One Broken Bulb: The Health and Safety Risks

One broken four-foot fluorescent lamp in a small room or vehicle can release enough mercury vapor to exceed the OSHA mercury exposure eight-hour limit—posing significant health and safety risks to handlers and consumers. Plus, mercury vapor can be emitted for weeks after a single bulb is broken, continually polluting the air in consumers’ homes. When carelessly handled or improperly disposed of, mercury can get into drinking water, lakes, rivers and streams, posing a critical threat to human health, as well as the environment. Recent studies have linked mercury exposure to increased risk of heart attack in men, to mental retardation and neurological disorders in children, and dangerous levels of mercury in the blood of women of childbearing age.

Despite these health concerns, the EPA estimates that approximately 75 to 80 percent of fluorescent lamps are not recycled and are usually placed in dumpsters or trash containers, presenting a considerable risk. One study found that mercury is "strongly and persistently" emitted from dumpsters that contain broken fluorescent lamps.(1) Broken fluorescent lamps need to be properly recycled to prevent the release of mercury vapor. Learn how to clean up a broken bulb or how to safely package and recycle fluorescent lamps by reading our Layers of protection: Packaging used fluorescent lamps post.

1. Lindberg, S.E.; Owens, J. PaMSWaD (Pathways of Mercury in Solid Waste Disposal); Lockheed Martin Energy Research Corporation (LMER). 1999. 6.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Origins of the Phrase “Mad As a Hatter”

Mercury has long been known to be toxic. The phrase "mad as a hatter" refers to the 19th-century occupational disease that resulted from prolonged contact with the mercury used in the manufacture of felt hats. Along with felt hats, mercury has been taken out of many manufacturing processes and products—as the dangers of mercury exposure become more well known.

Most mercury pesticides have been withdrawn from the U.S. market, and many countries banned ocean dumping of mercury and other pollutants in 1972. Production of mercury-containing interior and exterior paints in the United States was phased out in 1991. Mercury, which has been used in medicines for hundreds of years, continues to be used in various folk remedies that can cause mercury exposures. The use of mercury in dental amalgam for tooth fillings has stirred escalating controversy in recent years. Most other medical uses have been banned or are being phased out.

Despite these changes, some workers today, especially laboratory technicians, nurses, and machine operators, continue to be exposed to mercury on the job. Elemental mercury (the silver liquid familiar in thermometers) is a common occupational source of exposure. Fragile fluorescent lamps and compact fluorescent lamps if broken represent another mercury exposure risk as they are handled by manufacturers, transporters, distributors, retailers, consumers and installers, as well as recycling or waste handlers. There are currently no universally enforced packaging standards designed to protect these people. There now exists a proven packaging design with a vapor resistant and zip seal bag that should be mandated to protect people who work with or near fluorescent lamps, as well as for protecting the surrounding environment.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

What Mercury?

While the amount of mercury used in an individual fluorescent bulb has decreased over the past years, one broken 4-foot fluorescent lamp in a small room or vehicle can release enough mercury vapor to exceed the OSHA mercury exposure 8-hour limit—posing a significant occupational health risk. Plus, mercury vapor can be emitted for weeks after a single bulb is broken.

In their lifetime, fragile fluorescent lamps are handled by manufacturers, transporters, distributors, retailers, consumers and installers, as well as recycling or waste handlers. Although the lamps could break anywhere down this line and expose workers and the environment to hazardous mercury vapors, there are no universally enforced packaging standards designed to protect these people.

While some steps have been taken to encourage safe recycling and disposal of fluorescent lamps, this fact remains: although a variety of containers are marketed for transportation of fluorescent lamps, many don't provide necessary levels of protection against mercury vapor in the occurrence of breakage. Using a proven packaging design with a vapor resistant lining is vital to ensuring the safety of persons who work with or near fluorescent bulbs, as well as for protecting the surrounding environment, especially as fluorescent lighting continues to grow in popularity and practicality. 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

The First Waste Container

Universal waste containers that could be transported by common carrier were first introduced in 1998. The first containers were primarily used to ship fluorescent lighting. Initially, these containers were simple corrugated boxes, with some including a plastic bag inside the box. Since the contents were made of glass, they were designed primarily to contain the contents within the shipping container. However, since mercury begins to vaporize at 70 degrees F, packaging improvements were needed to address the issue of potential mercury vapor release in the event of breakage during accumulation and transport. Read more about packaging designed to contain mercury vapor.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Cleaning Up the Broken Bulb

As a result of a growing green movement and new government regulations—including an Act of Congress to cease the manufacture of incandescent lamps by 2013—the use of more energy efficient lights, such as CFLs, continues to increase. Like all fluorescent lights, CFLs contain hazardous mercury vapor, which is emitted when these fragile bulbs break and causes significant health and safety issues, as well as environmental concerns.

What should you do if a CFL breaks in your home? A Maine Compact Fluorescent Lamp Breakage Study found that mercury concentration in a room can exceed permissible exposure levels, even from the breakage of a single CFL. For a clean-up guide, click here: http://www.maine.gov/dep/rwm/homeowner/cflreport/appendixe.pdf

Brad Buscher
Chairman and CEO
VaporLok Products LLC

How Are You Being Exposed to Mercury Vapor?

We have all heard about the potential health and safety risks of mercury vapor, but do we know exactly where this mercury vapor is coming from?

Today, mercury continues to be used in many products, primarily in fluorescent lamps and compact fluorescent lamps (CFLs) in offices, stores and homes. Because of its high density, it is also used in barometers and manometers. Due to its high rate of thermal expansion—which remains fairly constant over a wide temperature range—mercury is also used extensively in thermometers and thermostats. Mercury-vapor lamps, which emit light rich in ultraviolet radiation, are used for street lighting, in water treatment plants as a disinfectant, and in tanning beds. Mercury is used as an electrode in the production of chlorine and sodium hydroxide and in certain electric batteries. Mercury is important as an electrical contact for switches, and mercury conducts the charge in fluorescent lamps.

Exposure typically comes from inhaling mercury vapors. For most of us, fluorescent lamps present the single greatest risk of mercury exposure in the work place, as these lamps can easily break. Upon breaking, there is an even greater risk in transporting fluorescent lamps and CFLs, as there are no packaging standards and few regulations in place requiring proper packaging for storage and transportation. To protect against mercury vapor exposure from used fluorescent lamps and other mercury-containing devices, these products should be stored and transported in a packaging configuration proven to contain mercury vapor.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Mercury Levels In CFLs: Not As Dangerous as They Used to Be?

According to recent news, mercury levels in CFLs and fluorescent bulbs are decreasing compared to levels in the past. Does this mean that CFLs and fluorescent bulbs no longer present health and safety dangers associated with mercury content? One simple answer: No.

Regardless of the quantity of mercury present in CFLs and fluorescent bulbs, it is still important for consumers to handle, dispose, transport and recycle them properly. Mercury vapor can be detrimental to consumers’ health—from those involved with handling new bulbs to people involved with storing, packaging and shipping used lamps. Mercury vapor, which can be absorbed through the skin or inhaled, can cause neurological damage, and when it gets into water, it can enter the food chain through fish.

While some steps have been taken to encourage safe recycling and disposal of fluorescent lamps, this fact remains: although a variety of containers are marketed for transportation of fluorescent lamps, many don't provide necessary levels of protection against mercury vapor in the occurrence of breakage. Using a proven packaging design with a vapor resistant lining is vital to ensuring the safety of persons who work with or near fluorescent bulbs, as well as for protecting the surrounding environment.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

How to Avoid Harmful Mercury Vapor if the Bulb Breaks

CFLs and fluorescent lamps are a sustainable lighting solution, as they give off the same amount of light as traditional incandescent lamps but are four to six times more efficient. However, CFLs and fluorescent lamps contain hazardous mercury vapor, which is emitted when these fragile bulbs break and causes significant health and safety issues, as well as environmental concerns.

If a CFL or fluorescent lamp breaks in your home, what should you do? Studies have found that mercury concentration in a room can exceed permissible exposure levels, even from the breakage of a single CFL. To prevent these potential health and safety threats from broken bulbs, the EPA offers a detailed clean-up guide: http://www.epa.gov/cfl/cflcleanup-detailed.html

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Fluorescent Lamp Transportation Regulation

The U.S. Department of Transportation (DOT) provides packaging standards for the transportation of fluorescent lamps (referred to in the regulations as “mercury vapor tubes”). Those regulations require that shipments of lamps be contained in packaging that prevents the escape of mercury.

However, those DOT packaging requirements will rarely, if ever, apply to packages of used mercury-containing lamps. Based on the rules and the mercury content of used lamps, the DOT standards only apply to packages containing more than 250 typical CFLs or low mercury fluorescent lamps or 100–200 other types of fluorescent lamps. Most used lamps are transported in far smaller containers. Yet even a single broken lamp can emit mercury vapor beyond permissible exposure levels.

One broken 48-inch fluorescent lamp in a small room or vehicle can release enough mercury vapor to exceed the Federal OSHA PEL. This indicate that emissions from packages not designed to contain mercury vapor represent a real health and safety concern to those involved in its storage, transport and disposal, as well as a legal hazard for any businesses that do not adhere to these stipulations.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

EPA Packaging Regulations

Shipping, packaging, and handling of fluorescent lamps is a major concern because of the harmful mercury vapor emitted when the lamps are broken, which commonly occurs during shipment. To lessen the health and environmental risks associated with mercury vapor, national laws--sometimes supplemented by more rigorous state laws--exist to encourage proper recycling of fluorescent lamps. EPA encourages recycling of these lamps by allowing common carrier shipment to recycling facilities. To protect people who handle fluorescent lamps, EPA instructs that packaging should be designed to protect against breakage. While the rules mandate that lamps be packaged in structurally sound packages, the federal laws don't explicitly address mercury vapor release.

Read more about State Universal Waste Regulations and Federal Universal Waste Regulations

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Minimize Safety, Health and Environmental Risks of Used Fluorescent Lamps: Breakage

The fact is, fluorescent lamps are fragile, and along their life cycle from manufacture to disposal—some product will inevitably break. A proven packaging configuration with a zip closure foil-plastic laminate bag is available to effectively contain mercury vapor, allowing safe transportation and storage to recycling facilities and mitigating the danger of mercury vapor exposure. However, if a lamp is broken outside of these containers—during handling and maintenance for instance—the proper steps should be taken to minimize exposure.

The EPA provides guidelines for cleaning up a broken fluorescent light, including a CFL or fluorescent bulb. First, the facility’s maintenance personnel should empty the room of people and pets, airing the area out for 15 minutes or more. The glass fragments should then be carefully picked up (with stiff paper or cardboard) and placed in a glass jar with a metal lid. Remaining fragments should be removed by the use of sticky tape, but a vacuum and/or broom should not be used. For additional information and a more complete clean-up guide, visit the EPA’s website.

Read our previous posts in this series on how to handle, store, transport and recycle used fluorescent lamps.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Minimize Safety, Health and Environmental Risks of Used Fluorescent Lamps: Recycling

Despite the safety, health and environmental hazards of used fluorescent lamps, the Environmental Protection Agency (EPA) estimates recycling rates at only 20 to 25 percent. According to one study, mercury air emissions could be lowered by 30 percent if recycling rates are increased to 50 percent and improvements in handling are made to lower losses from breakage. (1) Consumers can choose to recycle used lamps in several different ways. Lamps can be sent to a recycling facility via truck, UPS or FedEx® in bulk or through pre-paid shipping recycling box programs—which provide simple online ordering, tracking and compliance documentation for the proper management of mercury-containing items and other types of Universal Waste.

Once received, the recycler may crush the lamps, along with other contaminated products, devices and debris, to safely exhaust the mercury vapor and extract and reuse the resultant mercury—ensuring mercury is not released into the environment. This process minimizes the potential dangers of mercury vapor emitted from used fluorescent lamps—effectively reducing environmental liability and protecting both handlers and consumers from potential safety hazards and health risks.

Read our previous posts in this series on how to handle, store and transport used fluorescent lamps, and find out next week what do if the bulb breaks.

Reference:
1. 3. Cain, A.; Disch, S.; Twaroski, C.; Reindl, J.; Case, C.R. Substance Flow
Analysis of Mercury Intentionally Used in Products in the United States; J. Ind. Ecol. 2007, 11, 61-75.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Minimize Safety, Health and Environmental Risks of Used Fluorescent Lamps: Storage

One broken 48-inch fluorescent lamp in a small room or vehicle can release enough mercury vapor to exceed the Federal Occupational Health and Safety Administration (OSHA) permissible exposure limit (PEL). This means that mercury vapor concentrations could exceed occupational exposure levels when working with or near broken bulbs, especially when multiple bulbs are stored or shipped in bulk to recycling facilities.

Often, maintenance workers at small to large facilities store used lamps for a period of time until numerous lamps are collected for transportation to recycling facilities. Stored lamps may be bumped around and broken, so maintenance workers should package used lamps in a configuration proven to contain mercury vapor emissions. A recent study from the University of Minnesota indicates that three layers of packaging are necessary to provide sufficient containment of mercury vapor. An outer cardboard layer provides structure to the configuration and protects contents from outside elements. A bag positioned between two cardboard layers should feature a suitable material and tight seal—such as a unique zip closure foil-plastic laminate bag—to contain the mercury vapor. Finally, an inner layer of cardboard prevents broken glass from piercing the bag.

Read our previous post on how to handle used fluorescent lamps, and find out next week how to safely transport them.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Lighting the Workplace with Fluorescent Bulbs

Many businesses strive to keep management expenses low, ensure energy efficiency and provide a safe work environment for employees. When it comes to selecting lighting, all of these aspects must be factored in. Fluorescent lamps have long been the best lighting option for small to large businesses, due to their significant energy savings—providing four to six times higher efficiency than incandescent lights—and long working life. However, these lamps contain hazardous mercury and, from installation to disposal, they must be carefully handled, stored and transported.

While the amount of mercury used in an individual fluorescent bulb has decreased over the past years, one broken four-foot fluorescent lamp in a small room or vehicle can release enough mercury vapor to exceed the OSHA mercury exposure eight-hour limit—posing a significant occupational health risk. Plus, mercury vapor can be emitted for weeks after a single bulb is broken. In their lifetime, fragile fluorescent lamps are handled by manufacturers, transporters, distributors, retailers, consumers and installers, as well as recycling or waste handlers. Although the lamps could break anywhere down this line and expose workers and the environment to hazardous mercury vapors, there are no universally enforced packaging standards designed to protect these people. Recent legislation has begun to address the issue of safe packaging for fluorescent lamps and other mercury-containing products, and businesses must work to not only comply with these regulations, but also ensure the safety of all personnel in addition to protecting the environment.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

One Broken Bulb: The Health and Safety Risks

One broken four-foot fluorescent lamp in a small room or vehicle can release enough mercury vapor to exceed the OSHA mercury exposure eight-hour limit—posing significant health and safety risks to handlers and consumers. Plus, mercury vapor can be emitted for weeks after a single bulb is broken, continually polluting the air in consumers’ homes. When carelessly handled or improperly disposed of, mercury can get into drinking water, lakes, rivers and streams, posing a critical threat to human health, as well as the environment. Recent studies have linked mercury exposure to increased risk of heart attack in men, to mental retardation and neurological disorders in children, and dangerous levels of mercury in the blood of women of childbearing age.

Despite these health concerns, the EPA estimates that approximately 75 to 80 percent of fluorescent lamps are not recycled and are usually placed in dumpsters or trash containers, presenting a considerable risk. One study found that mercury is "strongly and persistently" emitted from dumpsters that contain broken fluorescent lamps.(1) Broken fluorescent lamps need to be properly recycled to prevent the release of mercury vapor. Learn how to clean up a broken bulb or how to safely package and recycle fluorescent lamps by reading our Layers of protection: Packaging used fluorescent lamps post.

1. Lindberg, S.E.; Owens, J. PaMSWaD (Pathways of Mercury in Solid Waste Disposal); Lockheed Martin Energy Research Corporation (LMER). 1999. 6.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Which Packaging Configuration Effectively Contains Mercury Vapor?

To avoid both health and environmental risks associated with mercury vapor emissions from broken fluorescent lamps, they should be packaged, stored and transported to recycling facilities in a configuration that is specifically designed to contain mercury vapor—and proven to be effective.

The University of Minnesota study measured the performance of three different categories of packaging configurations that are used to store and transport used fluorescent lamps: single layer cardboard boxes, single layer cardboard boxes with a plastic bag, and double-layer cardboard boxes with a bag between the two layers. In ten replicate experiments, each box was filled with 40 used low-mercury T4 fluorescent lamps, dropped and shaken in a test chamber until the lamps were broken. During the next six hours, the level of mercury vapor inside the test chamber was measured and recorded. (1)

1. Single Layer Cardboard Box: Similar to the package in which fluorescent lamps are usually sold in, this packaging configuration was the least effective. It resulted in airborne mercury vapor levels in the test chamber exceeding all workplace exposure levels, as defined by state and federal authorities.
2. Single Layer Cardboard Box with a Plastic Bag: This contained the mercury better than the first box, but still emitted some mercury vapor.
3. Double-Layer Cardboard Boxes with a Bag Between the Two Layers: Out of all of the configurations, only this package design kept mercury vapor levels in the test chamber below all workplace exposure regulations and guidelines.

REFERENCES
1. Glenz, Tracy T., Lisa M. Brosseau, and Richard W. Hoffbeck. "Preventing Mercury Vapor Release from Broken Fluorescent Lamps during Shipping." Journal of the Air & Waste Management Association 59 (2009): 266-72. Print.

Brad Buscher
Chairman and CEO
VaporLok Products LLC

What Happens When the Bulb Breaks?

When a fluorescent lamp breaks, it emits mercury vapor, which can cause severe health and safety risks. Mercury vapor, which can be absorbed through the skin or inhaled, can cause neurological damage to adults, children and fetuses. (1) It is considered a persistent bioaccumulative toxic chemical, since it doesn't degrade in the environment. (2) When mercury vapor gets into water, it is converted to methyl mercury and can enter the food chain through fish. Methyl mercury causes damage to the central nervous system and it is also thought to be a possible human carcinogen. (3)

To avoid both health and environmental risks associated with mercury vapor emissions from broken fluorescent lamps, they should be packaged, stored and transported to recycling facilities in a configuration that is specifically designed to contain mercury vapor—and proven to be effective.

1. Mercury Fact Sheet; Agency for Toxic Substances and Disease Registry, 1999; available at http://www.atsdr.cdc.gov/tfacts46.pdf (accessed October 1, 2007).
2. Persistent Bioaccumulative Toxic (PBT) Chemicals; Final Rule. Fed Regist. 1999, 64, 58666-58753.
3. Mercury Compounds Hazard Summary, 2000. Technology Transfer Network Air Toxics web site; U.S. Environmental Protection Agency; available at http://www.epa.gov/ttn/atw/hlthef/mercury.html (accessed November 20, 2007).

Brad Buscher
Chairman and CEO
VaporLok Products LLC

Safe Fluorescent Lamp Packaging: Protecting Against Harmful Mercury Vapor

On average, CFLs and fluorescent lamps contain about 4 milligrams of mercury. Mercury is dangerous and can be a threat to our safety and health when exposed to it. It is important for consumers to take the necessary precautions when handling, storing or transporting used or broken lamps to protect themselves against any potential harm from released mercury vapor.

According to a study conducted by the University of Minnesota, there is only one proven packaging configuration that effectively contains mercury vapor from broken fluorescent lamps below permissible workplace exposure levels, as defined by state and federal authorities. This configuration consists of an outer cardboard layer, a bag to contain the mercury vapor and an inner layer of cardboard to prevent broken glass from puncturing the bag.


Brad Buscher
Chairman and CEO
VaporLok Products LLC

CFL Recycling Information Supplied by Manufacturers: Philips, TESCO and GE

Although consumer awareness of the health and safety risks associated with mercury vapor emitted from broken CFLs has increased, the Environmental Protection Agency (EPA) estimates recycling rates of possibly less than two percent. If not properly recycled, the emitted mercury vapor poses a significant threat to not only the health of consumers, but also to the health of our environment. Mercury-containing products, such as CFLs, need to be properly recycled to truly be considered truly green products. Yet according to a study conducted by Toxic Waste Facts (1), only one of the three top light bulb manufacturers displays significant recycling information on their packaging:

Philips: The packaging of a CFL from Philips contains no specific information on disposal or risks associated with mercury contained in the bulbs. The information on the packaging details the life expectancy, wattage, a recycling symbol and an A rating.

TESCO: The packaging of a CFL from TESCO includes handling and fitting safety instructions, as well as a list of states that ban CFL household waste disposal, with more information available in store or via the website recycle-more.co.uk. Packages also contain the A rating and the crossed-out wheeled bin symbol. However, they do not offer any instructions regarding breakage clean-up or health risks.

General Electric: The packaging of a CFL from General Electric contains no information on disposal, recycling or any risks associated with the bulb. The information on the packaging details the life expectancy, wattage and an A rating.

It is important that consumers are made aware of the risks associated with broken CFLs and other mercury-containing products, and manufacturers should change packaging to better detail risks, usage and disposal methods.

1. An Assessment of Benefits and Potential Health and Environmental Hazards from Compact Fluorescent Lights. Toxic Waste Facts; available at http://toxicwastefacts.com/toxicwaste/an-assessment-of-benefits-and-potential-health-and-environmental-hazards-from-compact-fluorescent-lights

Brad Buscher
Chairman and CEO
VaporLok Products LLC

The End of an Era: Incandescent Light Bulb Factories Closing

The 2007 energy conservation measure passed by Congress set standards to essentially ban incandescent lights by 2013, requiring households to make the switch to more energy efficient lights. According to recent news, the last major General Electric factory in the United States is closing this month, marking an end to a fixture that has been lighting homes since the 1870s. With incandescents out, fluorescent lamps and CFLs continue to grow in popularity, providing energy and greenhouse gas emission savings.

Many consumers are worried about the mercury levels contained in fluorescent lights and the potential health, safety and environmental issues caused by mercury vapor emitted from broken lamps. However, with proper storage, transportation and disposal, fluorescent lights can be a green and safe lighting solution. According to a recent study by the University of Minnesota, only one package design out of the five tested is effective in containing mercury vapor beyond permissible exposure levels. Find out more about this configuration, which includes a vapor resistant and zip seal bag.

Lisa Brosseau, ScD, CIH
Associate Professor
University of Minnesota School of Public Health, Division of Environmental Health Sciences