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Work Climate

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Title: Work Climate


1
Work Climate Toxicology
  • Indoor Air Quality
  • Comfort
  • Heat Stress
  • Cold Stress

2
Indoor Air Quality (IAQ)
  • Coinciding with energy insulation improvements,
    building air quality has degraded.
  • IAQ sometimes exceeds Environmental Protection
    Agency (EPA) limits for OUTDOOR air quality!
  • ACGIH(American Council of Governmental Industrial
    Hygienists) has established IAQ standards for
    industrial applications only. NO residential or
    commercial standards currently exist.

3
Symptoms of Air Quality Problems
  • Periodic/chronic exposure
  • Headaches, allergies, coughing
  • Irritation of mucous membranes such as the nose,
    mouth, throat and lungs
  • Tearing, redness, and irritation of the eyes
  • Mood swings, fatigue, irritability
  • Chronic exposure
  • Damage to the liver, kidney, lungs, brain
  • Cancer, death

4
Testing of IAQ
  • Dangerous compounds, such as carbon monoxide or
    methane (without added odorant) cannot be
    detected w/o special equipment
  • Some dangerous particulates, such as asbestos
    fibers, do not cause problems until 20 yrs after
    inhalation
  • Certified Industrial Hygienists usu perform the
    IAQ tests or passive systems can be used

5
Ventilation
  • ASHRAE (Amer. Society of Heating, Refrigeration,
    and Air-Conditioning Engrs) standards include
    air, odor, vent volume.
  • Insufficient ventilation and tight buildings can
    lead to sick building syndrome interior
    pollutants are not dispersed (car exhaust,
    cigarette smoke, mites and fungi, etc.)
  • Location of supply and return vents are important
    considerations

6
Air Volume and Quality
  • Volume of air required is proportional to local
    contaminants.
  • Carbon dioxide may be limiting.
  • Body odors and cigarette smoke can be
    contaminants.
  • For forced-air heating and cooling, ventilation
    volume may be determined by room temperature.

7
Shop Environments
  • Local contaminants, such as dust and fumes may
    pollute the air.
  • Solution strategies
  • Decrease the concentration of the contaminant.
  • Reduce worker exposure duration.
  • Consider ventilation.

8
Area Ventilation
  • Use when contaminant sources are diffuse.
  • Keep the contaminant source downwind from the
    person.
  • Locate the source as close to the exhaust as
    possible.

9
Local Ventilation
  • Capture the contaminant directly.
  • Dump exhaust air outdoors or filter it.
  • Make filter systems fail-safe.
  • For explosive substances, TLV (threshold limit
    value) is a concern.
  • Consider reusing the air after filtration
    (usually done with office air).

10
Comfort
  • Ultimate objective of any HVAC system is to
    maximize human thermal comfort.
  • This comfort is maximized by establishing a heat
    balance between the occupant and his/her
    environment.
  • The body can exchange heat via conduction,
    convection or radiation
  • Air temperature, humidity, clothing, air motion
    and surface temp of surroundings all affect rate
    that a human body can dissipate heat

11
Ex For 80F (dry bulb) w/ 80 humidity Wet bulb
75F Dew pt 73F Enthalpy38
Comfort Zone
12
Psychrometric Charts
  • Find the relative humidity, then find the dry
    bulb temperature that intersects

A
A Humidifying only B Heating and humidifying C
Sensible heating only D Chemical
dehumidifying E Dehumidifying only F Cooling
and dehumidifying G Sensible cooling only H
Evaporative cooling only
H
B
G
C
F
D
E
13
Compensating Factors
  • Clothing
  • Activity
  • Air velocity
  • Mean radiant temperature
  • Time of exposure
  • Time of Day, Season of year
  • Gender Age of occupant

14
Individual Adjustment
  • Conventional approach is to set conditions to
    match comfort zone.
  • Desktop controls allow individuals to set their
    own conditions.
  • Occupancy sensors turn off equipment, lights,
    fans.
  • Energy savings may be substantial.

15
Heat Stress
  • Heat effects measured officially by body core
    temperature
  • Core temps over 38C can cause damage such as
    infertility, birth defects in pregnant womens
    fetuses
  • Work performance decreases as heat peaks,
    although motivation can overcome this effect
  • Illnesses include heat stroke (most severe), heat
    exhaustion, heat cramps, and heat disorders, such
    as rashes, dehydration

16
Reduction of Heat Stress
  • Homeostasis the body automatically
    thermoregulates itself.
  • The hypothalmus compares this with the bodys
    setpoint.
  • The difference can cause sweating, shivering,
    blood vessel vasodilation
  • Work, metabolism, clothing can affect

17
Reduction of Heat Stress
  • Consider human body heat storage.
  • Reduce metabolic rate (by mechanization, working
    slower).
  • Consider work being done.
  • Reduce radiant load (work in the shade, use heat
    shielding, or wear long sleeves).
  • Maximize convective heat loss (more air).
  • Increase evaporative heat transfer (less humid).
  • Consider conductive cooling (such as ice vests).

18
Cold Stress
  • Extreme cold gives loss of mental performance and
    decreased manual dexterity.
  • Wind Chill Index gives us a combined effect
    measurement of air velocity, temp
  • Clothing, or avoidance are the primary defense
    against cold stress
  • Vigilance decreases when the core temperature
    drops

19
Protection Against Cold Stress
  • Layer clothing.
  • Shoes should accommodate two pairs of socks.
  • Keep clothing dry.
  • Protect the head.
  • Warm the hands by wearing a jacket.
  • For exercise, use breathable fabrics.
  • Reduce air velocity.

20
Other Factors in Cold Stress
  • Cover vents or use diffusers or deflectors.
  • Keep floor temperature at 73.5º in offices.
  • Avoid contact with cold metal.
  • Drink fluids to prevent dehydration.
  • Avoid caffeine (a vasodilator).

21
Toxicology
  • Deals with the long-term effects of foreign
    chemicals upon the body
  • Depend on type and amount, can be either critical
    or cumulative (like CTDs)
  • May be a long lag between exposure and response
    (e.g., asbestos)

22
Poisons
  • Effects often tested on animals ?
  • Threshold Limit Values (TLVs) help determine
    whether effects are reversible or not
  • TLVs are directly proportional to body mass,
    target organ susceptibility

23
Threshold Limit Values
  • Issued by American Conference of Governmental
    Industrial Hygienists.
  • Three different types
  • Time-weighted average (TLV-TWA) recognizes
    chronic effects
  • Short-term exposure limit (TLV-STEL) concerned
    with acute effects
  • Ceiling (TLV-C) an absolute limit of
    concentration

24
Poison Delivery Routes
  • Skin Natural barrier is compromised with open
    cuts/abrasions
  • Mouth Forbid eating/drinking/smoking in a work
    area to avoid ingestion
  • Lungs Particle size determines what is inhaled,
    retained. Small particles are more dangerous
    (lt10 mm).

25
Toxicology Controls
  • Can be via engineering, administrative or
    personal protection methods

Table 26.2
26
Personal Protection
  • Least desirable approach consider engineering or
    administrative controls instead!
  • Should be professionally fitted
  • May involve completely sealed bodysuit and hood,
    or just a face mask and gloves
  • May need SCBA (self-contained breathing
    apparatus) training
  • Beards and face masks dont mix
  • Verbal communication is extremely difficult
  • Need to shower isolate clothing after removal
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