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Threshold Limit Values for Chemical Substances

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Title: Threshold Limit Values for Chemical Substances


1
Threshold Limit Values for Chemical Substances
  • Adopted by ACGIH with Intended Changes

2
Policy Statement
  • The TLVs (Threshold Limit Values) are designed as
    guidelines to have a control on health hazards.
  • These are not developed for use as legal
    guidelines and ACGIH does not advocate their use
    as such.
  • No individual other than someone trained in this
    discipline can apply these guidelines .

3
Points to remember
  • TLVs represent conditions to which all workers
    may be repeatedly exposed day after day without
    adverse health effects.
  • Persons previously having health problems might
    be affected seriously.
  • The latest TLV documentation should be referred
    to get complete information of a chemical as TLV
    is revised often.

4
Threshold limit value -Time weighted average
(TLV-TWA)
  • This is the concentration averaged over an 8 hr.
    workday and a 40 hr. workweek, to which the
    worker may be xeposed day after day without
    adverse affect.
  • TLV values (2000)
  • Acetophenone - 10 ppm.
  • Carbon monoxide - 25 ppm.
  • Benzene - 10 ppm.
  • Cobalt carbony - 0.1 ppm.
  • Formic acid - 5 ppm.

5
Threshold limit value-Short-term Exposure limit
  • The concentration to which workers can be
    exposed continuously for a short period of time
    without suffering from
  • Irritation
  • Chronic or irreversible tissue damage
  • Narcosis of sufficient degree to increase the
    likelihood of accidental injury, impair
    self-rescue or materially reduce work efficiency
  • and provided that the daily TLV-TWA is not
    exceeded.
  • STEL values (2000)
  • Acrolein -
    0.3 ppm.
  • Ammonia - 35
    ppm.
  • Chlorine dioxide -0.3
    ppm.
  • Decaborane -0.15
    ppm.

6
Threshold limit value- ceiling (TLV-C)
  • This is the concentration that should not be
    exceeded during any part of the working exposure.
  • If instantaneous monitoring is not feasible, then
    the TLV-C can be assessed by sampling over a 15
    minute period.
  • For some substances only TLV-C may be relevant.
  • For some substances more than one categories may
    be relevant depending on their physiologic
    condition. If any of the TLVs is exceeded a
    potential hazard is presumed to exist.
  • TLV-C values (2000)
  • n-Butanol
    - 152 ppm.
  • tert-Butyl chromate
    - 0.1 ppm.
  • Ehtylene Glycol vapor and myst -50
    ppm.
  • Glutaraldehyde
    -0.2 ppm.

7
How does TWA and C differs?
  • Ceiling limit is best suited for chemicals that
    are fast acting and do not have a good control by
    the use of TWA.
  • TWA requires an explicit limit to the excursions
    that are permissible above the limited TLVs,
    whereas the ceiling limit places a definite
    boundary.

8
Excursion limits
  • Even if the 8 hr. TLV-TWA is within limits
    excursions above the TLV-TWA should be controlled
  • The maximum recommended excursion should be
    related to variability generally observed in
    actual industrial processes.
  • During a workday, excursions may exceed 3 times
    the TLV-TWA for no more than a total of 30
    minutes and under no circumstances should they
    exceed 5 times the TLV-TWA and under no case the
    TLV-TWA should be exceeded.
  • where TLV-TWA is threshold limit value-Time
    weighted average.

9
Skin notation
  • Listed substances followed by the designation
    skin refer to the potential significant
    contribution to the overall exposure by the
    cutaneous route, including mucous membranes and
    the eyes, either by contact with vapors or, of
    probable greater significance, by direct skin
    contact with the substance.
  • Materials having a relatively low dermal LD50
    would be given a skin notation based on acute
    animal toxicity data.
  • It alerts that air sampling alone is
    insufficient to accuaratey measure quantitative
    exposure to prevent cutaneous absorption.
  • Skin Chemicals
  • Aminodiphenyl.
  • Butoxyethanol.
  • Catechol.
  • Cresol.
  • HexaChlorobenzene.

10
Mixtures
  • Special consideration should be given also to the
    application of the TLVs in assessing the health
    hazards that may be associated with exposure to
    mixtures of two or more substances.
  • TLV of a mixture
  • If, TLV c1/t1c2/t2....cn/tn
  • exceeds unity, then the Threshold Limit of
    the mixture is considered to be exceeded.
  • where,
  • c1,c2. cn are concentrations of
    different
    substances in a mixture, and
  • t1,t2. tn are TLVs of corresponding
    substances.

11
Respirable and Inhalable dust
  • TLVs are expressed in terms of inhalable dust for
    solid substances and liquefied mists, except
    where the term respirable dust is used.
  • The particle size-selective TLVs (PPS-TLVs)
    are expressed in 3 forms
  • Inhalable Particulate Mass TLVs (IPM-TLVs).
  • Thoracic Particulate Mass TLVs (TPM-TLVs).
  • Respirable Particulate Mass TLVs (RPM-TLVs).

12
Particles not otherwise classified (PNOC)
  • Many substances are not on the list for which
    there are no evidence of toxic effects.
  • TLV committee recommends the use of the term
    PNOC to emphasize that these materials are
    potentially toxic.
  • Particulates under PNOC heading are those
    containing no asbestos and lt 1 crystalline
    silica.
  • For otherwise non-toxic dusts
  • Inhalable particulate
    -TLV-TWA 10mg/m³.
  • Respirable particulate -
    TLV-TWA 3 mg/m³.

13
Simple Asphyxiants-Inert gases or vapors
  • The limiting factor being the available
    Oxygen,TLV may not be recommended for each simple
    Asphyxiant.
  • The minimal Oxygen content should be 18 by
    volume under normal atmospheric pressure.
  • Account should be taken for several Asphyxiants
    which present an explosion hazard.

14
Physical Factors
  • Physical factors which act adversely to
    increase the toxic response of a substance are
  • Heat
  • Ultra violet rays
  • Ionizing radiation
  • Humidity
  • Abnormal pressure (altitude)
  • Light
  • These may place added stress on body, TLVs
    have built-in safety factors to guard against
    adverse effects to moderate deviations but not
    gross deviations.
  • Examples Continuous work at temperature above
    32ºC might be considered gross deviation.
    Judgment must then be exercised in proper
    adjustment of the TLV.

15
Unlisted Substances
  • TLV is not a complete list of all hazardous
    substances.
  • Substances that do not appear on the TLV list
    might be harmful or harmless.
  • While using Unlisted Substances, the medical and
    scientific literature should be reviewed.
  • It is also necessary to conduct preliminary
    toxicity studies.

16
Varying work schedules
  • Particular judgment to provide same safety to the
    workers working for a schedule different from the
    conventional 8 hr. day and 40 hr. week.
  • Field hygienists are referred to the Brief and
    Scala model
  • It reduces the TLV proportionately for both
    increased exposure time and reduced recovery
    time.
  • Example exposure to 8 times the TLV-TWA for 1
    hour and zero exposure during the remainder of
    the shift.

17
Conversion of TLVs in ppm to mg/m³
  • The conversion is based on 760 torr barometric
    pressure at 25ºC(77ºF), and molar volume of 24.45
    liters
  • TLV in mg/m³
  • (TLV in ppm)(gram molecular weight of
    substance) /24.45
  • TLV in ppm
  • (TLV in mg/m³)(24.45)/(gram molecular
    weight of substance).

18
Biologically derived airborne contaminants
  • Biologically derived airborne contaminants
    include bioaerosals and volatile oraganic
    compounds released from living organisms.
  • Guidelines for the Assessment of Bioaerosals
    given in the Indoor environment, ACGIH, 1989.
  • The guidelines rely on medical assessment of
    symptoms, evaluation of building performance, and
    professional judgment.
  • There are no TLVs that allow ready interpretation
    of Bioaerosal data.
  • Examples
  • Bacteria.
  • Fungi.
  • Aspergillus fumigatus.
  • Legionella pneumophila.
  • Endotoxin.
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