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Chapter 25: Indoor Air Pollution

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Title: Chapter 25: Indoor Air Pollution


1
Chapter 25 Indoor Air Pollution
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Sources of Indoor Air Pollution
  • Secondhand smoke
  • Most hazardous common indoor air pollutant
  • Legionella pneumophila
  • Bacterium that causes a type of pneumonia called
    Legionnaires disease when inhaled.
  • Some molds (fungal growths) in buildings release
    toxic spores.
  • Cause chronic inflammation and scarring of lungs

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Sources of Indoor Air Pollution
  • Radon gas
  • seeps up naturally from soils and rocks below
    buildings
  • Thought to be the second most common cause of
    lung cancer.
  • Pesticides
  • Deliberately or inadvertently applied in
    buildings to control pest
  • Are toxic to people as well

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Sources of Indoor Air Pollution
  • Some varieties of asbestos
  • Known to cause a particular type of lung cancer
  • Formaldehyde
  • A VOC, used in many materials found in homes and
    offices.
  • Emit formaldehyde as a gas into buildings.
  • Dust mites and pollen
  • irritate the respiratory system, nose, eyes, and
    skin of people who are sensitive to them.

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Dust mite
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Pollen grains
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Sources of Indoor Air Pollution
  • Common indoor air pollutants are often highly
    concentrated compared with outdoor levels.
  • Why?
  • There are so many potential indoor sources of
    pollutants. (Furniture, beds, carpet, plastics)
  • The effectiveness of the steps we have taken to
    conserve energy in buildings (ie, weather
    stripping) has led to the trapping of pollutants
    inside.

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Heating, Ventilation, and Air-Conditioning Systems
  • Systems are designed to provide a comfortable
    indoor environment for people.
  • Design depends on a number of variables
  • Including the activity of people in the building,
    air temperature and humidity, and air quality.
  • Done correctly it will
  • Provide thermal comfort for people inhabiting the
    building.
  • Provide the necessary ventilation (utilizing
    outdoor air)
  • Remove common air pollutants via exhaust fans and
    filters

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Pathways, Processes, and Driving Forces
  • Many air pollutants originate within buildings
    and may be concentrated there because of lack of
    proper ventilation.
  • Other air pollutants may enter by infiltration,
  • Through cracks and other openings in the
    foundations and walls (Radon, VOCs)
  • Or by way of ventilation systems. (proximity to
    roads)

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Pathways, Processes, and Driving Forces
  • A chimney effect (or stack effect)
  • Occurs when there is a temperature differential
    between the indoor and outdoor environments.
  • Warmer air rises in the building to the upper
    levels, it is replaced in the lower portion of
    the building by outdoor air.
  • Secondhand smoke, may also be drawn into a
    building by the chimney effect.

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Building Occupants
  • People living or working in particular indoor
    environments react to pollutants in different
    ways
  • Some groups of people are particularly
    susceptible to indoor air pollution problems.
  • The symptoms reported by people in a particular
    environment vary.
  • In some cases, the symptoms reported result from
    factors other than air pollution.

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Particularly Susceptible People
  • A persons susceptibility to a particular air
    pollutant also depends on genetic factors,
    lifestyle, and age.
  • Sometimes a matter of concentration rather than
    susceptibility.
  • Older people and children are generally more
    sensitive.
  • People suffering from chronic lung or respiratory
    diseases are more susceptible.
  • Individuals who have suppressed immune systems.
  • Some people, when exposed to chemicals, develop
    multiple chemical sensitivity (MCS).

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Symptoms of Indoor Air Pollution
  • A great variety of symptoms can result from
    exposure to indoor air pollutants.
  • Nosebleeds, chronic sinus infections, headaches,
    and irritation of the skin or eyes, nose, and
    throat.
  • More serious problems include loss of balance and
    memory, chronic fatigue, difficulty in speaking,
    and allergic reactions, including asthma.
  • Other pollutants cause dizziness or nausea.
  • Radon, asbestos, and chemicals such as benzene,
    may have long-term chronic health effects
    (cancer).

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Sick Buildings
  • There are two types of sick buildings
  • Buildings w/ identifiable problems
  • Occurrences of toxic molds or bacteria known to
    cause disease.
  • Diseases are known as building-related illnesses
    (BRI).
  • Buildings w/ sick building syndrome (SBS)
  • Symptoms people report cannot be traced to any
    one known cause.

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Sick Buildings
  • When the cause is not detected. A number of
    things may be happening
  • The complaints result from the combined effects
    of a number of contaminants present in the
    building.
  • Environmental stress from another source is
    responsible.
  • Employment-related stress may be leading to the
    symptoms reported.
  • Pollutants or toxins may be present but not
    identified.

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Environmental Tobacco Smoke
  • Environmental tobacco smoke (ETS)
  • Secondhand smoke
  • Comes from two sources
  • smoke exhaled by smokers
  • smoke emitted from burning tobacco in cigarettes,
    cigars, or pipes.
  • People who are exposed to ETS are referred to as
    passive smokers.

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Environmental Tobacco Smoke
  • It is hazardous for the following reasons
  • Tobacco smoke contains several thousand
    chemicals, many of which are irritants.
  • Studies of nonsmoking workers exposed to ETS
    found that they have reduced airway functions,
    suffer more illnesses, and lose more work time
    than those not exposed to ETS.
  • In the US, about 3,000 deaths from lung cancer
    and 40,000 deaths from heart disease a year are
    thought to be associated with ETS.

23
Radon Gas
  • Radon is a naturally occurring radioactive gas
    that is colorless, odorless, and tasteless.
  • Radioactive decay chain from radiogenic uranium
    to stable lead
  • Radon-222 has a half-life of 3.8 days, is the
    product of radioactive decay of radium-226.
  • Radon decays with emission of an alpha particle
    to polonium-218, which has a half-life of 3
    minutes

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Geology and Radon Gas
  • The concentration of radon gas that reaches the
    surface of the Earth and thus can enter our
    dwellings is
  • Related to the concentration of radon in the
    rocks (generally granitic rock) and soil.
  • Some regions in the United States contain bedrock
    with an above-average natural concentration of
    uranium.

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How Does Radon Gas Enter Building?
  • Radon gas enters homes and other buildings in
    three main ways
  • 1. It migrates up from soil and rock into
    basements and lower floors.
  • 2. Dissolved in groundwater, it is pumped into
    wells and then into homes.
  • 3. Radon-contaminated materials, such as building
    blocks that are used in construction.

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Radon Resistant Techniques for Homes and Other
Building
  • Protection is straightforward and relatively
    inexpensive.
  • Techniques are variable depending on the type of
    foundation a particular home has,
  • The basic strategy is to prevent radon from
    entering
  • And to safely ensure that radon is removed from
    the home site.

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  • A. Gas Permeable Layer
  • Allow the soil gas to move freely underneath the
    house.
  • B. Plastic Sheeting
  • Help prevent the soil gas from entering the home.
  • C. Sealing and Caulking
  • Openings in the concrete foundation floor are
    sealed to reduce soil gas entry into the home.

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  • D. Vent Pipe
  • A PVC pipe runs from the gas-permeable layer
    through the house to the roof to safely vent
    radon above the house.
  • E. Junction Box
  • An electrical junction box is installed if an
    electric venting fan is needed.

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Indoor Air Pollution and Green Buildings
  • Building green.
  • The processes involves using building designs
    that result in less pollution and better use of
    resources.
  • Providing for a good indoor environmental quality
    is a significant part.
  • Designing, constructing, and maintaining
    buildings that minimize indoor air pollutants.
  • Ensuring that fresh air is supplied and
    circulated, and managing moisture content to
    remove the threat of moisture-related problems
    such as mold.

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Control of Indoor Air Pollution
  • There are strong financial incentives to provide
    workers w/ a clean air environment.
  • A good starting point would be passing
    environmental legislation requiring minimum
    indoor air quality standards.
  • Including increases in the inflow of fresh air
    through ventilation. This concept is at odds
    with the principles of Energy Efficiency.

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Control of Indoor Air Pollution
  • One of the principal means for controlling
    quality is by dilution
  • Fresh outdoor air mixed via a ventilating
    air-conditioning system and windows that can be
    opened.
  • Various types of air-cleaning systems reduce
    potential pollutants
  • Such as particles, vapors, and gases.
  • Can be installed as part of the heating,
    ventilation, and AC system or as stand-alone
    appliances.

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Control of Indoor Air Pollution
  • Education also plays an important role
  • May involve deciding not to install unvented or
    poorly vented appliances.
  • Educated people are more aware of their legal
    rights with respect to product liability and
    safety.
  • Education provides people with the information
    necessary to make decisions concerning exposure
    and strategies to avoid potentially hazardous
    conditions in the home and workplace.
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