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Environmental Factors and Health

Appendix 1
Principles for derivation of health based guidance values and quality criteria for chemical substances

In the following, the principles upon which the Danish Environmental Protection Agency derive health based guidance values and quality criteria for chemical substances are briefly outlined. The quality criteria are nationally derived criteria values, as the Minister of the Environment according to the environmental protection law is authorised to stipulate quality criteria for the protection of environment and health.

The quality criteria for air, soil and drinking-/ groundwater are supplementary values derived by the Danish EPA in areas where no quality standards/ limit values have been implemented by statutory orders. Thus the quality criteria are guidance values, for which deviation can be made in specific cases if this does not compromise the protection of human health.

Purpose

The purpose of setting health based guidance values and quality criteria for chemical substances is to prevent health hazards in the human population caused by chemicals as pollutants. The scientific method for setting of health based guidance values comprises a hazard identification and hazard assess-ment which together with an exposure assessment constitute the risk assessment part in the process.

Selection of data

Data concerning exposure and harmful effects of a chemical substance are collected from national and international criteria documents, monographs and original scientific literature. During the review of the data, the quality and reliability of the studies and research work are critically assessed. This is an important step since conflicting viewpoints regarding the hazards may be present. Unpublished data from industry or other sources are only seldom used, as such data have not been published in scientific journals and have not been subjected to critical review by other scientists.

If adequate human data are available these are preferred as the basis for the assessment. For most substances however, human data are not adequate or available. In these cases, health based objective values are based upon data from experimental animal studies.

When all the relevant data have been evaluated, the hazard considered most important - "the critical effect" - for setting the health based guidance value, is identified. In this step it is assessed whether an effect should be considered as adverse and of relevance to humans.

A substance may have different effects at different concentrations or doses. Generally, the effects are of more concern the lower the concentration or dose at which they occur, and the effect observed at the lowest concentration or dose often forms the basis for setting the guidance value.

Threshold chemicals, NOAEL or LOAEL

The next step for assessment of a health based guidance value is to identify the "no observed adverse effect level" (NOAEL) which is the highest dose at which the critical effect was not observed or, in cases where a NOAEL cannot be identified, the "lowest observed adverse effect level" (LOAEL) which is the lowest dose at which the critical effect was observed.

TDI / safety factors

Having identified a NOAEL or a LOAEL, three "safety factors" (SF) are used to extrapolate from NOAEL or LOAEL to the tolerable daily intake, TDI (expressed in mg/kg b.w. per day) or the tolerable concentration in air, TCair, (expressed in mg/m3). The purpose of the safety factors is to take into account the fact that:

SF1: The toxicological effect of a chemical substance on animals need not reflect the toxicological effect on "normal" humans, this factor is historically set at 10.

SF2: The toxicological effect of a chemical substance may vary considerably between different persons, and that i.e. children, elderly or sick people may be much more sensitive to exposure than "normal" people, this factor is often set at 10.

SF3: The data may be of varying quality and relevance to the actual problem, this factor is set at a value from 1 to 1000 depending on a concrete evaluation.

Thus in cases where a threshold value for the toxic effect is assumed and a NOAEL or a LOAEL can be identified, the TDI (or TC) are obtained by the following calculation:

Exposure routes

In general, guidance values for air are based upon data from inhalation studies and guidance values for soil (GVsoil) and drinking water (GVdw) are based upon data from oral studies. However, if data for the relevant exposure route are not available, data from alternative exposure routes may be used as well, although it is realized that the degree of uncertainty may increase. This will then influence the value of the SF3.

Analogy

In cases where no data on harmful effects are available, an evaluation may be made upon the basis of data for related substances and a consequent increase in the value of the SF3.

Non threshold chemicals

For chemical substances where a threshold value for the toxic effect cannot be assumed (i.e. genotoxic carcinogenic substances), the concept of lifetime risk is applied. Thus, for these potential carcinogenic substances, the TDI corresponding to a specific lifetime risk, is calculated upon the basis of animal studies by means of the "One Hit" model. A lifetime risk of 10-6 (life-time exposure to the dose that may lead to cancer for one in a million) is conside-red as tolerable.

Exposure

air, water, soil

Having obtained the tolerable daily intake (or concentration) for a chemical substance, the health based guidance values for drinking water and soil are calculated taking into account the daily exposure from the various media. The following exposure standard estimates for the various media are used in the calculation of guidance values:

 

Soil*
oral intake

Soil*
Dermal contact

Air
Inhalation

Water
oral intake

Child, 10 kg

 

 

 

 

average exposure

0.2 g/d

1 g/d

10 m3/d

1 liter/d

maximum exposure

10 g/d

10 g/d

12 m3/d

2 liter/d

Adult, 70 kg

 

 

 

 

average exposure

0.025 g/d

0,1 g/d

20 m3/d

2 liter/d

maximun expsoure

0.1 g/d

1 g/d

30 m3/d

4 liter/d

*For the soil exposure estimates, it has to be emphasized that these are based upon exposure scenarios which cover the most sensitive applications, e.g. domestic gardens, play grounds or kindergartens.

To ensure that the total daily intake of a chemical substance from the various media does not exceed the tolerable daily intake, a certain percentage of the tolerable intake to the various media may be assigned (allocation).

Health based guidance values

The guidance values for soil and drinking water are obtained by the following calculations:

if the concentration is the critical parameter e.g. in relation to airborne irritants, or

if the dose delivered through the air is the critical parameter e.g. in connection with substances systemic effects.

TDI*: often only a certain percentage (typically 10%) of the TDI is allocated to the calculation of the quality criteria, as this procedure account for exposure contributions from other media, e.g. exposure from food or exposure from every day chemical products are considered.
w: body weight for a child (10 kg) or an adult person (70 kg)

C-value, quality criteria

Finally, the health based guidance values are used as the basis for the setting of quality criteria for soil, drinking water, ground water, and air (known as "C-values", which are contribution emission concentration values for air pollutants from industrial plants). In this step, other considerations than health based aspects may be taken into account. This may include aesthetical factors such as odour (all media), discoloration (soil, drinking water), or taste (drinking water). Furthermore, economic or political administrative factors may be taken into account as well.

It has to be stressed that no eco-toxicological considerations are taken into account in the process of setting health-based guidance and quality criteria values.

List of Danish soil quality criteria values and the corresponding groundwater quality criteria, air quality criteria and cut-off values.

The quality criteria values and cut off values are nationally derived guidance values. Soil quality criteriaare health-based values derived to secure most sensitive use of the soil i.e. domestic garden, kinder gartens and playgrounds. Especially direct soil-exposure of small children is considered. In addition to these health based criteria it is an overall quality demand that the soil by inspection must not look contaminated or possess odour from soil pollutants.

In the interval between the soil quality criteria and the cut-off value, the soil can only be used for most sensitive use if the local authorities inform and advise the public and the land owner with respect how to establish hygienic measures and soil-exposure reduction measures in a way that the risk for harmful effects is not increased. Cut-off values have only been made for some immobile and rather persistent chemicals (metals and polyaromatic hydrocarbons).

The groundwater quality criteria are used in connection with groundwater-protection, as groundwater is the major drinking-water resource in Denmark. The starting point for derivation of groundwater quality criteria are the nationally derived drinking water quality criteria(or the drinking water standards which are mandatory values following the implementation on the EU-directive on drinking-water quality). The ground-water quality criteria are for some substances set at a lower level than the drinking-water quality criteria, because account has to be taken to additional chemical sources in connection with water treatment procedures and releases of contaminants from the distributing system before the water reach the consumer as drinking-water.

The air quality criteria are used as a criteria for evaporation of the soil pollutant into indoor air. The air quality criteria are only meant to consider the contribution from the evaporation of the contaminated soil and thus are not meant as an overall quality criteria for indoor air.

The quality criteria for the different media are independent criteria, and therefore compliance with the soil quality criteria does not automatically ensure compliance to the quality criteria for evaporation to indoor air or leakage into the groundwater, i.e. each of the relevant criteria has to be considered separately.

The following list is based on values published earlier (see references below) together with the addition of new values not published earlier.

Look here!

a: in soil, sum of benzo(a)pyrene, benzo(b+j+k)fluoranthene, dibenzo(a,h)anthracene, fluoranthene, and indeno(1,2,3-cd)pyrene

b: in water, sum of benzo(a)pyrene, benzo(b+k)fluoranthene, fluoranthene, indeno(1,2,3-cd)pyrene, and benzo(ghi)fluoranthene

Comments:

It should be noted that the soil quality criteria are health based values, and for some substances with low odour threshold (e.g. MTBE) the soil quality criteria may not comply with the overall quality objective that the soil should appear clean and be without odour from soil pollutants.

Some of the groundwater quality criteria may be subject to revision in order to cohere with proposals for new drinking water standards. Especially for MTBE, the groundwater quality criteria value is expected to be lowered.

References:

DEPA (1999): "Toxicological evaluation and limit values for methyltert-butyl ether (MTBE), formaldehyde, glutaraldehyde and furfural." Environmental project no. 511.

DEPA (1999): "Toxicological evaluation and limit values for nonylphenol, nonylphenol ethoxylates, tricresyl phosphates and benzoic acid." Environmental project no. 512.

DEPA (1995): "Toksikologiske kvalitetskriterier for jord- og drikkevand". (Toxicological quality criteria for soil and drinking water) Project no. 12.

DEPA (1996): "B-værdier" (C-values). Guideline no. 15.

DEPA (1998): "Oprydning på forurenede lokaliteter" (Remediation of contaminated sites). Guideline no. 7

DEPA (1990): "Begrænsning af luftforurening fra virksomheder" (Reduction of air pollution from industries), Guideline no. 6.

Drinking water quality criteria

The following list contain nationally derived drinking water quality criteria for selected substances which are not covered by drinking water standards in connection with the implementation of the EU directive on drinking water quality.

It should be noted that the drinking water quality criteria are health based values based on a toxicological evaluation of the specfic compund, i.e. no consideration has been made to the risk for microbial growth. The risk for microbial growth should be considered as well, as this may be relevant for organic substances having high drinking water quality criteria values.

Most of the values have been published in the publications given below, however, the table also includes some new values not published before.

Chemical name

CAS-no

Drinking water

Quality criteria m g/ l

Acetone

67-64-1

2000 /L

Benzotriazole (+ tolyltriazole)

95-14-7

20

Butyl acetate (n-, iso-)

123-86-4

110-19-0

10 /L

Chlorophenols (sum of mono- ,
di- , tri-, and tetra-)

-

0,1

Cyanide, driven off by acidization

-

10

Diethyl ether

60-29-7

40 /L

Dinitrophenoler

25550-58-7

7

Furfural

98-01-1

3

Isopropanol

67-63-0

300

Lithium, inorganic

-

1000

Methanol

67-56-1

3500

Methyl isoamyl ketone

110-12-3

10

Methyl isobutyl ketone

108-10-1

100 /L

Molybdenum

-

20

Mononitrophenols

-

90

Nitrobenzene

98-95-3

4

Tetraethyllead +

Tetramethyllead

78-00-2,

75-74-1

3

Thallium, inorganic

-

1

Tolyltriazole (+ benzyltriazole)

29385-43-1

20

Tricresylphosphates, total

o-TCP

-

250

10

Trinitrophenoles

-

20

/L : the value based on data on odour/taste that is considered most critical.

Comments:

It is an overall quality demand that the drinking water visually appears clean and is without any untoward taste or odour. Furthermore a content of organic constituents in the water may not constitute a media for microbial growth. Generally, microbial growth is not expected to occur with a content of organic chemicals below 10m µg/l.

References:

DEPA (1999): "Toxicological evaluation and limit values for methyl tert-butyl ether (MTBE), formaldehyde, glutaraldehyde and furfural."

Environmental project no. 511.

DEPA (1999): "Toxicological evaluation and limit values for nonylphenol, nonylphenol ethoxylates, tricresyl phosphates and benzoic acid." Environmental project no. 512.

DEPA (1995): "Toksikologiske kvalitetskriterier for jord- og drikkevand" (Toxicological quality criteria for soil and drinking water). Project no. 12.

C-values, air

C-values (contribution values) are used as emission concentration values in outdoor air in connection with airborne emissions of pollutants from industrial plants. To comply with the C-values, the emission from a plant should be lower than the C-value in 99% of the time (i.e. the C-value can maximally be exceeded 7 hours during a month).

The C-values are contribution values and do not take background levels of the pollutants into account.

The C-values are also used as air quality criteria for the evaporation of volatile soil pollutants into indoor air.

Substance:

CAS-no.

C-value
mg/m3

Acetaldehyde

75-07-0

0.02

Acetic acid

64-19-7

0.1 /L

Acetic anhydride

108-24-7

0.02

Acetone

67-64-1

0.4

Acetonitrile

75-05-8

0.1

Acetophenone

98-86-2

0.01

Acrolein

107-02-8

0.001

Acrylonitrile

107-13-1

0.002 /C

Acrylic acid

79-10-7

0.02 /L

Allyl alcohol

107-18-6

0.01

Allyl ethyl ether

557-31-3

0.001

Aluminium compounds in inorganic dust (measured as Al)

-

0.01

2-Aminoethanol

141-43-5

0.01

Ammonia, anhydrous

7664-41-7

0.3

Ammonium chloride

12125-02-9

0.08

Aniline

62-53-3

0.08

Anthracene

120-12-7

 

Antimony compounds in inorganic dust (measured as Sb)

-

0.001

Antu = 1-(1-naphtyl)-2-thiourea

86-88-4

0.0001

Aromatic hydrocarbons (C9)

-

0.03 /L

Arsenic, inorganic compounds (measured as As)

-

0.00001

Arsine

7784-42-1

0.00001

Asbestos

1332-21-4

400 /F

Aziridine

151-56-4

0.0001

Benzene

71-43-2

0.005 /C

Benzoic acid

65-85-0

0.02

Benzyl alcohol

100-51-6

0.1

Beryllium compounds in inorganic dust (measured as Be)

-

0.00001

BHC or HCH = 1,2,3,4,5,6-hexachlorocyclohexane

608-73-1

0.001

Bis(2-chlorethyl) ether

111-44-4

0.0001

m-Bis(2,3-epoxypropoxy)benzene

101-90-6

0.001

Bis(2-ethylhexyl)phthalate = DEHP

117-81-7

0.005

Bis(tributyltin)oxide

56-35-9

0.0005

Bromoethane

74-96-4

0.1

Bromomethane

74-83-9

0.1

1-Butanol

71-36-3

0.2

2-Butanol

78-92-2

0.7

Butanone

78-93-3

1

2-Butoxyethanol =
ethyleneglycol-monobutylether =
butylglycol

111-76-2

0.04 /L

2-(2-Butoxyethoxy)ethanol =
butyldiglycol =
diethyleneglycol-monobutylether

112-34-5

0.02 /L

2-(2-Butoxyethoxy)ethyl acetate =
diethyleneglycol-monobutylether acetate

124-17-4

0.03 /L

2-Butoxyethyl acetate=
Butylglycol acetate

112-07-2

0.1 /L

(2-Butoxymethylethoxy)propanol =
dipropyleneclycol-n-butylether

35884-42-5

0.4

2-Butoxy-1-methylethyl acetate =
Propyleneglycol-n-butylether acetate

85409-76-3

0.1

1-Butoxypropan-2-ol =
2-propyleneglycol-1-n-butylether

5131-66-8

0.4

n-Butyl acetate

123-86-4

0.1 /L

Butyl acrylate

141-32-2

0.006 /L

Butyl glycolate

7397-62-8

1

Butyl lactate

138-22-7

0.1

Butyraldehyde

123-72-8

0.001

Butyric acid

107-92-6

0.0001 /L

g -Butyrolactone

96-48-0

0.3

Cadmium compounds. (measured as Cd)

-

0.00001

e -Caprolactam

105-60-2

0.005

Carbon disulphide

75-15-0

0.02

Carbon monoxide

630-08-0

1

Carbontetrachlorid = T Carbon tetrachloride = tetrachloromethane

56-23-5

0.005

Chlorine

7782-50-5

0.01

Chlorobenzene

108-90-7

0.1

Chloroacetic acid

79-11-8

 

1-Chloro-2,3-epoxypropane = epichlorhydrin

106-89-8

0.002

Chloroethane

75-00-3

0.1

Chloroethylene = Vinylchloride

75-01-4

0.002 /C

Chloroform = trichloromethane

67-66-3

0.02

Chloromethane

74-87-3

0.04

1-Chloro-3-nitrobenzene

121-73-3

0.0005

1-Chloro-4-nitrobenzene

100-00-5

0.0005

3-Chloropentane-2,4-dione

1694-29-7

0.01 /L

Chlorophenols (mono-,di-,tri-,tetra-)

-

0.0008 /C

3-Chloropropene

107-05-1

0.002

a -Chlorotoluene

100-44-7

0.0008

Chromium compounds, other than Cr (VI) in inorganic dust (measured as Cr)

-

0.001

Chromates (measured as Cr VI)

-

0.0001

Coal tar destillates Bp > 200 ° C

 

0.00003

Coal tar pitch 10%

 

0.000004

Coal tar pitch 3%

 

0.00001

Cobalt compounds in inorganic dust (measured as Co)

-

0.0005

Colecalciferol =

Vitamin D3

67-97-0

0.002

Copper compounds in inorganic dust (measured as Cu)

-

0.01

Cresol

1319-77-3

0.003 /L

Cumene = isopropylbenzene

98-82-8

0.03 /L

Cyanides in inorganic dust (measured as CN)

-

0.06

Cyclohexane

110-82-7

1

Cyclohexanol

108-93-0

0.05 /L

Cyclohexanone

108-94-1

0.1

Cyclohexyldimethylamine

98-94-2

0.01

Cyclopentanone

120-92-3

0.1

Distillates (petroleum) hydrodesulfurized middle

64742-89-9

0.01

Dialkyl sulphides

-

0.001 /L

1,4-Diazabicyclooctane

280-57-9

0.1

1,2-Dibromoethane

106-93-4

0.0001 /C

Dibutylamine

111-92-2

0.01

2,6-Di-tert-butyl-p-cresol = butylhydroxytoluene

128-37-0

0.01

1,2-Dichlorobenzene

95-50-1

0.1

Dichlorodifluoromethane

75-71-8

1

1,2-Dichloroethane

107-06-2

0.004 /C

1,1-Dichloroethylene

75-35-4

0.01

1,2-Dichloroethylene

540-59-0
156-60-5
156-59-2

0.4

1,1-Dichloro-1-flouroethane = HCFC-141b

1717-00-6

1

Dichloromethane

75-09-2

0.02 /C

1,2-Dichloropropane

78-87-5

0.02 /C

Dieldrin

60-57-1

0.0001

Diesel oil

-

0.1 /L

Diethylamine

109-89-7

0.02

Diethyl ether

60-29-7

1

Diethyl sulphate

64-67-5

0.000004 /C

Dimethoxymethane

109-87-5

1

N,N-Dimethylacetamide

127-19-5

0.1

Dimethylamine

124-40-3

0.04

2-Dimethylaminoethanol

108-01-0

0.005 /L

[4-[[4-(Dimethylamino)phenyl] [4-[ethyl(3-sulfonatobenzyl)amino]
phenyl]methylene]cyclo- hexa-2,5-dien-1-ylidene](ethyl) (3-sulfonato-benzyl)ammonium, sodium salt =
C.I. Acid Violet 49 =
C.I. Food Violet 2

1694-09-3

0.001

Dimethyl ether

115-10-6

1

N,N-Dimethylformamide

68-12-2

0.1

2,6-Dimethylheptan-4-one

108-83-8

0.06 /L

Dimethylnitrosoamine

62-75-9

0.0001

Dimethyl sulphate

77-78-1

0.1x10-6

Dimethyl sulphide

75-18-3

0.001 /L

Dinitrogenoxide

10024-97-2

1

1,4-Dioxane

123-91-1

0.01-0.1

Diphenyl ether

101-84-8

0.0004 /L

Dust from grinding stainless steel

 

0.001

Dust from grinding (apart from the above mentioned)

 

0.01

Dust, inert below 10 micrometer

-

0.08

D-vitamin

 

 

Ergocalciferol = vitamin D2

50-14-6

0.002

Cholecalciferol = vitamin D3

67-97-0

 

Endotoxines

-

1x10-6

Enzymes, proteolytic

-

3x10-6

1,2-Epoxy-2-(epoxyethyl)cyclohexane

4223-10-3

0.001

(Epoxyethyl)benzene

96-09-3

0.001

Epoxy, dust from powder painting procedures

-

0.01

Ergocalciferol

50-14-6

0.002

Ethan-1,2-diol =

Ethylene glycol

107-21-1

0.3

Ethanol

64-17-5

5

2-Ethoxyethanol =
ethyleneglycol-monoethylether

110-80-5

0.2

2-(2-Ethoxyethoxy)ethanol =
Diethyleneglycol-monoethylether

111-90-0

1

2-Ethoxyethyl acetate =
ethyleneglycol-monoethylether acetate

111-15-9

0.1

2-Ethoxy-1-methylethyl acetate =
2-propyleneglycol-1-ethylether acetate

54839-24-6

0.01 /L

1-Ethoxypropan-2-ol =
propyleneclycol-monoethylether

1569-02-4

1

Ethyl-2-cyanoacrylate

7085-85-0

0.01

Ethyl acetate

141-78-6

1 /L

Ethylbenzene

100-41-4

0.5

Ethyldimethylamine

598-56-1

0.002

Ethylene oxide

75-21-8

0.005

Ethyl formate

109-94-4

1 /L

Ethyl nitrite

109-95-5

0.1

Flour, dust

-

0.02

Fluorides, inorganic compounds (measured as F)

 

0.001

Fluorine

7782-41-4

0.002

Formaldehyde

50-00-0

0.01

Formic acid

64-18-6

0.003

2-Furaldehyde

98-01-1

0.002

Gasoline

-

0.1

Glutaral

111-30-8

0.001

1-Heptanol

111-70-6

1

2-Heptanone

110-43-0

0.1 /L

Hexamethylene diisocyanate

822-06-0

0.0002

Hexamethylphosphoric triamide

680-31-9

0.001

Hexane = n-hexane

110-54-3

0.4

Hexanones

-

0.3

Hydrazine (and its salts )

302-01-2

0.0002

Hydrogen chloride

7647-01-0

0.05

Hydrogen cyanide

74-90-8

0.06

Hydrogen fluoride

7664-39-3

0.002

Hydrogen sulphide

7783-06-4

0.001

2-Hydroxyethyl-acetate =
ethyleneglycol-monoacetate

542-59-6

0.1 /L

4-Hydroxy-4-methylpentan-2-one =
diacetone alcohol

123-42-2

0.1

Imidazolidine-2-thione

96-45-7

0.001

2,2’-Iminodiethanol =
diethanolamine

111-42-2

0.01

3-iodo-2-propynyl butylcarbamate

55406-53-6

0.1

Isobutyl acetate

110-19-0

0.3 /L

Isocyanates, organic compounds

-

0.0002

Isopentyl acetate

123-92-2

0.02 /L

Isopropyl acetate

108-21-4

0.7 /L

Isopropylamine

75-31-0

0.3

4-Isopropylbenzyl-alcohol

536-60-7

0.01 /L

Isothiocyanates

-

0.001

Lactic acid bacteria

-

0.02

Lead compounds in inorganic dust (measured as Pb)

-

0.0004

Lithium compounds in inorganic dust (measured as Li)

 

0.01

Magnesium compounds in inorganic dust,

See "Dust, inert below 10 micrometer"

 

 

Maleic anhydride

108-31-6

0.001

Manganese compounds in inorganic dust (measured as Mn)

-

0.001

Mercury-compound in inorganic dust (measured as Hg)

-

0.0001

Mesitylene = 1,3,5-trimethylbenzene

108-67-8

0.03

Methanol

67-56-1

0.3

3-Methylbutanone

563-80-4

0.5 /L

3-Methoxybutyl acetate

4435-53-4

0.2

2-Methoxyethanol =

ethyleneglycol-monomethylether

109-86-4

0.02

(2-(2-Methoxymethylethoxy)
methylethoxy)propanol =
tripropyleneglycol-monomethylether

25498-49-1

1

(2-Methoxymethylethoxy)propanol =
dipropyleneglycol-monomethylether

34590-94-8

1

2-Methoxy-1-methylethyl acetate =
propyleneglycol-monomethylether actetate

108-65-6

0.01 /L

1-Methoxypropan-2-ol =
propyleneglycol-monomethylether

107-98-2

0.03 /L

Methyl acetate

79-20-9

0.7 /L

Methyl acrylate

96-33-3

0.002 /L

Methylamine

74-89-5

0.07

1-Methylbutyl acetate

626-38-0

0.001 /L

Methyl tert-butyl ether = MTBE

1634-04-4

0.03 /L

Methyl carbamate

598-55-0

0.2

Methylcyclohexane

108-87-2

1

4,4’-Methylenebis[2-chloroaniline] (and its salts)

101-14-4

0.001

Methyl formate

107-31-3

0.2

5-Methylhexan-2-one =

methylisoamylketone

110-12-3

0.005 /L

Methyl methacrylate

80-62-6

0.03

4 -Methylmorpholine

109-02-4

0.1

Methyloxirane = propylenoxid

75-56-9

0.003

2-Methylpentan-1-ol

105-30-6

0.05 /L

4-Methylpentan-2-one =
methylisoamylketone

108-10-1

0.2

2-Methylpropan-1-ol

78-83-1

0.4

2-Methylpropan-2-ol =
tert-butylalcohol

75-65-0

1

2-Methylpropen

115-11-7

0.06 /L

1-Methyl-2-pyrrolidone

872-50-4

1

Mineral oil, aerosols

-

0.003

Mineral wool

 

1300 /F

Molybdenum compounds in inorganic dust (measured as Mo)

-

0.005

Naphta, hydrotreated heavy

64742-48-9

1,0 /L

Naphthalene

91-20-3

0.04 /L

Nicotine

54-11-5

0.01

Nickel (measured as Ni)

7440-02-0

0.0001

Nickel monoxide (measured as Ni)

1313-99-1

0.0001

Nitric acid

7697-37-2

0.01

2,2’,2’’-Nitrilotriethanol

102-71-6

0.01

Nitrobenzene

98-95-3

0.0002 /C

2-Nitronaphthalene

581-89-5

0.001

Nitrophenols

-

0.005

Nonylphenol

84852-15-3

0,02

Nonylphenol ethoxylates

 

0.05

Organic solvents, mixtures (1)

 

0,15 /L

Orthophosphoric acid = phosphoric acid

7664-38-2

0.005

7-Oxa-3-oxiranylbicyclo(4.1.0)heptane =
1,2-epoxycyclohexane-4-oxirane

106-87-6

0.001 /C

Ozone

10028-15-6

0.01

Parafiner C2 og Parafins, C2 – C8 (except n-hexane)

-

1

Pentachlorophenol

87-86-5

0.00004 /C

Pentane-2,4-dione

123-54-6

0.01 /L

Pentane-2-one

107-87-9

1

Pentane-3-one

96-22-0

0.6 /L

Pentyl acetate

628-63-7

0.02 /L

Phenol

108-95-2

0.02

2-Phenoxyethanol

122-99-6

0.1

m-Phenylenediamine

108-45-2

0.001

1-Phenyl ethanol

98-85-1

0.3

2-Phenylpropene

98-83-9

0.06

Phosgene

75-44-5

0.001

Phosphine

7803-51-2

0.001

Phthalates except DEHP

-

0.01

Phthalic anhydride

85-44-9

0.001

Pin-2(3)-ene = alpha-Pinene

80-56-8

0.05

Piperidine

110-89-4

0.01

Polyamides, dust

-

0.01

Polyaromatic hydrocarbons, PAHs

-

(2) /C

Polyurethane foam, dust

9009-54-5

0.04

Potassium hydroxide

1310-58-3

0.005

Propane-1,2-diol =

Propyleneglycol

57-55-6

1

Propane-1,2-diol diacetate =
Propyleneglycol-diacetate

623-84-7

1

Propanols

62309-51-7

1

1-propanol

71-23-8

 

2-propanol

67-63-0

 

Propionic acid

79-09-4

0.05

Propyl acetate

109-60-4

0.1

2-(Propyloxy)ethanol =
ethyleneglycol-monopropylether

2807-30-9

0.3

Pyridine

110-86-1

0.07

2-Pyrrolidone

616-45-5

0.003

Quartz

14808-60-7

0.005

Siliciumdioxide (amorphous)

61790-53-2

0.005

Silver compounds in inorganic dust (measured as Ag)

-

0.0002

Sodium hydroxide in inorganic dust

1310-73-2

0.005

Solventnaphtha, light aromatic

64742-95-6

0.03 /L

Solventnaphta (petroleum), heavy aromatic

64742-94-5

0.05 /L

Stannane, tributyl-, mono(naphthenoyloxy) derivatives

85409-17-2

0.0005

Strontium chromate

7789-06-2

0.0001

Styrene

100-42-5

0.2

Subtilisin

9014-01-1

3 x 10-6

Sulphuric acid

7664-93-9

0.01

Sulphur trioxide

7446-11-9

0.01

Soaps (Na-, K- and Ca- salts of fatty acids)

-

0.01

Tetrachloroethylene

127-18-4

0.01 /C

Tetraethyllead (measured as Pb)

78-00-2

0.0003

Tetraethyl-orthosilicate =
Ethyl silicate

78-10-4

1

Tetrahydrofuran

109-99-9

0.2

3a,4,7,7a-Tetrahydro-4,7-methanoindene =dicyclopentadiene

77-73-6

0.05

Tetramethyllead (measured as Pb)

75-74-1

0.0003

Thallium compounds in inorganic dust (measured as Tl)

-

0.0003

Thiols

-

0.0002

Thioalcohols

-

0.0002

Tin compounds in inorganic dust (measured as Sn)

-

0.02

Titanium dioxide

13463-67-7
1317-70-0
1317-80-2

0.02

Toluene

108-88-3

0.4

1,1,1-Trichlorethane

71-55-6

0.5

Trichloroethylene

79-01-6

0.04 /C

Triethylamine

121-44-8

0.04

Trimethoxyvinylsilane

2768-02-7

0.001

Trimethylamine

75-50-3

0.0002

3,5,5-Trimethylcyclohex-2-enone

78-59-1

0.03

Tripropylenglycolmonoethylether

20178-34-1

1

Trypsin

9002-07-7

3x10-6

Vanadium compounds in inorganic dust (measured as V)

-

0.0003

Vegetable oils, aerosols

-

0.01

Vinyl acetate

108-05-4

0.2

Waxes, primarely straight chained hydrocarbons > C20

-

0.01

Welding fumes

 

 

Fumes from welding in unalloyed steel:

 

0.004

Fumes from welding in alloyedt steel,

 

 

Sum of content of nickel and chromium (VI):

 

0.0001

White spirit:

 

 

Naphta, hydrosulfurized heavy

64742-82-1

0.2 /L

Stoddard-solvent

8052-41-3

0.2 /L

Solvent naphta, medium aliphatic

64742-88-7

0.2 /L

Wollastonite

13983-17-0

1300 /F

Wood, dust

-

0.025

Xylene, mixed isomers, pure

1330-20-7

0.1

Xylenols

-

0.002 /L

Zinc compounds in inorganic dust, except zinc chloride (measured as Zn)

-

0.06

Zinc chloride

7646-85-7

0.005

/C: this notation is attached to specific compounds for which the cumulated exposure is considered to reflect the risk for adverse effect e.g. carcinogenic/ mutagenic compounds. The basis for the C-value is the health based air quality criteria which for such substances reflects an average exposure level (continuous exposure). The C-value, however, is set 40 times higher than the air quality criteria, because compliance with a C-value (i.e. the actual emis-sion concentration values should be below the C-value in 99% of the time) according to emission distribution models, represents an average exposure level in the surroundings of the emission source of about 1/40 of the C-value.

/F: fibers per m3..

/L: the C-value is based on protection against odour. For substances with this notation, odour is considered to occur at considerable lower levels (< 1/10) compared to a toxicological based value.

(1) Mixture of organic solvents used as thinners and solvents in paints and lacquers. The mixture must at least contain 3 or more organic solvents where none of the solvents may represent a content of more than 80 w/w % or less than 2 w/w %. None of the single solvents may be considered especially critical (e.g. be considered as a carcinogen), or appointed with a specific C-value of 0.01 mg/m3 or lower (the latter rule pertain to health based C-values and does not include substances having an L-notation attached to the C-value).

(2) C-value for PAHs: 2,5 ng benzo(a)pyrene equivalents/ m3

where Benzo(a)pyrene equivalents = S koncPAH x relative potency factor PAH .

For the calculation of the benzo(a)pyrene equivalent, the following PAHs and their relative potency factors are used:

PAH

Relative potency factor

Acenaphthene

0,001

Acenapthylene

0,001

Anthracene

0,0005

Benzo[ a] anthracene

0,005

Benzo[ b] fluoranthene

0,1

Benzo[ k] fluoranthene

0,05

Benzo[ ghi] perylene

0,02

Benzo[ a] pyrene

1

Chrysene

0,03

Dibenzo[ a,h] anthracene

1,1

Fluoranthene

0,05

Fluorene

0,0005

Indeno[ 1,2,3-c] )pyrene

0,1

Phenanthrene

0,0005

Pyrene

0,001

Table of provisional C-values. Notified for future incorporation in the main table.

Substance:

CAS-No.:

C-value

mg/m3

Acrylamide

79-06-1

0.0002 /C

3-aminomethyl-3,5,5-trimethylcyclohexylamine = isophoronediamine

2855-13-2

0.01

Barium, inorganic compounds

 

0.005

Bis(2-(dimethylamino)ethyl)ether

3033-62-3

0.01

Boron

 

0.003

1-bromopropane

106-94-5

0.1

Butane-1,4-diol

110-63-4

0.1

Decahydronaphthalene = decalin

91-17-8

0.01

Dichlorodiflouromethane

75-71-8

1

Diethyl carbonate

105-58-8

0.1

N-[3-(dimethylamino)propyl]-N,N’,N’- trimethylpropane-1,3-diamine

3855-32-1

0.01

Dipropylenglycol = oxydipropanol

 

1

Dipropylenglycoldimethylether = oxydipropanol dimethylether

111109-77-4

1

Epoxy compounds, monomers

 

0.001

2,3-epoxypropyltrimethylammonium chloride = GMAC

3033-77-0

<0.001

Ethyl bromide

74-94-4

0.1

Formamide

75-12-7

0.01

Methyl iodide

74-88-4

0.001

2-methylstyrene = 2-vinyltoluene

611-15-4

0.1

Naphta (petroleum), hydrodesulfurized light, dearomatized (mainly heptanes)

92045-53-9

1

Solvent Naphta (petroleum), light, aliphatic.

64742-89-8

1

Nitroethane

79-24-3

0.01

2-phenylpropan-2-ol = 1-hydroxycumen

617-94-7

0.01

Polyester, dust from spray-painting

 

0.01

Propylbenzene

103-65-1

0.03

Silicon dioxide

63231-67-4

0.005

Talc, inorganic dust

14807-96-6

0.001

1,1,1,2-tetrafluoroethane = HFC 134a

811-97-2

1

Trichlorofluoromethane = CFC 11

75-69-4

1

2,4,6-tinitrotoluene

118-96-7

0.001

Reference:
DEPA (2000): "B-værdier. Vejledning nr. 15, Udkast". (C-values, Guideline no. 15, Draft).

 

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