Whether they are typing away in their cubicles, attending lengthy meetings, or snacking in the cafeteria, office workers don't generally wonder how the lights above their heads could save their organization money. Energy-efficient lighting is, however, an indispensable feature of the office of the future. Through careful design and with the integration of high-efficacy lamps, ballasts, and controls, office spaces can achieve a vastly superior luminous environment while saving substantial money and resources.
Utilities in the 21st century face significant challenges. Integrated systems and controls must be in place to deliver highly reliable service with quality results. Energy-efficient office spaces need to be reasonably priced to attract business owners. It's also important to question how a lighting design will affect the environmental quality of office buildings.
Policy makers recognize that greenhouse gases in the atmosphere—caused in part by heavy reliance on fossil fuels—will have major long-term global impacts, including rising sea levels, lowering air quality, and increasing ecological damage. Federal and state regulators who are aggressively promoting climate and energy policies recognize that smart buildings, when plugged into a sophisticated electricity grid, help reduce greenhouse gas emissions.
Energy-efficiency programs in the U.S. abound. Many utility companies offer consumers incentives for an array of technologies, technical analysis, and training to help facilitate market adoption and ultimately to reduce costs. Demand response programs, specifically, allow consumers or other third parties to operate and closely monitor energy consumption using smart meters, building area networks, and dashboards that allow connectivity and other monitoring functionality.
Those meters are just one tool in the smart grid, which can deliver electricity more efficiently by boosting the coordination between suppliers, consumers, and networks in two-way or “N-way” digital communications. The smart grid restores the supply-and-demand balance by linking transmission lines with conventional electricity generators, rooftop solar customers, wind farms, plug-in electric vehicles, and distribution stations. Renewable-energy generation can have a significant impact on the grid's reliability, which is affected by intermittent power production or transient loads. Additionally, peak loads during the 9-to-5 workday are typically double that of off-peak loads from midnight to 6 a.m.
Zero-net-energy (ZNE) or ultralow-energy buildings also relieve the grid's load by harvesting energy on site with the goal of achieving zero- or low-carbon emissions. California's goal is to have zero-net-energy in place for new residential buildings by 2020 and for new commercial buildings by 2030. These goals may be reached through exemplary building design, highly efficient space conditioning, state-of-the-art lighting design, as well as by using solar electric or wind generation. These high-performance building features would be integrated through sophisticated controls.
THE MARKET Lighting is so ubiquitous that we take it for granted. According to the California Energy Commission, lighting represents 42 percent of the electrical consumption in California—more than air conditioning, refrigeration, and ventilation. More than three-quarters of the total lighting load is nonresidential space and 26 percent of that is commercial.
There is a currently a glut in office space on the commercial market. According to the Urban Land Institute, the national downtown urban market space equals 1.5 billion square feet, while the suburban market equals 3.2 billion square feet. Less demand means rising vacancies, declining rents, and tenants who want more at less cost. Market trends in commercial real estate show little new development or money for retrofits. Instead, property management firms are increasingly specializing in niche markets such as green buildings.
According to the 2008 study “Does Green Pay Off?” by Norm Miller, Jay Spivey, and Andy Florance, LEED-certified buildings sold for 64 percent more while Energy Star–labeled buildings sold for 27 percent more. Studies have shown that employees with personal dimming controls registered higher ratings of overall satisfaction with their environment and were happier at work, according to a study by the Light Right Consortium. The general literature also suggests that green office spaces have the potential to lower worker compensation claims, increase productivity, reduce absenteeism, and lower vacancy rates. These trends make office spaces unique platforms for integrated lighting solutions.
SOLUTIONS The Office of the Future (OTF), a consortium founded by Southern California Edison and other utilities, promotes an integrated technology and market-driven approach to lighting design and other building systems in commercial office spaces. The OTF combines two-way connectivity, off-the-shelf solutions, and careful design. Coupled with demand response, two-way connectivity empowers businesses to intelligently manage their energy use. If there is a transmission constraint, or issues on the distribution system, this connection allows businesses or third-party aggregators to control loads and reduce operating costs.
One of the foundations of the OTF is thoughtful design. Detailed assessments of how fixtures, ballasts, lamps, and controls are utilized during the workday help dictate which solutions should be implemented and studied. Off-the-shelf solution packages make retrofits more economical and accessible.
Studies have shown that employees with personal dimming controls registered higher ratings of overall satisfaction with their environment and were happier at work.
The involvement of prominent stakeholders demonstrates how large the market is for the OTF. The consortium includes Microsoft, IBM, Trane, Consolidated Edison, Pacific Northwest National Laboratory, NSTAR, Sempra Energy, BC Hydro, National Grid, Pacific Gas & Electric Co., Sacramento Municipal Utility District, and others. The consortium has already completed several successful pilots. One pilot project involved retrofitting a cube farm in an Irwindale, Calif., office building with a 1990s lighting system that used 1.2W per square foot. A suspended lighting system was installed, including dimming ballasts, Super T8 lamps, and small-zone occupancy sensing. The new system is demand responsive and set up to automatically respond to daylight. The redesign cut the watts per square foot in half and also reduced the annual energy cost by 74 percent.
