Knowt
APES 7.5 Indoor Air Pollutants
Enduring Understanding:
Human activities have physical, chemical, and biological consequences for the atmosphere.
Learning Objective:
Identify indoor air pollutants.
Describe the effects of indoor air pollutants.
Essential Knowledge:
Carbon monoxide is an indoor air pollutant that is classified as an asphyxiant.
Indoor air pollutants that are classified as particulates include asbestos, dust, and smoke.
Indoor air pollutants can come from natural sources, human-made sources, and combustion.
Common natural source indoor air pollutants include radon, mold, and dust.
Common human-made indoor air pollutants include insulation, Volatile Organic Compounds (VOCs) from furniture, paneling and carpets; formaldehyde from building materials, furniture, upholstery, and carpeting; and lead from paints.
Common combustion air pollutants include carbon monoxide, nitrogen oxides, sulfur dioxide, particulates, and tobacco smoke.
Radon-222 is a naturally occurring radioactive gas that is produced by the decay of uranium found in some rocks and soils.
Radon gas can infiltrate homes as it moves up through the soil and enters homes via the basement or cracks in the walls or foundation. It is also dissolved in groundwater that enters homes through a well.
Exposure to radon gas can lead to radon-induced lung cancer, which is the second leading cause of lung cancer in America.
Sources
Indoor air pollution can come from natural sources, human-made sources, and combustion
Mold, dust, and radon all come from natural sources
Asbestos and combustion (most of the time) are human-made sources
Types
Mold
Mold can be found in homes, schools, and buildings with poor ventilation
When water leaks and/or there is too much humidity, mold can grow undetected
This may occur after flooding damage
Mold can infect respiratory passageways
This results in eye, nose, and throat irritation
Dust
Dust can contain particulates of different sizes
Particulates are minute separate particles
Particles are identified by their size in nanometers
The two main categories are PM10, coarse matter, and PM2.5, fine matter
Home heating and cooling systems have filters that should be changed regularly
This keeps particulate matter and dust from cycling through the house and irritating the eyes, nose, and throat
Smoke
Spoke produces particulates that irritate and damage respiratory systems
Sources of smoke include candles, fireplaces, cookstoves (wood, charcoal, animal dung), unvented space heaters or kerosene heaters, cigarette smoke, and smoke from nearby wildfires
Most are anthropogenic but wildfires can be natural
Radon
Radon is a gas that results from decaying uranium, and it is odor- and color-less
Some rocks and soils contain uranium, which decays into radon-222
As it does, the gas seeps into the atmosphere
Some gas can get into houses or buildings built on these soils due to cracks in building foundations or basement walls and floors
The Environmental Protection Agency estimates that 1 in 15 homes in the US will have elevated radon levels
Water can also carry radon gas into homes and buildings
People who get their water from a well should test it at least once for radon
Radon decays into radioactive particles, which are inhaled and then deposited in the lungs
The cells of lung tissue become irradiated, damaging the DNA
This is the second leading cause of lung cancer in America
Radon tests can be performed to determine the risk
Monitoring and remediation can reduce the risk of exposure
Sealing cracks and venting easily reduced the risk
Asbestos
Asbestos was originally used as insulation but has been found to cause lung cancer
It is comprised of many small fibers; small enough to get into and clog the blood flow in the alveoli in the lungs
Asbestos works well in the walls and isn’t very dangerous, but once the walls are opened or disturbed, it becomes a problem
Building and Furnishing
There are a number of products we use/d to build and furnish buildings that have negative consequences
For example, lead can be found in older paints and is very dangerous
Volatile Organic Compounds (VOCs) can be found in furniture, paneling, carpets, cleaning supplies, fabric softener, and dryer sheets
Formaldehyde can be found in building materials like treated woods, carpets, glues, and resins
Insulation can contain asbestos in older homes and buildings
Some have been found and are now regulated, but others we are still finding out about
Combustion
Combustion releases a number of air pollutants such as nitrous oxides (NOx), sulfur dioxide (SO2), particulates, smoke, and carbon monoxide
Carbon monoxide is produced when fuel is burned
Certain household items can produce these and other flames that can poison humans and animals
These household items include small engines, stoves, lanterns, grills, fireplaces, furnaces, and cars
Carbon monoxide is considered an asphyxiant, impairing the ability to red blood cells to carry oxygen through the body
CO reacts with hemoglobin in red blood cells to create a molecule that can no longer carry oxygen
This can result in dizziness, nausea, and suffocation in small amounts
In larger amounts, it can kill you, and since CO is odorless and colorless, you wouldn’t know before you’re too weak and disoriented to do anything
APES 7.5 Indoor Air Pollutants
Enduring Understanding:
Human activities have physical, chemical, and biological consequences for the atmosphere.
Learning Objective:
Identify indoor air pollutants.
Describe the effects of indoor air pollutants.
Essential Knowledge:
Carbon monoxide is an indoor air pollutant that is classified as an asphyxiant.
Indoor air pollutants that are classified as particulates include asbestos, dust, and smoke.
Indoor air pollutants can come from natural sources, human-made sources, and combustion.
Common natural source indoor air pollutants include radon, mold, and dust.
Common human-made indoor air pollutants include insulation, Volatile Organic Compounds (VOCs) from furniture, paneling and carpets; formaldehyde from building materials, furniture, upholstery, and carpeting; and lead from paints.
Common combustion air pollutants include carbon monoxide, nitrogen oxides, sulfur dioxide, particulates, and tobacco smoke.
Radon-222 is a naturally occurring radioactive gas that is produced by the decay of uranium found in some rocks and soils.
Radon gas can infiltrate homes as it moves up through the soil and enters homes via the basement or cracks in the walls or foundation. It is also dissolved in groundwater that enters homes through a well.
Exposure to radon gas can lead to radon-induced lung cancer, which is the second leading cause of lung cancer in America.
Sources
Indoor air pollution can come from natural sources, human-made sources, and combustion
Mold, dust, and radon all come from natural sources
Asbestos and combustion (most of the time) are human-made sources
Types
Mold
Mold can be found in homes, schools, and buildings with poor ventilation
When water leaks and/or there is too much humidity, mold can grow undetected
This may occur after flooding damage
Mold can infect respiratory passageways
This results in eye, nose, and throat irritation
Dust
Dust can contain particulates of different sizes
Particulates are minute separate particles
Particles are identified by their size in nanometers
The two main categories are PM10, coarse matter, and PM2.5, fine matter
Home heating and cooling systems have filters that should be changed regularly
This keeps particulate matter and dust from cycling through the house and irritating the eyes, nose, and throat
Smoke
Spoke produces particulates that irritate and damage respiratory systems
Sources of smoke include candles, fireplaces, cookstoves (wood, charcoal, animal dung), unvented space heaters or kerosene heaters, cigarette smoke, and smoke from nearby wildfires
Most are anthropogenic but wildfires can be natural
Radon
Radon is a gas that results from decaying uranium, and it is odor- and color-less
Some rocks and soils contain uranium, which decays into radon-222
As it does, the gas seeps into the atmosphere
Some gas can get into houses or buildings built on these soils due to cracks in building foundations or basement walls and floors
The Environmental Protection Agency estimates that 1 in 15 homes in the US will have elevated radon levels
Water can also carry radon gas into homes and buildings
People who get their water from a well should test it at least once for radon
Radon decays into radioactive particles, which are inhaled and then deposited in the lungs
The cells of lung tissue become irradiated, damaging the DNA
This is the second leading cause of lung cancer in America
Radon tests can be performed to determine the risk
Monitoring and remediation can reduce the risk of exposure
Sealing cracks and venting easily reduced the risk
Asbestos
Asbestos was originally used as insulation but has been found to cause lung cancer
It is comprised of many small fibers; small enough to get into and clog the blood flow in the alveoli in the lungs
Asbestos works well in the walls and isn’t very dangerous, but once the walls are opened or disturbed, it becomes a problem
Building and Furnishing
There are a number of products we use/d to build and furnish buildings that have negative consequences
For example, lead can be found in older paints and is very dangerous
Volatile Organic Compounds (VOCs) can be found in furniture, paneling, carpets, cleaning supplies, fabric softener, and dryer sheets
Formaldehyde can be found in building materials like treated woods, carpets, glues, and resins
Insulation can contain asbestos in older homes and buildings
Some have been found and are now regulated, but others we are still finding out about
Combustion
Combustion releases a number of air pollutants such as nitrous oxides (NOx), sulfur dioxide (SO2), particulates, smoke, and carbon monoxide
Carbon monoxide is produced when fuel is burned
Certain household items can produce these and other flames that can poison humans and animals
These household items include small engines, stoves, lanterns, grills, fireplaces, furnaces, and cars
Carbon monoxide is considered an asphyxiant, impairing the ability to red blood cells to carry oxygen through the body
CO reacts with hemoglobin in red blood cells to create a molecule that can no longer carry oxygen
This can result in dizziness, nausea, and suffocation in small amounts
In larger amounts, it can kill you, and since CO is odorless and colorless, you wouldn’t know before you’re too weak and disoriented to do anything