Fluorescent lamps have increased in popularity, due to rising energy costs and environmental concerns. Fluorescent lamps are four to six times more efficient than incandescent lamps, which in turn reduces the power demand from local utilities. Since most power stations use coal as a source for electrical generation, they are large emitters of both greenhouse gas and mercury, which is naturally occurring in most coal that is used today. The reduced demand for electricity in turn reduces both greenhouse gas and mercury emissions.
However, fluorescent lamps are fragile and, upon breaking, these lamps release mercury vapor that can be detrimental to handlers' health—from those involved with handling new bulbs to people involved with storing, packaging and shipping used lamps.
While a variety of containers are marketed for transportation of fluorescent lamps, many don't provide sufficient protection against mercury vapor emitted from broken lamps. Using a proven packaging design is vital to ensuring the safety of people who handle these lamps, as well as maintaining their green benefits.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Showing posts with label electricity. Show all posts
Showing posts with label electricity. Show all posts
Wednesday, April 27, 2011
Wednesday, March 30, 2011
Cost-Saving Benefits of CFLs and Fluorescent Lamps
CFLs and fluorescent lamps save significant costs in electricity expenses, right? According to recent articles, many people are in doubt about this claim, and refuse to believe these bulbs are actually saving them money by using less energy. Furthermore, the higher initial cost of the bulbs is preventing many consumers from making the switch. However, tests have shown that CFLs can save households money even under the least ideal conditions.
CFLs and fluorescent lamps give off the same amount of light as their traditional incandescent counterparts, but they require considerably less electricity, which in turn reduces the damaging effects electric power generation causes to the environment. Incandescent light bulbs actually require four times the amount of energy to produce equivalent light in a fluorescent lamp. Fluorescent lamps are four to six times more efficient than incandescent lamps, reducing the power demand from local utilities. Because most power stations use coal as a source for electrical generation, they are large emitters of both greenhouse gas and mercury, which is naturally occurring in most coal that is used today.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
CFLs and fluorescent lamps give off the same amount of light as their traditional incandescent counterparts, but they require considerably less electricity, which in turn reduces the damaging effects electric power generation causes to the environment. Incandescent light bulbs actually require four times the amount of energy to produce equivalent light in a fluorescent lamp. Fluorescent lamps are four to six times more efficient than incandescent lamps, reducing the power demand from local utilities. Because most power stations use coal as a source for electrical generation, they are large emitters of both greenhouse gas and mercury, which is naturally occurring in most coal that is used today.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Wednesday, November 24, 2010
Switching To a More Efficient Bulb
Fluorescent lamps give off the same amount of light as their traditional incandescent counterparts, but they require considerably less electricity, which in turn reduces the damaging effects electric power generation causes to the environment. Incandescent light bulbs actually require four times the amount of energy to produce equivalent light in a fluorescent lamp. Fluorescent lamps are four to six times more efficient than incandescent lamps, reducing the power demand from local utilities. Because most power stations use coal as a source for electrical generation, they are large emitters of both greenhouse gas and mercury, which is naturally occurring in most coal that is used today.
Mercury does present significant health and safety risks to consumers and handlers. However, proper packaging does exist that has been proven to protect people from mercury vapor exposure when handling fragile fluorescent lamps. To ensure sufficient packaging methods are used, packaging regulations should be defined and enforced.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Mercury does present significant health and safety risks to consumers and handlers. However, proper packaging does exist that has been proven to protect people from mercury vapor exposure when handling fragile fluorescent lamps. To ensure sufficient packaging methods are used, packaging regulations should be defined and enforced.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Wednesday, September 8, 2010
How Do Incandescent Lights Result in More Mercury Pollution Than Fluorescents?
In addition to carefully recycling products that contain mercury, we can reduce mercury pollution by reducing our energy consumption. Because mercury is a byproduct of burning coal, coal-fired power plants are one of the largest sources of mercury pollution. Because incandescent bulbs use several times more electricity over their lifetimes, they require far more power generation and, ultimately, result in more mercury emission than fluorescents. With the coming “maximal achievable technology” clean air standards, it is fully expected that mercury emissions will have to be severely reduced in order to stop this proliferation. Fluorescent lights are four to six times more efficient than incandescent lamps, significantly reducing the power demand from local utilities. The reduced demand for electricity in turn reduces both greenhouse gas and mercury emissions.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Thursday, June 17, 2010
The Benefits of Fluorescent Lamps
Incandescent light bulbs emit light by using electricity to heat up a filament that is encased in a protective glass globe to a very high temperature, causing the filament to glow and produce light. The energy required to produce this light is four times the amount of energy required to produce equivalent light in fluorescent lamps. When the fixtures in an average household are counted and multiplied by the number of households in the country, a true sense of the energy needed to produce the light—that many people take for granted—can be realized.
Fluorescent lamps are made up of a sealed glass tube with a phosphor powder coating along the inside of the glass. Inside the tube is a small amount of mercury as well as an inert gas—such as argon—that is maintained under low pressure. Two electrodes on opposite sides of the tube energize the mercury to produce ultraviolet energy. The phosphor coating on the glass tube then absorbs this energy and releases a photon of visible light.
Like incandescent bulbs, fluorescent lamps don't convert 100 percent of the energy they consume into visible light. However, they are four to six times more efficient than incandescent lamps, which in turn reduces the power demand from local utilities. Since most power stations use coal as a source for electrical generation, they are large emitters of both greenhouse gas and mercury, which is naturally occurring in most coal that is used today. The reduced demand for electricity in turn reduces both greenhouse gas and mercury emissions.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Fluorescent lamps are made up of a sealed glass tube with a phosphor powder coating along the inside of the glass. Inside the tube is a small amount of mercury as well as an inert gas—such as argon—that is maintained under low pressure. Two electrodes on opposite sides of the tube energize the mercury to produce ultraviolet energy. The phosphor coating on the glass tube then absorbs this energy and releases a photon of visible light.
Like incandescent bulbs, fluorescent lamps don't convert 100 percent of the energy they consume into visible light. However, they are four to six times more efficient than incandescent lamps, which in turn reduces the power demand from local utilities. Since most power stations use coal as a source for electrical generation, they are large emitters of both greenhouse gas and mercury, which is naturally occurring in most coal that is used today. The reduced demand for electricity in turn reduces both greenhouse gas and mercury emissions.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Wednesday, June 16, 2010
Turning off the switch on incandescent lights
Fluorescent lamps are four to six times more efficient than their incandescent counterparts and emit about the same amount of visible light, all while offering longer working life and saving significant energy costs. Their use will be significantly increased as well by 2013, when the manufacture of incandescent lamps is slated to cease by an Act of Congress and will therefore be replaced by compact fluorescent lamps (CFLs) and other fluorescents.
Using more efficient lighting options, such as CFLs and other fluorescent lamps, is one of the lowest-cost ways for the nation to reduce electricity use and greenhouse gases. Although incandescent light bulbs may seem like the cheaper option at the counter, consumers will actually save money on CFLs in the long run. While a CFL may cost about $2.00 per bulb, compared to about $0.50 cents for an incandescent bulb, a CFL is four to six times more efficient than an incandescent and lasts an estimated 8 to 15 times as long as an incandescent.
Although CFLs contain small quantities of mercury—which can cause environmental, safety and health consequences—incandescent bulbs actually result in more mercury pollution. While incandescents do not contain mercury, they still contribute to its release into the environment. Because burning coal to generate electricity releases mercury into the air and incandescent bulbs use more electricity over their lifetimes, they are responsible for more energy consumption and ultimately more mercury emissions than CFLs.
The switch from an incandescent bulb to a more efficient CFL results not only in energy and cost savings, but also in less overall mercury pollution. However, CFLs and other mercury-containing lamps emit mercury vapor when broken, and most shipping packages currently in use do not contain this vapor. They need to be properly stored and transported to recycling facilities in packaging proven to contain mercury vapor emissions. Only then do CFLs result in a truly green lighting solution. Currently, only one package design, which includes a vapor resistant and zip seal bag, has proven effective in containing mercury vapor.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
Using more efficient lighting options, such as CFLs and other fluorescent lamps, is one of the lowest-cost ways for the nation to reduce electricity use and greenhouse gases. Although incandescent light bulbs may seem like the cheaper option at the counter, consumers will actually save money on CFLs in the long run. While a CFL may cost about $2.00 per bulb, compared to about $0.50 cents for an incandescent bulb, a CFL is four to six times more efficient than an incandescent and lasts an estimated 8 to 15 times as long as an incandescent.
Although CFLs contain small quantities of mercury—which can cause environmental, safety and health consequences—incandescent bulbs actually result in more mercury pollution. While incandescents do not contain mercury, they still contribute to its release into the environment. Because burning coal to generate electricity releases mercury into the air and incandescent bulbs use more electricity over their lifetimes, they are responsible for more energy consumption and ultimately more mercury emissions than CFLs.
The switch from an incandescent bulb to a more efficient CFL results not only in energy and cost savings, but also in less overall mercury pollution. However, CFLs and other mercury-containing lamps emit mercury vapor when broken, and most shipping packages currently in use do not contain this vapor. They need to be properly stored and transported to recycling facilities in packaging proven to contain mercury vapor emissions. Only then do CFLs result in a truly green lighting solution. Currently, only one package design, which includes a vapor resistant and zip seal bag, has proven effective in containing mercury vapor.
Brad Buscher
Chairman and CEO
VaporLok Products LLC
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