LD+A – Multiple studies have demonstrated the significant energy savings that bi-level, occupancy-based lighting controls can achieve in outdoor applications. These controls maintain recommended illumination levels during occupied periods and automatically dim lights, reducing power by 50 percent or more, during vacant periods.
Join energy efficiency experts Gina Rodda, Kelly Cunningham and Tom Herbert on November 12, 13 or 14 for “Decoding Lighting," a free 90-minute interactive online event to discuss and decode new Title 24 indoor lighting controls requirements for nonresidential buildings. Compliance triggers and paperwork will be included in the topics covered.
LD+A – CLTC and Berkeley Lab partnered to test the ADR-readiness of commercially available networked lighting control systems. All three systems tested were configured for automated demand response (ADR) communications, and all three successfully accessed the demand response automation server (DRAS) to retrieve DR events.
Join UC Davis representatives, including staff from CLTC and WCEC, at this year's CHESC event hosted by UC Santa Barbara. Visit booth #203 to learn about lighting and HVAC innovations tested through the State Partnership for Energy Efficient Demonstrations (SPEED). Information on incentives and project financing options will also be available.
Reducing energy use and maintenance costs with demonstrated lighting technologies — With the growing availability of new technologies, smart lighting systems, wireless controls, and improvements on traditional sources, the search for lighting solutions for campus applications is growing more complex. Presentations included lighting technology choices for exterior lighting, office workspaces, classrooms, and demonstration installations. Case studies showed the results of projects that have recently been installed.
CLTC at UC Davis is on a mission to get energy-efficient lighting into offices and homes.
The retail sector constitutes one of the largest energy consumers in the U.S., and halogen parabolic aluminized reflector (PAR) and multifaceted reflector (MR) lamps are common retail lighting choices. LED replacement lamps have the potential to transform lighting energy use in this sector, and manufacturers of LED PAR and MR lamps now claim comparable photometric performance, as well as much greater longevity, than traditional halogen lamps.
Adaptive exterior lighting products are entering the marketplace at a rapid rate. By coupling features such as occupancy-based lighting controls with efficacious, dimmable sources, these solutions offer 30 – 75% energy savings over traditional systems.
Smart Planet – At the California Lighting Technology Center at UC Davis, Professor Michael Siminovitch discusses an array of LED and fluorescent lighting technologies including, down lighting systems for residential use, and exterior LED lighting for garages and parking lots.
LD+A – As retail stores make efforts to improve their sustainability and energy efficiency, a growing number are considering making the switch to directional LED replacement lamps. Compared to traditional halogen or incandescent sources, LED alternatives are about 75 percent more energy efficient, on average, and they last up to 25 times longer, but efficiency and long life are not enough.