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Avoid potential liability issues
It is common knowledge that using energy-efficient lighting can help reduce utility costs. But the benefits don't stop there. Energy-efficient light sources greatly reduce the amount of solid waste that enters the waste stream, since these lamps last longer than incandescent or halogen lamps and require fewer replacements.
In addition, use of energy-efficient lamps reduces the need for power generation , thereby reducing emissions from power plants that burn fossil fuel to generate needed electricity. The chart below shows the amount of airborne mercury emitted from a power plant for a fluorescent lamp (left) over 5 years versus incandescent lamps over 5 years.
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However, energy-efficient lighting products such as fluorescent lamps, compact fluorescent lamps, and high intensity discharge (HID) lamps contain small amounts of mercury to sustain lamp life and maximize the amount of light produced per watt.
Mercury is a natural element that is released into the air by coal combustion and waste incineration. Coal-burning power plants, which account for about 50% of US electricity generation, are the largest human-caused source of mercury emissions to the air in the United States, accounting for about 40 percent of all domestic mercury emissions.
Mercury in the air eventually settles into water or onto land where it can be washed into water. Once deposited, certain microorganisms can change it into methylmercury, a highly toxic form that builds up in fish, shellfish and animals that eat fish. Fish and shellfish are the main sources of methylmercury exposure to humans. Methylmercury builds up more in some types of fish and shellfish than others.The levels of methylmercury in fish and shellfish depend on what they eat, how long they live and how high they are in the food chain.
Mercury does not get into the air directly from an operating lamp. It may bind with the glass or the phosphors or other coatings, but it stays in the lamp. Even when lamps are manufactured, mercury is contained by manufacturing processes or captured by filters.
| This leaves only one opportunity for direct mercury release from lamps into the air—breakage at the end of the lamp’s life. This occurs when lamps are thrown into dumpsters or garbage trucks, typically prior to disposal. |
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Because the amount of mercury content in an individual lamp is low, breaking a small number of lamps does not present a health threat to workers. The improper disposal of large numbers of lamps, however, adds to the global reservoir of mercury. Burning hazardous wastes, or incineration of disposed materials can also release mercury into the environment.
The US Environmental Protection Agency has classified mercury-containing lamps as Universal Waste, which simplifies disposal and eliminates additional paperwork, transport issues, and disposal charges associated with hazardous waste.
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Lamps that contain mercury are identified by their elemental symbol, Hg: |
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While EPA regulations encourage responsible disposal, they do allow for some exemptions—depending on the classification of user, type of lamp, and number of lamps to be disposed. This means that in parts of the U.S., lamps may be legally discarded in the conventional solid waste stream (trash), eventually finding their way to incinerators or landfills. Some states have adopted more stringent requirements, eliminating lamps from landfills.
When trying to keep mercury in general out of the air, the two greatest opportunities with electric lamps are: to use energy-efficient lamps, (thereby driving down mercury emissions from coal fired power plants); and to avoid breaking the lamps prior to disposal by sending them to a recycling facility, where it is estimated that only 0.2% to 0.4% of the mercury is emitted to the atmosphere.
Mercury recovered from recycled lamps is sold back into the mercury market, and it can be reused in fluorescent lighting. OSRAM SYLVANIA uses recycled mercury in its fluorescent and HID lamps where possible.
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