United States-MEPS-Linear fluorescent lamps
Initial standards for linear fluorescent lamps were enacted by Congress in the Energy Policy Act of 1992, building on standards developed by states. DOE updated the standards in June 2009, and the standards went into effect on July 14, 2012. The efficiency standards vary by type of lamp. The standard for the most common lamp type—4-foot medium bipin, =4500K—is 89 lumens per watt. The new standards can be met by 800 Series T8 lamps, which are more efficient than 700 Series T8 lamps. However, 800 Series T8 lamps require significant quantities of three specific rare earth oxides to produce the phosphor coatings, and these rare earth oxides have recently been subject to significant supply constraints. Due to this market disruption, many manufacturers of linear fluorescent lamps applied for and were granted exception relief. The exception relief allows these manufacturers to continue to produce 700 Series T8 lamps for a period of two years.
DOE published a final rule for updated standards in January 2015. For the 4-foot medium bipin, =4500K, DOE proposed a minimum of 92.4 lumens per watt, about four percent more efficienct than the current standard. According to DOE, for products sold over a 30-year period, the proposed increase would save consumers and businesses over 250 billion kilowatt hours of electricity, between $2-$5.5 billion, and cut CO2 emissions by 160 million metric tons. To put the numbers in perspective, the cumulative electricity savings would be enough to power about 20 million U.S. households for a year and the CO2 savings would equal the annual emissions of over 33 million passenger cars.
DOE published a final rule for updated standards in January 2015. For the 4-foot medium bipin, =4500K, DOE proposed a minimum of 92.4 lumens per watt, about four percent more efficienct than the current standard. According to DOE, for products sold over a 30-year period, the proposed increase would save consumers and businesses over 250 billion kilowatt hours of electricity, between $2-$5.5 billion, and cut CO2 emissions by 160 million metric tons. To put the numbers in perspective, the cumulative electricity savings would be enough to power about 20 million U.S. households for a year and the CO2 savings would equal the annual emissions of over 33 million passenger cars.
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