Special Facilities staff member Alex Fowler replaces a fluorescent light bulb in Fine Hall with a more energy-efficient light emitting diode (LED) light. The University has begun converting more than 100,000 fixtures across campus to LED technology in an effort to reduce carbon emissions, promote cost savings and limit waste. (Photos by Chris Lillja, Facilities Organization)
Princeton University is making campus lighting more sustainable and efficient one fixture at a time. Through the Lighting Efficiency Upgrade Program, the University will convert more than 100,000 fixtures to light-emitting diode (LED) technology in buildings across campus. The improvements will significantly reduce carbon emissions, promote cost savings and limit waste.
"The Lighting Efficiency Upgrade Program can transform Princeton's lighting systems to one of the most modern, reliable, efficient and environmentally responsible of their kind," said Campus Energy Manager Bill Broadhurst. "The recent progress made in LED technologies also has allowed these projects to be good investments financially."
LED lighting upgrades are already underway in Icahn Laboratory, Fine Hall, parts of the Engineering Quadrangle and 701 Carnegie Center. This follows successful LED pilot projects during the past few years in West Garage, the visitor and faculty/staff parking lots near West Garage, Dillon Gymnasium, Woolworth Center for Musical Studies, MacMillan Building and Lewis Thomas Laboratory.
"In addition to the obvious energy, carbon emissions and cost-savings benefits for the campus, I'm especially excited to work in partnership with our Facilities engineers to raise awareness about how smart it is to convert lights to LED technology," Director of Sustainability Shana Weber said. "This project has the potential to make this approach more accessible to other college campuses, and may even influence the choices our University community members make at home. That's the kind of broader impact we're seeking."
LED fixtures, as shown in this photo, are more efficient and have a longer service life than the fluorescent lights they will replace.
The new LED fixtures are, in many cases, about 50 percent more efficient than the fluorescent lights they will replace and will emit considerably less heat. They also have a longer service life — LEDs last 50,000 hours more than fluorescent lights — and they contain no mercury. LEDs are known for providing higher quality lighting, which reduces potential eye strain, with no ultraviolet emissions.
Over the lifetime of the LED fixtures, the project is expected to eliminate the need to safely dispose of more than 60,000 lamps containing mercury. It also should eliminate more than five tons of waste removal each year in the form of thousands of electronic ballasts.
"In addition to the significant cost savings, revenues and credits associated with using LED technology, the lighting upgrades also will lower the University's maintenance costs due to LEDs long expected life," Broadhurst said. "The safety of the Princeton Facilities staff also will be enhanced by reducing the amount of time workers spend climbing ladders to replace thousands of burnt-out lamps each year."
Broadhurst said the sheer size and comprehensive nature of the LED upgrades will eclipse the efforts made more than 20 years ago when the University began to convert many campus fixtures and lamps from incandescent to fluorescent technology. Since then, lighting upgrades mostly included changing old fluorescent technology to newer, more efficient fluorescent technology.
Princeton Facilities engineers are meeting with building managers to develop an LED project implementation schedule for buildings across campus. The decision to upgrade lighting to LED technology will be based on an in-depth life cycle analysis of each project and any special use requirements.
Dillon Gymnasium is one location where fluorescent lights (top photo) have been upgraded to LED fixtures (bottom photo). LEDs are known for providing higher quality lighting with no ultraviolet emissions.