Section 9 - SPECIAL
Construction and demolition (C&D) materials may contain special wastes
that are, or may soon be, subject to special state and federal regulations.
Special wastes include asbestos, fluorescent and high-intensity discharge (HID)
lamps, polychlorinated biphenyls (PCBs), and lead.
Asbestos refers to a group of naturally-occurring fibrous minerals that separate
into very fine fibers. Asbestos fibers are strong, heat-resistant, and very
durable. Asbestos is considered most dangerous when it is crushed, crumbled,
or disturbed (occurs especially during remodeling or demolition) because it
can release tiny fibers into the air. These fibers remain suspended in the air
for a long time and can easily penetrate body tissue after being inhaled or
ingested. Inhalation of asbestos fibers can lead to asbestosis (scarring of
the lungs), mesothelioma (cancer), and lung cancer.
Because of these serious health risks, building materials containing asbestos
must be disposed of according to strict state and federal regulations, which
include disposal only in landfills certified by DEQ to accept asbestos waste.
Contractors are liable for failure to follow regulations, procedures, and permitting
requirements for containing, hauling, disposing, and keeping records of asbestos
Great care is needed to protect air quality while working with asbestos-containing
materials. Do not cut, scrape, tear, sand, saw, or drill asbestos-containing
materials unless absolutely necessary.
- Asbestos Hazard Emergency Response Act (AHERA).
- Clean Air Act Amendments of 1990 Includes federal requirements on handling
asbestos found in commercial buildings, schools (K-12), and public institutions.
General Information About Asbestos
- The primary concern about asbestos-containing material is when it exists
in friable form. Friable means that the material can be crumbled or crushed
with hand pressure and is therefore likely to emit fibers.
- Asbestos-containing material existing in nonfriable form and in good (undamaged)
condition should present no problems as long as it is left alone and maintained
in good condition.
- Basic precautions when dealing with asbestos:
- Do not disturb the material. If the asbestos is in poor condition, do
not allow it to be released into the air (for example, by walking through
the area or pushing it aside to work in the area).
- If asbestos-containing materials are in poor condition and you need
to work in the area, ask a professional before disturbing the materials
- Asbestos-containing material is usually found in:
- Surfacing material sprayed or troweled on ceilings and walls
- Insulation around pipes, boilers, ducts, and tanks
- Miscellaneous materials such as wallboard or floor tiles
- Important banning dates of asbestos-containing materials:
- 1973 for asbestos spray-applied insulating materials
- 1976 for asbestos pre-molded insulation (if friable)
- 1978 for asbestos spray-applied decorative materials
- It is extremely difficult to determine which homes might have asbestos-containing
materials. These materials have been available since World War II, and asbestos
has even been unknowingly reapplied as recently as the late 1980s.
- A trained Asbestos Inspector is the best person to locate asbestos-containing
materials in a building (see Worker Training, Certification, and Fees in this
section for more information). This person also knows where to sample for
Following are examples of places in a house where asbestos might be found:
- Exterior Surfaces - exterior walls and closed decks built with a fire retardant
sheeting that looks like gray cardboard; cement asbestos board (usually light
gray in color) used as sheets for straight and lap siding, or shaped to substitute
for wood shingles; roof felt or window putty.
- Wall and Ceiling Insulation - loose blown-in and batt insulation (especially
in homes built or remodeled between 1930 and 1950) found where interior spaces
need to be protected from outside temperatures (such as outside walls and
floor or roof/attic spaces between structural joists and rafters).
- Floor Coverings - sheet vinyl (including the backing or underlayment), vinyl
tile, and vinyl adhesive.
- Furnaces, Boilers, Heaters, and Piping - insulation blankets (the outside
covering or shell), door gaskets, duct insulation, and tape at duct connections
of furnaces and boilers; furnaces with asbestos-containing insulation and
cement (the material is white or gray in color and resembles plaster) generally
installed in older homes between 1920 and 1972; on and inside furnace ducts;
insulation or asbestos paper (which looks like corrugated cardboard) around
steam and water pipes, particularly at elbows, tees, and valves; cement sheets,
millboard, and paper frequently used as thermal insulation for protection
of floors and walls around woodstoves.
- Interior Surfaces - sprayed-on or troweled-on surface material on wall and
ceiling surfaces; acoustical tiles, textured paint, or heat reflectors (woodstoves).
- Electrical Equipment - materials in older lamp socket collars, electric
switch and receptacle boxes, liners for recessed lighting, backing for switchboard
panels, fuse boxes, and old-fashioned "knob & tube" wiring.
- Built-in Equipment - oven or dishwasher (in cabinet) units were often wrapped
in insulation blankets or sheets until the mid-1970s; water heaters, range
hoods, or clothes dryers.
- Appliances - parts with asbestos-containing materials in refrigerators,
freezers, portable dishwashers, or ovens.
The above list does not include every material or place in a house that may
contain asbestos. More than 3,000 building products contain asbestos. The age
of the building is not a valid way to determine the presence of asbestos. Always
have suspicious material tested.
Contractors can be subject to civil penalties up to $10,000 for violating
asbestos regulations or causing contamination. Because the public has become
increasingly aware of the danger from asbestos, contractors who do not take
required precautions may also be subject to private lawsuits.
Since November 1992, the EPA has required an inspection by an EPA-certified
inspector prior to any remodeling, renovation, restoration, or demolition of
public and commercial buildings. In addition, an asbestos removal plan must
be developed by an Asbestos Hazard Emergency Response Act (AHERA) designer.
Work in schools (K-12) and public buildings must meet additional requirements
outlined by EPA under the federal AHERA. For more information, contact a regional
EPA office .
Federal Occupational Safety and Health Administration (OSHA) regulations governing
asbestos promote worker safety and include safe work practices, worker exposure
limits, labeling, employee training, protective clothing and respirators, medical
surveillance, monitoring and record keeping. For more information, contact a
local OSHA office:
Contractors are responsible for determining whether a substance contains asbestos.
Unfortunately, the asbestos fibers that can cause health problems are much too
small to be seen without a powerful microscope. The only way to be sure whether
a substance contains asbestos is to have the material tested.
It is wise to hire a consulting firm or a trained asbestos inspector to take
the sample and analyze it. If you choose to sample the material yourself, carefully
follow these steps:
- Ask the analytical lab how large a sample is required.
- Make sure employees wear a High Efficiency Particulate Air (HEPA) filter
respirator and disposal gloves.
- Do not disturb the material any more than is required to take the sample.
- Wet the material using a fine water mist prior to taking the sample.
- Penetrate the depth of the dampened material with a clean sample container,
such as a 35mm film canister, a small glass, or a plastic vial.
- Tightly seal the container.
- Use a damp paper towel to clean up any material that spilled outside of
- Label the container, indicating when and where the sample was taken.
- Take the sample to an analytical laboratory.
- Repair the sample location with caulk.
If asbestos is present, contractors must follow EPA, state environmental agency,
and OSHA regulations. If you do not test a material, you should proceed as if
the material contains asbestos. Failure to realize that a substance contains
asbestos does not absolve contractors from liability.
Best Pollution Prevention Practices
- Proper management of materials containing asbestos.
- Test for asbestos using a certified consultant or follow the procedures
- Investigate and follow state requirements for handling, and local
Class II landfill requirements for disposing of, asbestos-containing
- Only contract with certified asbestos abatement contractors.
- Make proper notifications prior to handling, removing, or encapsulating
Worker Training, Certification, and Fees
Depending on regulations in your state the following issues may apply to
- Contractor/Worker Licensing
- Notification of Asbestos Abatement
- Required Work Practices and Procedures
- Asbestos Disposal and Record Keeping
- Disposal of asbestos must follow regulatory requirements.
- Required methods of containing asbestos waste
- Specific procedures for hauling waste
- Disposal in a landfill authorized to accept asbestos waste
- Formal record keeping of asbestos waste disposal
FLUORESCENT AND HID LAMPS
Fluorescent and high-intensity discharge (HID) lamps--such as metal halide
and mercury vapor lamps--contain mercury, cadmium, and antimony. Incandescent
light bulbs contain lead. Exposure to small amounts of these substances can
cause serious human health problems. Under federal law, mercury-containing
lamps may be considered a hazardous waste and must be managed accordingly.
Electric Lamps as Universal Wastes
Regulations regard spent electric lamps as Universal Waste. Universal Waste
is a term describing wastes that fall under reduced regulations if they are
recycled. Refer to Section 8-Hazardous Wastes for a more detailed description
about the management of Universal Wastes.
Toxicity Characteristic Leaching Procedure (TCLP)
To determine whether a mercury-containing lamp is a hazardous waste, you
could use a test known as the Toxicity Characteristic Leaching Procedure (TCLP).
The TCLP test:
- Identifies whether a waste is hazardous and must be managed as hazardous
- Attempts to replicate the conditions in a municipal landfill to detect a
contaminant's (metal or organic compound) concentration in water that might
leach from the landfill
- Analyzes the leachate after an acidic solution is passed through a sample
of the waste
The waste is determined to be TCLP toxic if the concentration of the contaminant
is greater than the designated standard for that substance. If the substance
fails the TCLP test, it is considered a characteristic hazardous waste. For
more information about testing methods, contact the DEQ Permitting & Compliance
Division at (406) 444-3490.
Even in the absence of disposal regulations, recycling is an environmentally
responsible way to manage spent lamps. Recycling separates toxic substances
such as mercury from the glass, aluminum, and other lamp components that can
be reused. It costs only 10 cents per foot to recycle a fluorescent lamp. Fluorescent
and HID lamps can be recycled regardless of whether the lamp fails the TCLP
Some precautions to take for storing spent lamps:
- Do not break or crush lamps--mercury may be released.
- If storing lamps for recycling facilities, avoid taping lamps together.
- If lamps are accidentally broken, store them in a sealed container.
If your construction or demolition activities involve removal and disposal
of fluorescent or HID lamps, you should monitor changing regulations.
- Resource Conservation and Recovery Act (RCRA)
- 40 CFR 273 Universal Waste Rule. Provides guidelines for managing universal
Best Pollution Prevention Practices
- Proper management of fluorescent and HID wastes.
- Follow state and local landfill requirements for handling and disposing
- Recycle lamps through a licensed and permitted recycling facility.
- If you can't recycle your mercury-containing lamp wastes, and you generate
more than five lamps at a time, follow hazardous waste disposal practices.
POLYCHLORINATED BIPHENYLS (PCBs)
You are most likely to encounter polychlorinated biphenyls (PCBs) during remodeling
or renovation. PCBs were widely used before 1979 as dielectric fluid to insulate
electrical equipment such as capacitors, transformers, switches, and voltage
regulators, and for fluorescent lamp ballasts. PCBs are considered hazardous
because studies have shown them to cause cancer as well as reproductive and
developmental defects in laboratory animals. Handling and disposal of materials
containing PCBs is regulated by federal and state law.
Before disposing of fluorescent ballasts, you should determine if they contain
PCBs. Look to see if the ballast carries a "No PCBs" label.
If it does, then your ballast does not contain PCBs and you don't have to worry
about most of the other information in this section. See the content in this
section under Disposal of PCB Ballasts and Recycling Ballasts for disposal and
General EPA Information About PCBs
In the fall of 1993, the EPA received data from several sources indicating
that PCBs were found in the insulating (potting) compounds of fluorescent light
ballasts generally manufactured prior to 1978 (all ballasts manufactured through
approximately 1978 contain PCBs and some manufactured after 1978 contain PCBs
as well). Ballasts that contain potting compounds that have 50 ppm or more PCBs
(which includes any PCB-containing ballast you will encounter) are termed PCB
Articles. PCB Articles must be stored, transported, and disposed of in accordance
with Toxic Substances Control Act (TSCA) regulations. Contact an EPA Regional
or State Operations Office.
To avoid incurring liability from improperly managed ballasts that have PCB-contaminated
potting compounds, the EPA recommends that untested ballasts or ballasts that
do not carry a "No PCBs" label should be managed as PCB waste.
CERCLA Reporting Requirements
PCB is defined as a hazardous substance under CERCLA (Superfund). CERCLA
lists one pound as the reportable quantity for PCBs when they are disposed of
in a landfill. Each small capacitor in a fluorescent light ballast contains
at least 0.1 pounds of pure PCB. So if you are disposing of 10 or more light
ballasts, you are subject to CERCLA reporting requirements. Reporting places
you on a list of potential Primary Responsible Parties in any subsequent Superfund
cleanup of the landfill. For this reason, you can avoid liability by managing
ballasts in an alternative manner such as recycling.
Two terms you may often come upon when dealing with PCBs:
- Small capacitor - the capacitor contained in the ballast has less than three
pounds of dielectric fluid
- Large capacitor - the capacitor contained in the ballast has more than three
pounds of dielectric fluid
PCB Testing Labs
You can also look for PCB testing labs in the Yellow Pages under "Laboratories-Analytical."
Disposal of PCB Ballasts
EPA has established a policy that recommends against disposing of individual
small PCB capacitors, small PCB capacitors contained in fluorescent light ballasts,
or untested fluorescent light ballast potting compounds as municipal solid waste.
Instead, the EPA encourages you to dispose of non-leaking fluorescent light
ballasts and small PCB capacitors at a TSCA-approved facility. These facilities
include recyclers, landfills, and incinerators that have EPA approvals to dispose
Disposal procedures for PCB ballasts depends on your particular situation:
- The following types of ballasts may be disposed of at a TSCA-approved recycler,
landfill, or incinerator (they may also be disposed of at a licensed Class
II municipal landfill that agrees to accept them, although EPA does not recommend
this disposal method):
- All ballasts without PCBs
- Ballasts that contain PCBs, but are not leaking and have less than three
pounds of dielectric fluid (which should always be the case)
- If the capacitors in your ballasts are leaking, you must send them to an
EPA-approved PCB incinerator. Recycling is not an option.
- Whether your ballasts are leaking or not, you can transport them yourself
or you can hire a certified hauler. If you transport the ballasts yourself,
contact the disposal facility first to make sure your ballasts will be accepted.
Ballasts in a lighting system can be punctured or damaged, exposing an oily,
tar-like substance (the potting compound). If the leaking ballast is identified
as containing PCBs, the ballast and all materials that come in contact with
it are fully regulated and are subject to federal PCB requirements.
Should you encounter a leaking ballast containing PCBs, follow these procedures:
- Immediately (within 24 hours) follow detailed spill procedures outlined
in 40 CFR, Part 761, Subpart G.
- Leaking ballasts must be disposed of in an EPA-approved PCB incinerator.
- You can transport the leaking ballasts yourself or you can hire a certified
hauler. If you transport the ballasts yourself, contact the incinerator first
to make sure your ballasts will be accepted. If you hire a certified hauler,
the leaking ballasts must be manifested for shipment. Some haulers are authorized
as PCB commercial storers and may be used to arrange for the disposal of ballasts
Used, nonleaking ballasts may be recycled even if they contain PCBs. Recycling
reclaims valuable metals, reduces the volume of solid waste sent to landfills,
and prevents toxic substances from being burned in an incinerator or buried
in a landfill.
- Toxic Substances Control Act (TSCA)
- Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA)
- 40 CFR Part 761 Federal regulations governing disposal and liability from
improper disposal of PCB-containing materials.
Best Pollution Prevention Practices
- Safe management of waste contaminated with PCBs.
- Investigate and follow state and local requirements for handling
and disposing of ballasts containing PCBs.
- Recycle PCB-containing ballasts through a licensed and permitted
- If you don't recycle your PCB-containing ballasts, follow hazardous
waste disposal practices.
According to the EPA, approximately three-quarters of the nation's houses built
before 1978 (approximately 64 million dwellings) contain some lead-based paint
(LBP), although lead-based paint is not used in new residential construction.
Lead is also a common component in C&D debris, found in roofs, cornices,
tank linings, and electrical conduits. These materials may leach lead into the
environment if not properly managed. Soft solder, an alloy of lead and tin,
is used in plumbing for soldering joints. Soft solder has been banned from many
uses in the United States.
An estimated one in eleven American children have high lead levels in their
blood. The Centers for Disease Control (CDC) describes lead poisoning as the
most significant, preventable health problem affecting children today. Consumers
are suing contractors for lead contamination that occurs during demolition and
renovation. You can protect yourself by becoming aware of the hazards of lead
poisoning, managing lead-containing demolition debris appropriately, and by
examining your liability carefully (see Section 2-Contractor Liability).
Lead Paint and Real Estate (Title X)
In 1992, Congress passed the Residential Lead-Based Paint Hazard Reduction Act,
also known as Title X, to inform the public about the risks of exposure to lead.
Under Section 1018 of this law, HUD and the EPA require the disclosure of information
on lead-based paint hazards before housing units built before 1978 can be sold
or leased (1978 was the year the Consumer Product Safety Commission banned the
sale or distribution of lead-based paint for residential use).
Owners of residential property regardless of the number of units) built before
- Disclose information to renters or buyers about known lead-based paint and
lead-based paint hazards and provide any available reports on lead in the
- Give renters or buyers the EPA pamphlet Protect Your Family from Lead in
- Include proper warning, notification, and disclosure language in contracts
and leasing agreements.
- Give buyers a 10-day period to test the dwelling for lead.
- Retain signed acknowledgments for three years as proof of compliance.
- Title X 1992 Residential Lead-Based Paint Hazard Reduction Act Real estate
notification and disclosure rule regarding most houses built before 1978.
Facts About Lead
Below is some general information about lead.
- The major source of lead in the home is from contaminated dust (old paint,
contaminated soil, and leaded gasoline/auto exhaust residues).
- Other sources of lead include dust from remodeling and lead in the water
from solder or fixtures.
- Lead-based paint is only a hazard if the paint is damaged (peeling, cracking,
etc.). The presence of the paint itself is not necessarily a hazard. Paint
in good condition poses little threat to health if left undisturbed.
- There is not a completely safe, do-it-yourself way to remove lead-based
- Lead-based paint is most commonly found in areas where high durability is
needed: windows, doors, door frames, woodwork, and furniture.
- Research has shown that small doses of lead, once thought to be harmless,
can cause serious damage to the human body.
- Young children are at the greatest risk for lead poisoning, which can cause
delayed development, reading and learning problems, lowered IQ, hyperactivity,
and discipline problems. Larger doses of lead can cause high blood pressure,
anemia, and kidney disorders (even in adults).
Most buildings constructed before 1960 contain heavily leaded paint. Buildings
constructed as late as 1978 may also contain lead paint. Lead pipe and
solder can be found in all but the most recently constructed buildings.
Operations that generate lead dust and fumes include:
- Using flame-torch cutting or welding or using heat guns on lead painted
surfaces during repair, reconstruction, dismantling, demolition, or abatement
- Abrasive blasting of bridges and other structures containing lead-based
- Sanding, scraping, or grinding lead painted surfaces during repair, reconstruction,
dismantling, demolition, or abatement work.
- Maintaining exhaust duct work.
OSHA and EPA Regulations
In June 1993, OSHA developed new lead exposure standards for workers who
handle materials containing lead. The standards cover safe work practices, worker
exposure limits, labeling, employee training, protective clothing and respirators,
medical surveillance, monitoring, and record keeping. OSHA publishes the handbook
Lead in Construction that describes your responsibilities in these areas. For
a copy of the handbook or for more information, contact either the OSHA.
OSHA Worker Protection Program
Employers of construction workers are responsible for the development and
implementation of a worker protection program in accordance with OSHA regulations
found in 29 CFR, Parts 1926.20 and 1926.62 (e). This program is essential for
minimizing worker risk of lead exposure. The most effective way to protect workers
and minimize the generation of hazardous air emissions and waste is through
the use of safe work practices and engineering controls. Engineering controls
reduce employee exposure in the workplace either by removing or isolating the
hazard or isolating the worker from exposure through the use of technology.
- 29 CFR 1910.133 Federal regulations on eye and face protection.
- 29 CFR 1910.134 Federal regulations on respiratory protection.
- 29 CFR, 1926.20 and 1926.62 Federal regulations on lead exposure for construction
EPA Training Certification Requirements
The EPA is in the process of adopting lead training certification requirements
for lead inspectors, workers, and abatement contractors and supervisors. The
laws and regulations for this action were promulgated in August 1996. At that
time, states and tribes had two years to seek authorization to manage the program.
By the fall of 1998, EPA will manage the program in areas that do not have state/tribal
programs, which includes Montana.
Best Pollution Prevention Practices
- Minimize worker exposure to lead.
- Develop a worker protection program that limits employee exposure
to lead. OSHA's new interim final standards for construction workers
is 50 micrograms of lead per cubic meter of air averaged over an
8-hour workday. Minimal plan elements should include:
- Identifying sources of exposure
- Hazard determination, including exposure assessment
- Exposure monitoring
- Protective clothing, respiratory protection, and equipment
- Select appropriate respiratory devices and monitor effectiveness.
- Determine the effectiveness of work practices in controlling exposures.
- Determine the need for engineering controls.
- Recognize the need for modifying exposure and control practices,
including the need for additional engineering controls.
- Determine the need for medical monitoring.
Best Pollution Prevention Practices
- Minimize the generation of lead-containing wastes.
Engineering and Work Practice Controls
- Do not sand, dry scrape, or burn lead-based paint (this generates
- Increase the length of cutting torches to increase the worker's
distance from the contamination.
- Reduce lead exposure during torch cutting by stripping paint away
from the area to be cut.
- Substitute blasting techniques that are less dusty than abrasive
- (1) wet blasting using high pressure water with or without abrasive
media (be aware that control and disposal of water can be a problem)
- (2) vacuum blasting where a vacuum hood for material removal is
positioned around the exterior of the blasting nozzle
- Use flameless heat guns to remove lead-based paints in residential
housing units. Heat guns should have electronically controlled temperature
settings to allow usage below the HUD limit of 1,100EF.
Heat guns should be equipped with various nozzles to cover all common
- Remove and replace interior woodwork and entire window systems
rather than scraping.
- Cover lead-based paint surfaces with materials such as vinyl wallpaper,
plaster, or wallboard.
- Use coatings that do not contain lead.
- Use chemical strippers to soften and remove lead-based paint (Caution:
many chemical strippers, such as methylene chloride, are toxic or
release toxic by-products when subjected to high temperatures).
- Use exhaust ventilation that is equipped with a dust collection
system to capture lead dust and fumes at the point of generation.
- Use wet cleaning methods (damp mopping or dusting) to reduce the
spread of dust.
- Use vacuum equipment with high-efficiency particulate filters.
- Use non-lead solder.
- Recycle lead pipe removed from demolition jobs (do not reuse).
Respiratory Protection, Protective Clothing, and Equipment
- Establish a respiratory protection program in accordance with
the OSHA standard in 29 CFR 1910.134. Provide an appropriate, clean
respirator that has been approved by the Mine Safety and Health
Administration (MSHA) and the National Institute for Occupational
Safety and Health (NIOSH).
- Provide employees with dry, protective work clothing and equipment
which include coveralls or full-body work clothing; gloves, hats,
and shoes or disposable coverlets; and face shields, vented goggles,
or other appropriate protective equipment that complies with 29
CFR 1910.133. Also provide appropriate changing and hygiene facilities.
- Keep the work site clean. Use either a vacuum with a HEPA filter
or a wet cleaning method when removing lead dust. Never use regular
vacuums or compressed air for cleaning.
- Clean up thoroughly. Mop with a solution of 5% trisodium phosphate
(TSP) in warm water.
- Wash hands and face before eating, drinking, smoking, or applying
- Keep all food away from work areas. Eat, drink, or smoke in areas
outside the work site.
- Shower and change into clean clothes, including shoes, before
leaving the work site so that no lead contamination is carried off-site.
If the material you are examining for lead contamination fails the TCLP
test, it must be considered a hazardous waste and managed accordingly (see Toxicity
Characteristic Leaching Procedure (TCLP) in this section). The entire site should
then be examined for further lead contamination. Discuss options for treatment
or disposal with your client as soon as the contamination is discovered.
One option is to haul the contaminated material to a treatment, storage, or
disposal (TSD) facility.
Disposal of Lead-Based Paint Waste
Disposal of lead-based paint waste is subject to the regulations found in
the Resource Conservation and Recovery Act (RCRA) Subtitle C. Normally,
household wastes are excluded from the RCRA requirements. However, under the
EPA's current reading (May 1994) of the household waste exemption, lead-based
paint is not similar to the waste typically generated by a household. Therefore,
lead-based paint waste generated from construction, demolition, or renovation
activities is not exempt from RCRA Subtitle C and must be managed as hazardous
waste (see Section 8-Hazardous Wastes).
On the other hand, if your lead-based paint waste is generated in small enough
quantities (less than 220 pounds of hazardous waste per month) to meet the requirements
of a conditionally exempt generator (CEG), you may have to comply with fewer
regulations (see Section 8-Hazardous Wastes for information about CEG requirements).
The following documents are available from EPA offices:
- Lead Poisoning and Your Children. EPA 800-B-92-002, Feb 1995
- Protect Your Family From Lead in Your Home. EPA 747-K-94-001, May 1995
- Lead in Drinking Water in Schools and Non-residential Buildings. EPA 812-B-94-002,
- Guidance on Residential Lead-based Paint, Lead-contaminated Dust, and Lead-contaminated
Soil. July 1994
- Reducing Lead Hazards When Remodeling Your Home. EPA 747-R-94-002, April
- EPA and HUD Real Estate Notification and Disclosure Rule. EPA 747-F-96-001,
- Understanding Title X, A Practical Guide to the Residential Lead-Based Paint
Hazard Reduction Act of 1992. Alliance to End Childhood Lead Poisoning
(Fact Sheet 9 of 12)