nov 6, 2013
PECI tests New Buildings Institute’s plug load energy use metrics at HQ
Earlier this year, PECI used the NBI metrics to assess plug load energy use at PECI headquarters in downtown Portland, Ore. The study, which informed an energy-saving campaign, resulted in an 18 percent kWh reduction of PECI’s plug load.
| Nov 5, 2013
Net-zero movement gaining traction in U.S. schools market
As more net-zero energy schools come online, school officials are asking: Is NZE a more logical approach for school districts than holistic green buildings?
| Nov 5, 2013
New IECC provision tightens historic building exemption
The International Energy Conservation Code has been revised to eliminate what has been seen as a blanket exemption for historic buildings.
| Nov 5, 2013
Living Building Challenge clarifies net-zero definitions and standards
The Living Building Challenge has released the Net Zero Energy Building Certification to provide clearer definitions regarding what net zero really means and how it is to be achieved.
| Nov 5, 2013
Oakland University’s Human Health Building first LEED Platinum university building in Michigan [slideshow]
Built on the former site of a parking lot and an untended natural wetland, the 160,260-sf, five-story, terra cotta-clad building features some of the industry’s most innovative, energy-efficient building systems and advanced sustainable design features.
| Nov 4, 2013
Architecture and engineering industry outlook remains positive on all major indicators
While still below pre-recession levels, all of the key indicators in the latest Quarterly Market Forecast (QMF) report from PSMJ Resources remain in positive territory.
| Nov 1, 2013
CBRE Group enhances healthcare platform with acquisition of KLMK Group
CBRE Group, Inc. (NYSE:CBG) today announced that it has acquired KLMK Group, a leading provider of facility consulting, project advisory and facility activation solutions to the healthcare industry.
| Oct 31, 2013
74 years later, Frank Lloyd Wright structure built at Florida Southern College
The Lakeland, Fla., college adds to its collection of FLW buildings with the completion of the Usonian house, designed by the famed architect in 1939, but never built—until now.
| Oct 31, 2013
CBRE's bold experiment: 200-person office with no assigned desks [slideshow]
In an effort to reduce rent costs, real estate brokerage firm CBRE created its first completely "untethered" office in Los Angeles, where assigned desks and offices are replaced with flexible workspaces.
