We also do methamphetamine testing and inspections...1-800-665-3522 or 1-800-665-3522. Methamphetamine
use today is becoming an epidemic with labs discovered in such structures as single family dwellings, mobile homes, vehicles,
hotels, open air structures; in both urban, suburban and rural areas.
Clandestine labs have become prevalent
across America. They are used for the illicit production of illegal drugs, mostly methamphetamine, PCP, GHB, or MDA (Ecstasy).
Some labs have even been found with the raw materials used to concoct homemade bombs. Law enforcement departments have seen
a significant rise in occurrences over the last ten years. The hazardous materials found on these premises have to be properly
inspected, tested, and cleaned up. In a three year span between 2000-2002 there were over 7500 removal jobs totally over 150,000
kg of hazardous materials. A thorough understanding of the many challenges involved in working at these sites and properly
abating the hazards is crucial.
Types of hazards associated with clandestine labs Individuals usually operate
these makeshift labs with little to no training in chemistry. They employ crude homemade equipment to accomplish complex and
dangerous chemical reactions. Due to the nature of the chemicals involved there is significant risk of explosion, fire and
exposure. Clandestine lab operators have also been known to carry firearms and use booby traps; due to the paranoid delusions
associated with meth usage.
The chemical agents used in the production of illegal drugs can include common household
products such as methanol, ether, benzene, methylene chloride, trichloroethane, toluene, muriatic acid, sodium hydroxide,
table salt, and ammonia. Some of the uncommon household items used include anhydrous ammonia, red phosphorus, iodine, and
reactive metals. The poor handling, disposal, and mixing of incompatible chemicals leads to significant hazardous conditions.
Once these chemicals are mixed and used in the making or `cooking` process, the production of other potentially harmful chemicals
ensue.
Oftentimes, abatement workers focus strictly on the chemical hazards. However, there may be drug addicts
and other visitors coming to the lab expecting it to still be operational. Wandering meth users tend to be dillusional, paranoid
and desperate. Your personal protection can be at stake.
Health effects related to exposure - 770 590-7880 or
1-800-MOLDLAB or 1-800-665-3522
Working in clandestine drug labs poses significant dangers that one must be aware
of or serious health effects could develop including the most extreme case of death. Knowledge of basic toxicology is crucial.
The effect of a chemical can differ significantly depending on how it enters the body. Entry routes include inhalation, dermal
absorption, and ingestion. Inhalation is the most common route of entry since we are continuously breathing. Noxious chemicals
that are breathed in can rapidly enter the circulatory system (blood) and get transported throughout the body. Since we are
performing manual labor during abatement of the lab our respiratory rate is higher leading to greater exposure. Inhalation
exposure also depends on the size of the inhaled particles and the properties of the exposed chemical. Chemicals with higher
solubilities tend to get absorbed into the blood system faster. Toxins can also be absorbed through the skin. Although one
may not feel pain or discomfort when the chemical contacts the skin, once it is absorbed it can travel throughout the body
in the blood. Ingestion is the least likely exposure method but workers should be wary of eating and drinking within the confines
of the lab.
Solvents such as acetone, ether, freon, hexane, methanol, and toluene target the eyes, skin, respiratory
system, central nervous system, liver, and kidneys causing such symptoms as irritation to skin, eyes, nose and throat; headache;
dizziness; central nervous system depressant/depression; nausea; vomiting; and visual disturbance. Corrosive chemicals such
as anhydrous ammonia, hydrochloric acid, sodium hydroxide (lye), sodium thiosulfate, sulfuric acid (drain cleaner) target
the eyes, skin, and respiratory tract causing symptoms such as irritation to upper respiratory tract; cough; eye and skin
irritation, inflammation and burns; gastrointestinal disturbances; thirst; chest tightness; dyspnea; muscle pain; syncope;
and convulsions. Metals such as iodine, lithium metal, red phosphorus, yellow phosphorus, sodium metal used in the process
can target the eyes, skin, respiratory system, central nervous system, liver, kidneys, blood, cardiovascular system causing
irritation to eyes, skin, nose and respiratory tract; lacrimation; headache; chest tightness; cutaneous hypersensitivity;
abdominal pain; and jaundice.
Sampling and laboratory analysis (basic, short and sweet)
Many States
have specific guidelines for clearance testing associated with clandestine laboratories. For clandestine methamphetamine operations,
the clearance contractor is usually required to wipe surfaces and send the samples to an accredited laboratory. NIOSH and
OSHA have not published validated methods for the analysis of methamphetamine in air. OSHA has published a CSI (Chemical Sampling
Information) procedure that utilizes gas chromatography with flame ionization detection (GC/FID). However, most states require
gas chromatography with mass spectrometry (GC/MS). Detection limit requirements are sub microgram methamphetamine per wipe.
Samples can be taken from kitchen areas of the home where cooking activities are intensified. The clearance contractor
should take samples from the refrigerator (inside and out), the stove/oven, and the gap between the counter and the stove
where those nasty little toast crumbs build up.
Testing should also be performed where a wall or floor meets a
cold/warmer exterior. The meth will tend to crystallize out at these temperature transition interfaces. HVAC ductwork should
be inspected as well for settled residue. The vehicles used in transportation, if clearance is required, may need wipe testing.
Dashboards and seats can be wiped and submitted for testing.
When searching for testing services, it is important
to make sure your laboratory is aware of the clearance testing requirements for your State´s program. Also, make sure
that the required instrumentation is available for use. Lastly, make sure the detection limits will meet your clearance needs.
Other types of laboratory testing may also be required that are related to the chemicals used in the manufacture
of the illegal drug. The alchemist cooker may have used a variety of solvents and reactive metals to produce his/her illicit
powders. Be sure to consult RCRA and State regulations regarding the testing and disposal of drummed wastes, building materials,
carpet, wallboard, ceiling tiles, furniture, and appliances.
There may be toxic materials buried or dumped in the surrounding
grounds. A thorough investigation of the entire property is required.
Abatement & Hazardous Materials Handling
Guidelines - 770 590-7880 Atlanta 1-800-665-3522 Chicago and Atlanta areas.
Only trained personnel should be handling
any chemicals. These individuals must be able to recognize chemical names and understand the effect of chemical combinations.
Separating any incompatible chemicals can reduce the risk of explosion. Ventilate all confined spaces thereby limiting the
concentration of explosive fumes and turn off any heat sources. Make sure all the lab equipment is turned off and no longer
heating the
chemicals.
Household materials, including carpets, sheetrock, ceiling tiles, upholstery, and
draperies, may become contaminated with chemicals requiring abatement. During cleanup and removal of contaminated materials,
workers should have personal protection equipment. This includes eye, hand, and foot coverings. Disposable gloves and a Tyvek
jumpsuit are good precautions for direct contact exposure but if toxic fumes are suspected then a suitable breathing apparatus
is needed. More often then not, abatement includes removal of contaminated materials, and scrubbing and painting solid surfaces.
Depending on the site and extent of contamination, soil and groundwater may need extensive cleanup.
We
also do methamphetamine testing and inspections...1-800-665-3522 or 1-800-665-3522. Methamphetamine use today is
becoming an epidemic with labs discovered in such structures as single family dwellings, mobile homes, vehicles, hotels, open
air structures; in both urban, suburban and rural areas.
Clandestine labs have become prevalent across America.
They are used for the illicit production of illegal drugs, mostly methamphetamine, PCP, GHB, or MDA (Ecstasy). Some labs have
even been found with the raw materials used to concoct homemade bombs. Law enforcement departments have seen a significant
rise in occurrences over the last ten years. The hazardous materials found on these premises have to be properly inspected,
tested, and cleaned up. In a three year span between 2000-2002 there were over 7500 removal jobs totally over 150,000 kg of
hazardous materials. A thorough understanding of the many challenges involved in working at these sites and properly abating
the hazards is crucial.
Types of hazards associated with clandestine labs Individuals usually operate these makeshift
labs with little to no training in chemistry. They employ crude homemade equipment to accomplish complex and dangerous chemical
reactions. Due to the nature of the chemicals involved there is significant risk of explosion, fire and exposure. Clandestine
lab operators have also been known to carry firearms and use booby traps; due to the paranoid delusions associated with meth
usage.
The chemical agents used in the production of illegal drugs can include common household products such
as methanol, ether, benzene, methylene chloride, trichloroethane, toluene, muriatic acid, sodium hydroxide, table salt, and
ammonia. Some of the uncommon household items used include anhydrous ammonia, red phosphorus, iodine, and reactive metals.
The poor handling, disposal, and mixing of incompatible chemicals leads to significant hazardous conditions. Once these chemicals
are mixed and used in the making or `cooking` process, the production of other potentially harmful chemicals ensue.
Oftentimes, abatement workers focus strictly on the chemical hazards. However, there may be drug addicts and other visitors
coming to the lab expecting it to still be operational. Wandering meth users tend to be dillusional, paranoid and desperate.
Your personal protection can be at stake.
Health effects related to exposure - 770 590-7880 or 1-800-MOLDLAB or
1-800-665-3522
Working in clandestine drug labs poses significant dangers that one must be aware of or serious
health effects could develop including the most extreme case of death. Knowledge of basic toxicology is crucial. The effect
of a chemical can differ significantly depending on how it enters the body. Entry routes include inhalation, dermal absorption,
and ingestion. Inhalation is the most common route of entry since we are continuously breathing. Noxious chemicals that are
breathed in can rapidly enter the circulatory system (blood) and get transported throughout the body. Since we are performing
manual labor during abatement of the lab our respiratory rate is higher leading to greater exposure. Inhalation exposure also
depends on the size of the inhaled particles and the properties of the exposed chemical. Chemicals with higher solubilities
tend to get absorbed into the blood system faster. Toxins can also be absorbed through the skin. Although one may not feel
pain or discomfort when the chemical contacts the skin, once it is absorbed it can travel throughout the body in the blood.
Ingestion is the least likely exposure method but workers should be wary of eating and drinking within the confines of the
lab.
Solvents such as acetone, ether, freon, hexane, methanol, and toluene target the eyes, skin, respiratory
system, central nervous system, liver, and kidneys causing such symptoms as irritation to skin, eyes, nose and throat; headache;
dizziness; central nervous system depressant/depression; nausea; vomiting; and visual disturbance. Corrosive chemicals such
as anhydrous ammonia, hydrochloric acid, sodium hydroxide (lye), sodium thiosulfate, sulfuric acid (drain cleaner) target
the eyes, skin, and respiratory tract causing symptoms such as irritation to upper respiratory tract; cough; eye and skin
irritation, inflammation and burns; gastrointestinal disturbances; thirst; chest tightness; dyspnea; muscle pain; syncope;
and convulsions. Metals such as iodine, lithium metal, red phosphorus, yellow phosphorus, sodium metal used in the process
can target the eyes, skin, respiratory system, central nervous system, liver, kidneys, blood, cardiovascular system causing
irritation to eyes, skin, nose and respiratory tract; lacrimation; headache; chest tightness; cutaneous hypersensitivity;
abdominal pain; and jaundice.
Sampling and laboratory analysis (basic, short and sweet)
Many States
have specific guidelines for clearance testing associated with clandestine laboratories. For clandestine methamphetamine operations,
the clearance contractor is usually required to wipe surfaces and send the samples to an accredited laboratory. NIOSH and
OSHA have not published validated methods for the analysis of methamphetamine in air. OSHA has published a CSI (Chemical Sampling
Information) procedure that utilizes gas chromatography with flame ionization detection (GC/FID). However, most states require
gas chromatography with mass spectrometry (GC/MS). Detection limit requirements are sub microgram methamphetamine per wipe.
Samples can be taken from kitchen areas of the home where cooking activities are intensified. The clearance contractor
should take samples from the refrigerator (inside and out), the stove/oven, and the gap between the counter and the stove
where those nasty little toast crumbs build up.
Testing should also be performed where a wall or floor meets a
cold/warmer exterior. The meth will tend to crystallize out at these temperature transition interfaces. HVAC ductwork should
be inspected as well for settled residue. The vehicles used in transportation, if clearance is required, may need wipe testing.
Dashboards and seats can be wiped and submitted for testing.
When searching for testing services, it is important
to make sure your laboratory is aware of the clearance testing requirements for your State´s program. Also, make sure
that the required instrumentation is available for use. Lastly, make sure the detection limits will meet your clearance needs.
Other types of laboratory testing may also be required that are related to the chemicals used in the manufacture
of the illegal drug. The alchemist cooker may have used a variety of solvents and reactive metals to produce his/her illicit
powders. Be sure to consult RCRA and State regulations regarding the testing and disposal of drummed wastes, building materials,
carpet, wallboard, ceiling tiles, furniture, and appliances.
There may be toxic materials buried or dumped in the surrounding
grounds. A thorough investigation of the entire property is required.
Abatement & Hazardous Materials Handling
Guidelines - 770 590-7880 Atlanta 1-800-665-3522 Chicago and Atlanta areas.
Only trained personnel should be handling
any chemicals. These individuals must be able to recognize chemical names and understand the effect of chemical combinations.
Separating any incompatible chemicals can reduce the risk of explosion. Ventilate all confined spaces thereby limiting the
concentration of explosive fumes and turn off any heat sources. Make sure all the lab equipment is turned off and no longer
heating the
chemicals.
Household materials, including carpets, sheetrock, ceiling tiles, upholstery, and
draperies, may become contaminated with chemicals requiring abatement. During cleanup and removal of contaminated materials,
workers should have personal protection equipment. This includes eye, hand, and foot coverings. Disposable gloves and a Tyvek
jumpsuit are good precautions for direct contact exposure but if toxic fumes are suspected then a suitable breathing apparatus
is needed. More often then not, abatement includes removal of contaminated materials, and scrubbing and painting solid surfaces.
Depending on the site and extent of contamination, soil and groundwater may need extensive cleanup. |
