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In order to qualify for the eco-label, an all purpose cleaner or a cleaner for sanitary facilities (hereinafter referred to as the product) must fall within the product group as defined in Article 1, and must comply with the criteria of this Annex.
These criteria aim at promoting:
the reduction of environmental impact by limiting the quantity of harmful ingredients, by reducing the quantity of detergent used and by reducing packaging waste,
the reduction or prevention of risks for the environment and for human health related to the use of hazardous substances,
information that will enable the consumer to use the product in the way that is efficient and minimises environmental impact.
The criteria are set at levels that promote the labelling of all-purpose cleaners and sanitary cleaners that have a low environmental impact.
The specific assessment and verification requirements are indicated within each criterion.
Where appropriate, test methods other than those indicated for each criterion may be used if the competent body assessing the application accepts their equivalence.
Where possible, the testing should be performed by laboratories that meet the general requirements of EN ISO 17025 or equivalent
Where no tests are mentioned, or are mentioned as being for use in verification or monitoring, competent bodies should rely as appropriate on declarations and documentation provided by the applicant and/or independent verifications.
Where appropriate, competent bodies may require supporting documentation and may carry out independent verifications.
Where the applicant is required to provide declarations, documentation, analyses test reports, or other evidence to show compliance with the criteria, it is understood that these may originate from the applicant and/or his supplier(s) and/or their supplier(s), et cetera, as appropriate.
Where ingredients are referred to, this includes substances and preparations.
Appendix I presents the new revised detergent ingredient database (DID list), version 30 June 2004, which contains the most widely used ingredients in detergent formulations. Part-A of the DID list shall be used for deriving the data for the calculations of CDVtox and for the assessment of the biodegradability of surfactants.
Where appropriate, the applicant may use subsequent revisions of the Detergent Ingredient Database as they become available.
For ingredients which are not included in part-A of the DID list, the applicant shall, under his own responsibility, apply the procedure as described in part-B of the Appendix I.
For ingredients, which are not listed in the DID-list, the applicant may use an approach to provide the necessary documentation of anaerobic degradability described in Appendix II
The competent bodies are recommended to take into account the implementation of recognised environmental management schemes, such as EMAS or ISO 14001, when assessing applications and monitoring compliance with the criteria in this Annex (Note: It is not required to implement such management schemes.)
For all-purpose cleaners the functional unit (used in the criteria below) is the dosage in grams of the product recommended by the manufacturer for 1 litre of suds (washing water).
For window cleaners and cleaners for sanitary facilities, no functional unit is defined (the relevant criteria below being calculated in relation to 100 g of the product).
The critical dilution volume toxicity (CDVtox) is calculated for each ingredient (i) using the following equation:
where weight (i) is the weight of the ingredient (in grams) per functional unit (for all-purpose cleaners) or per 100 g of product (cleaners for sanitary facilities). DF (i) is the degradation factor and TF chronic (i) is the toxicity factor of the ingredient (in milligram/litre).
The values of DF and TF chronic shall be as given in the detergent ingredient database list-part A (DID list-part A) (Appendix I). If the ingredient in question is not included in the DID list-part A, the applicant shall estimate the values following the approach described in the DID list-part B (Appendix 1). The CDVtox is summed for each ingredient, making the CDVtox for the product.
For all-purpose cleaners, the CDVtox for the product shall not exceed 20 000 l/functional unit.
For cleaners for sanitary facilities, the CDVtox for the product shall not exceed 100 000 l per 100 g product.
For window cleaners, the CDVtox for the product shall not exceed 5 000 l per 100 g product.
Assessment and verification: the exact formulation of the product shall be provided to the competent body, together with the details of the CDVtox calculations showing compliance with this criterion.
Each surfactant used in the product shall be readily biodegradable.
Assessment and verification: the exact formulation of the product as well as a description of the function of each ingredient shall be provided to the competent body. The DID list-part A (Appendix I) indicates whether a specific surfactant is aerobically biodegradable or not (the surfactants with an entry of ‘R’ in the column on aerobic biodegradability are readily biodegradable). For surfactants which are not included in the DID list-part A, the relevant information from literature or other sources, or appropriate test results, showing that they are aerobically biodegradable shall be provided. The tests for ready biodegradability shall be as referred to in Regulation (EC) No 648/2004 of the European Parliament and of the Council of 31 March 2004 on detergents(1). Surfactants shall be considered as readily biodegradable if the level of biodegradability (mineralisation) measured according to one of the five following tests is at least 60 % within 28 days: CO2 headspace test (OECD 310), carbon dioxide (CO2) evolution modified Sturm test (OECD 301B; Council Directive 67/548/EEC(2) Annex V.C.4-C), closed bottle test (OECD 301D; Directive 67/548/EEC Annex V.C.4-E), manometric respirometry (OECD 301F; Directive 67/548/EEC Annex V.C.4-D), or MITI (I) test (OECD 301C; Directive 67/548/EEC Annex V.C.4-F), or their equivalent ISO tests. Depending on the physical characteristics of the surfactant, one of the following tests might be used to confirm ready biodegradability, if the level of biodegradability is at least 70 % within 28 days: dissolved organic carbon DOC die-away (OECD 301A; Directive 67/548/EEC Annex V.C.4-A) or modified OECD screening DOC die-away (OECD 301E; Directive 67/548/EEC Annex V.C.4-B), or their equivalent ISO tests. The applicability of test methods based on measurement of dissolved organic carbon needs to be appropriately justified as these methods could give results on the removal and not on the biodegradability. Pre-adaptation is not to be used in tests for aerobic ready biodegradability. The 10 days window principle shall not apply.
Each surfactant used in the product shall be biodegradable under anaerobic conditions.
Assessment and verification: the exact formulation of the product as well as a description of the function of each ingredient shall be provided to the competent body. The DID list-part A (Appendix I) indicates whether a specific surfactant is anaerobically biodegradable or not (the surfactants with an entry of ‘Y’ in the column on anaerobic biodegradability are biodegradable under anaerobic conditions). For surfactants which are not included in the DID list-part A, the relevant information from literature or other sources, or appropriate test results, showing that they are anaerobically biodegradable shall be provided. The reference test for anaerobic degradability shall be OECD 311, ISO 11734, ECETOC No 28 (June 1988) or an equivalent test method, with the requirement of a minimum of 60 % ultimate degradability under anaerobic conditions. Test methods simulating the conditions in a relevant anaerobic environment may also be used to document that 60 % ultimate degradability has been attained under anaerobic conditions (see Appendix II).
Alkyl phenol ethoxylates (APEOs) and derivatives thereof,
EDTA (ethylene-diamine-tetra-acetate) and its salts,
NTA (nitrilo-tri-acetate),
Nitromusks and polycyclic musks, including for example:
Musk xylene: 5-tert-butyl-2,4,6-trinitro-m-xylene,
Musk ambrette: 4-tert-butyl-3-methoxy-2,6-dinitrotoluene,
Moskene: 1,1,3,3,5-pentamethyl-4,6-dinitroindan,
Musk tibetine: 1-tert-butyl-3,4,5-trimethyl-2,6-dinitrobenzene,
Musk ketone: 4’-tert-butyl-2’,6’-dimethyl-3’,5’-dinitroacetaphenone,
HHCB (1,3,4,6,7,8-Hexahydro-4,6,6,7,8,8-hexamethylcyclopenta(g)-2-benzopyran),
AHTN (6-Acetyl-1,1,2,4,4,7-hexamethyltetralin).
Assessment and verification: the applicant shall provide a declaration supported by declarations from manufacturers of ingredients, as appropriate, confirming that the listed substances have not been included in the product.
Assessment and verification: the applicant shall provide documentation showing the biodegradability of any quaternary ammonium salt used.
R31 (contact with acid liberates toxic gas),
R40 (limited evidence of a carcinogenic effect),
R45 (may cause cancer),
R46 (may cause heritable genetic damage),
R49 (may cause cancer by inhalation),
R68 (possible risks of irreversible effects)
R50-53 (very toxic to aquatic organism and may cause long term adverse effects in the aquatic environment),
R51-53 (toxic to aquatic organism and may cause long term adverse effects in the aquatic environment),
R59 (dangerous to the ozone layer),
R60 (may impair fertility),
R61 (may cause harm to the unborn child),
R62 (possible risk of impaired fertility),
R63 (possible risk of harm to the unborn child),
R64 (may cause harm to breastfed babies).
Specific requirements are prescribed for biocides, either as part of the formulation or as part of any preparation included in the formulation (see criterion on biocides below).
The above requirements shall apply to each ingredient (substance or preparation) that exceeds 0,01 % by weight of the final product. This includes also each ingredient of any preparation used in the formulation that exceeds 0,01 % by weight of the final product.
Assessment and verification: copies of the material safety data sheets shall be provided for all ingredients (whether substances or preparations). A declaration prepared by the manufacturer of ingredients and showing compliance with this criterion shall be provided by the applicant.
The product may only include biocides in order to preserve the product, and in the appropriate dosage for this purpose alone. This does not refer to surfactants, which may also have biocidal properties.
Assessment and verification: copies of the material safety data sheets of any preservatives added shall be provided, together with information on their exact concentration in the product. The manufacturer or supplier of the preservatives shall provide information on the dosage necessary to preserve the product.
It is prohibited to claim or suggest on the packaging or by any other communication that the product has an antimicrobial action.
Assessment and verification: the texts and layouts used on each type of packaging and/or an example of each different type of packaging shall be provided to the competent body.
Biocides, either as part of the formulation or as part of any preparation included in the formulation, that are used to preserve the product and that are classified with R50-53 or R51-53 risk phrases, in accordance with Directive 67/548/EEC and its amendments or Directive 1999/45/EC, are permitted but only if they are not potentially bioaccumulative. In this context, a biocide is considered to be potentially bioaccumulative if the log Pow (log octanol/water partition coefficient) ≥3,0 (unless the experimentally determined BCF ≤100).
The concentration of biocides in the final product shall not exceed the maximum authorised concentration in Council Directive 76/768/EEC of 27 July 1976 on the approximation of the laws of the Member States relating to cosmetic products and its subsequent amendments.
Assessment and verification: copies of the material safety data sheets shall be provided for all biocides, together with a documentation of the concentrations of the biocides in the final product.
Any dyes or colouring agents used in the product must be permitted by Council Directive 76/768/EEC relating to cosmetic products(4) and its subsequent amendments, or must be permitted by European Parliament and Council Directive 94/36/EC of 30 June 1994 on colours for use in foodstuffs(5) and its subsequent amendments, or must be characterised by environmental properties that do not imply classification with R50-53 or R51-53 risk phrases, in accordance with Directive 67/548/EEC and its amendments.
Assessment and verification: a declaration of compliance with this criterion shall be provided to the competent body, together with a full list of all dyes or colouring agents used.
The product shall not contain perfumes containing nitro-musks or polycyclic musks (as specified in the criterion 3(a).
Any ingredients added to the product as a fragrance must have been manufactured and/or handled in accordance with the code of practice of the International Fragrance Association.
Assessment and verification: a declaration of compliance with each part of this criterion shall be provided to the competent body.
The product shall not be classified with R42 (may cause sensitisation by inhalation) and/or R43 (may cause sensitisation by skin contact) risk phrases, in accordance with Directive 1999/45/EC and its amendments.
The concentration of any substance or ingredient classified with R42 (may cause sensitisation by inhalation) and/or R43 (may cause sensitisation by skin contact) risk phrases, in accordance with Directive 67/548/EEC and its amendments or Directive 1999/45/EC and its amendments, shall not exceed 0,1 % by weight of the final product.
Assessment and verification: the exact concentrations of all ingredients that are classified as R42 and/or R43 shall be provided to the competent body, together with copies of the material safety data sheets.
The product shall not contain more than 10 % (by weight) of volatile organic compounds with a boiling point lower than 150 oC.
Assessment and verification: copies of the material safety data sheets of each organic solvent together with details of the calculations of the total volatile organic compounds with a boiling point lower than 150 oC shall be provided by the applicant.
The total quantity of elemental phosphorous in the product shall be calculated per functional unit (for all-purpose cleaners) or per 100 g of product (cleaners for sanitary facilities) taking into account all ingredients containing phosphorus (e.g. phosphates and phosphonates).
For all-purpose cleaners, the total phosphorus content (P) shall not exceed 0,02 g/functional unit.
For cleaners for sanitary facilities, the total phosphorus content (P) shall not exceed 1,0 g/100 g of product.
Ingredients used in window cleaning products must not contain phosphorus.
Assessment and verification: the exact formulation of the product shall be provided to the competent body, together with the details of the calculations showing compliance with this criterion.
Sprays containing propellants must not be used.
Plastic materials that are used for the main container shall be marked according to European Parliament and Council Directive 94/62/EC of 20 December 1994 on packaging and packaging waste(6), or DIN 6120 Parts 1 and 2 in connection with DIN 7728 part 1.
If the primary packaging is made of recycled material, any indication of this on the packaging shall be in conformity with the ISO 14021 standard ‘Environmental labels and declarations — Self declared claims (type II environmental labelling)’.
The primary packaging parts shall be easily separable into mono-material parts.
Assessment and verification: data on the packaging, and/or a sample thereof if appropriate, shall be provided to the competent body, together with a declaration of compliance with each part of this criterion.
The product shall be fit for use, meeting the needs of the consumers.
The cleaning ability must be equivalent to or better than a market-leading or generic reference product (see Appendix III), approved by a competent body, as well as better than pure water.
For all-purpose cleaners and cleaning products for kitchens, only fat-removing effects must be documented. For sanitary cleaning products and window cleaners, both calcium and fat-removing effects must be documented.
Assessment and verification: the performance of the product must either be tested by:
an adequate and justifiable laboratory test, or
an adequate and justifiable consumer test.
Both tests must be carried out and reported within specified parameters as stated in the framework described in Appendix III.
For all-purpose cleaners, an exact dosage recommendation shall appear on the packaging in a reasonably sufficient size and against a visible background. The use of a pictogram (such as a 5 1 tub and number of caps with ml) is recommended but voluntary.
In the case of a concentrated cleaner for sanitary facilities, it shall be clearly indicated on the packaging that only a small quantity of the product is needed compared to normal (i.e. diluted) products.
The following text (or equivalent text) shall appear on the packaging:
‘Proper dosage saves costs and minimises environmental impacts’.
The following safety advice (or equivalent text) shall appear on the product (in both text form and with an equivalent pictogram):
‘Keep away from children’
‘Do not mix different cleaners’
‘Avoid inhaling sprayed product’ (only for products that are packaged as sprays).
Regulation (EC) No 648/2004 shall be applied.
The following text (or equivalent text) shall appear on the packaging:
‘For more information visit the EU eco-label web-site: http://europa.eu.int/ecolabel’.
Assessment and verification: a sample of the product packaging, including the label, shall be provided to the competent body, together with a declaration of compliance with each part of this criterion.
Box 2 of the eco-label shall contain the following text:
reduced impact on aquatic life,
reduced use of hazardous substances,
clear user instructions.
For detergents, which are used by professional users, the producer, its distributor or a third party shall offer training or training materials for cleaning staff. These shall include step-by-step instructions for proper dilution, use, disposal and the use of equipment.
Assessment and verification: a sample of training material containing step-by-step instructions for proper dilution, use, disposal and the use of equipment and a description of training courses shall be provided to the competent body.
For ingredients that are included in the part-A of DID list, the values for toxicity and degradability in the list must be used for the assessment of compliance with the ecological criteria.
For ingredients that are not in the part-A of DID list, the procedure described in the part-B shall be used for establishing toxicity and degradability values.
a If no acceptable chronic toxicity data was found, these columns are empty. In that case TF(chronic) is defined as equal to TF(acute) | ||||||||||
b As a general rule licence applicants must use the data on the list. Perfumes and dyes are exceptions. If toxicity data is submitted by the licence applicant the submitted data shall be used to calculate the TF and determine the degradability. If not, the values on the list shall be used. | ||||||||||
c (#) Due to a lack of toxicity results the TF has been calculated as an average of the values of C12/14Alkyl sulphate (AS) and C16/18Alkyl sulphate (AS). | ||||||||||
d (§) 5-Chloro-2-Methyl-4-isothiazolin-3-one and 2-Methyl-4-isothiazolin-3-one in mixture 3:1 | ||||||||||
List of abbreviations: | ||||||||||
SF(acute) = Safety factor for acute toxicity TF(acute) = Toxicity factor based on acute toxicity on aquatic organisms. SF(chronic) = Safety factor for chronic toxicity. TF(chronic) = Toxicity factor based on chronic toxicity on aquatic organisms. DF = Degradation factor. | ||||||||||
Aerobic degradation: | ||||||||||
R = Readily biodegradable according to OECD guidelines I = Inherently biodegradable according to OECD guidelines. P = Persistent. The ingredient has failed the test for inherent biodegradability. O = The ingredient has not been tested. NA = Not applicable. | ||||||||||
Anaerobic degradation: | ||||||||||
Y = Biodegradable under anaerobic conditions. N = Not biodegradable under anaerobic conditions. O = The ingredient has not been tested. NA = Not applicable. | ||||||||||
Acute toxicity | Chronic toxicity | Degradation | ||||||||
---|---|---|---|---|---|---|---|---|---|---|
DID-no | Ingredient name | LC50/EC50 | SF(acute) | TF(acute) | NOECa | SF(chronic)a | TF(chronic) | DF | Aerobic | Anaerobic |
Anionic surfactants | ||||||||||
1 | Linear alkyl benzene sulphonates 11,5-11,8 (LAS) | 4,1 | 1 000 | 0,0041 | 0,69 | 10 | 0,069 | 0,05 | R | N |
2 | LAS-(C10/13-alkyl)triethanolamine salt | 4,2 | 1 000 | 0,0042 | 3,4 | 100 | 0,034 | 0,05 | R | O |
3 | C14/17-Alkyl sulphonate | 6,7 | 5 000 | 0,00134 | 0,44 | 10 | 0,044 | 0,05 | R | N |
4 | C8/10-Alkyl sulphate | 132 | 5 000 | 0,0264 | 0,0264 | 0,05 | R | Y | ||
5 | C12/14-Alkylsulfaat (AS) | 2,8 | 1 000 | 0,0028 | 2 | 100 | 0,02 | 0,05 | R | Y |
6 | C12/18-Alkyl sulphate (AS)c | 0,0149 | 0,027 | 0,05 | R | Y | ||||
7 | C16/18 Fatty alcohol sulphate (FAS) | 27 | 1 000 | 0,027 | 1,7 | 50 | 0,034 | 0,05 | R | Y |
8 | C12/15A 1-3 EO sulphate | 4,6 | 1 000 | 0,0046 | 0,1 | 10 | 0,01 | 0,05 | R | Y |
9 | C 16/18 A 3-4 EO sulphate | 0,57 | 10 000 | 0,000057 | 0,000057 | 0,05 | R | Y | ||
10 | Dialkyl sulpho succinate | 15,7 | 1 000 | 0,0157 | 0,0157 | 0,5 | I | N | ||
11 | C 12/14 Sulpho- fatty acid methylester | 9 | 10 000 | 0,0009 | 0,23 | 50 | 0,0046 | 0,05 | R | N |
12 | C 16/18 Sulpho- fatty acid methylester | 0,51 | 5 000 | 0,000102 | 0,2 | 50 | 0,004 | 0,05 | R | N |
13 | C 14/16 alfa Olefin sulphonate | 3,3 | 10 000 | 0,00033 | 0,00033 | 0,05 | R | N | ||
14 | C 14/18 alfa olefin sulphonate | 0,5 | 5 000 | 0,0001 | 0,0001 | 0,05 | R | N | ||
15 | Soap C> 12-22 | 22 | 1 000 | 0,022 | 10 | 100 | 0,1 | 0,05 | R | Y |
16 | Lauroyl sarcosinate | 56 | 10 000 | 0,0056 | 0,0056 | 0,05 | R | Y | ||
17 | C 9/11 2-10 EO Carboxymethylated, sodium salt or acid | 100 | 10 000 | 0,01 | 0,01 | 0,05 | R | O | ||
18 | C 12/18 2-10 EO Carboxymethylated, sodium salt or acid | 8,8 | 1 000 | 0,0088 | 5 | 100 | 0,05 | 0,05 | R | O |
19 | C 12/18 Alkyl phosphate esters | 38 | 1 000 | 0,038 | 0,038 | 0,05 | R | N | ||
Non-ionic surfactants | ||||||||||
20 | C 8 A 1-5 EO | 7,8 | 1 000 | 0,0078 | 0,0078 | 0,05 | R | Y | ||
21 | C 9/11 A, > 3-6 EO predominantly linear | 5,6 | 1 000 | 0,0056 | 0,0056 | 0,05 | R | Y | ||
22 | C 9/11 A, > 6-10 EO predominantly linear | 5 | 1 000 | 0,005 | 0,005 | 0,05 | R | Y | ||
23 | C 9/11 A, 5-11 EO multibranched | 1 | 1 000 | 0,001 | 0,001 | 0,05 | R | O | ||
24 | C 10 A, 5-11 EO multibranched (Trimer-propen-oxo-alcohol) | 1 | 1 000 | 0,001 | 0,001 | 0,05 | R | Y | ||
25 | C 12/15 A, >2-6 EO predominantly linear | 0,43 | 1 000 | 0,00043 | 0,18 | 50 | 0,0036 | 0,05 | R | Y |
26 | C 12/14 5-8 EO 1 t-BuO (endcapped) | 0,23 | 1 000 | 0,00023 | 0,18 | 100 | 0,0018 | 0,05 | R | O |
27 | C 12/15 A, 3-12 EO multibranched | 1 | 1 000 | 0,001 | 3,2 | 100 | 0,032 | 0,05 | R | O |
28 | C 12/15 (mean value C<14) A, >6-9 EO | 0,63 | 1 000 | 0,00063 | 0,24 | 10 | 0,024 | 0,05 | R | Y |
29 | C 12/15 (mean value C > 14) A, >6-9 EO | 0,4 | 1 000 | 0,0004 | 0,17 | 10 | 0,017 | 0,05 | R | Y |
30 | C 12/15 A, > 9-12 EO | 1,1 | 1 000 | 0,0011 | 0,017 | 0,05 | R | Y | ||
31 | C 12/15 A > 12-20 EO | 0,7 | 1 000 | 0,0007 | 0,0007 | 0,05 | R | O | ||
32 | C 12/15 A > 20-30 EO | 13 | 1 000 | 0,013 | 10 | 100 | 0,1 | 0,05 | R | O |
33 | C 12/15 A, > 30 EO | 130 | 1 000 | 0,13 | 0,13 | 0,5 | I | O | ||
34 | C 12/18 A, 0-3 EO | 0,3 | 1 000 | 0,0003 | 0,0003 | 0,05 | R | Y | ||
35 | C 12/18 A, 5-10 EO | 1 | 1 000 | 0,001 | 0,35 | 100 | 0,0035 | 0,05 | R | O |
36 | C 12/18 A, > 10-20 EO | 1 | 1 000 | 0,001 | 0,0035 | 0,05 | R | O | ||
37 | C 16/18 A, 2-8 EO | 3,2 | 1 000 | 0,0032 | 0,4 | 100 | 0,004 | 0,05 | R | Y |
38 | C 16/18 A, > 9-18 EO | 0,72 | 1 000 | 0,00072 | 0,32 | 10 | 0,032 | 0,05 | R | Y |
39 | C 16/18 A, 20-30 EO | 4,1 | 1 000 | 0,0041 | 0,0041 | 0,05 | R | Y | ||
40 | C 16/18 A, > 30 EO | 30 | 1 000 | 0,03 | 0,03 | 0,5 | I | Y | ||
41 | C 12-15 A 2-6 EO 2-6 PO | 0,78 | 1 000 | 0,00078 | 0,36 | 100 | 0,0036 | 0,05 | R | O |
42 | C 10-16 A 0-3 PO 6-7 EO | 3,2 | 5 000 | 0,00064 | 1 | 100 | 0,01 | 0,05 | R | O |
43 | Glycerine (1-5 EO) cocoate | 16 | 1 000 | 0,016 | 6,3 | 100 | 0,063 | 0,05 | R | Y |
44 | Glycerin (6-17 EO) cocoate | 100 | 1 000 | 0,1 | 0,1 | 0,05 | R | Y | ||
45 | C 12/14 Glucose amide | 13 | 1 000 | 0,013 | 4,3 | 50 | 0,086 | 0,05 | R | Y |
46 | C 16/18 Glucose amide | 1 | 1 000 | 0,001 | 0,33 | 50 | 0,0066 | 0,05 | R | Y |
47 | C 8/10 Alkyl polyglycoside | 28 | 1 000 | 0,028 | 5,7 | 100 | 0,057 | 0,05 | R | Y |
48 | C 8/12 Alkyl polyglycoside, branched | 480 | 1 000 | 0,48 | 100 | 100 | 1 | 0,05 | R | N |
49 | C 8/16 or C 12-14 Alkyl polyglycoside | 5,3 | 1 000 | 0,0053 | 1 | 10 | 0,1 | 0,05 | R | Y |
50 | Coconut fatty acid monoethanolamide | 9,5 | 1 000 | 0,0095 | 1 | 100 | 0,01 | 0,05 | R | Y |
51 | Coconut fatty acid monoethanolamide 4-5 EO | 17 | 10 000 | 0,0017 | 0,0017 | 0,05 | R | Y | ||
52 | Coconut fatty acid diethanolamide | 2 | 1 000 | 0,002 | 0,3 | 100 | 0,003 | 0,05 | R | O |
53 | PEG-4 Rapeseed amide | 7 | 5 000 | 0,0014 | 0,0014 | 0,05 | R | Y | ||
Amphoteric surfactants | ||||||||||
60 | C 12/15 Alkyl dimethylbetaine | 1,7 | 1 000 | 0,0017 | 0,1 | 100 | 0,001 | 0,05 | R | O |
61 | Alkyl C 12/18 amidopropylbetaine | 1,8 | 1 000 | 0,0018 | 0,09 | 100 | 0,0009 | 0,05 | R | Y |
62 | C 12/18 Alkyl amine oxide | 0,3 | 1 000 | 0,0003 | 0,0003 | 0,05 | R | Y | ||
Cationic surfactants | ||||||||||
70 | Alkyl trimethyl ammonium salts | 0,1 | 1 000 | 0,0001 | 0,046 | 100 | 0,00046 | 0,5 | I | O |
71 | Alkyl ester ammonium salts | 2,9 | 1 000 | 0,0029 | 1 | 10 | 0,1 | 0,05 | R | Y |
Preservatives | ||||||||||
80 | 1,2-Benzisothiazol-3-one | 0,15 | 1 000 | 0,00015 | 0,00015 | 0,5 | I | N | ||
81 | Benzyl alcohol | 360 | 1 000 | 0,36 | 0,36 | 0,05 | R | Y | ||
82 | 5-bromo-5-nitro-1,3-dioxane | 0,4 | 5 000 | 0,00008 | 0,00008 | 1 | P | O | ||
83 | 2-bromo-2-nitropropane-1,3-diol | 0,78 | 1 000 | 0,00078 | 0,2 | 100 | 0,002 | 0,5 | I | O |
84 | Chloroacetamide | 55,6 | 10 000 | 0,00556 | 0,00556 | 1 | O | O | ||
85 | Diazolinidylurea | 35 | 5 000 | 0,007 | 0,007 | 1 | P | O | ||
86 | Formaldehyde | 2 | 1 000 | 0,002 | 0,002 | 0,05 | R | O | ||
87 | Glutaraldehyde | 0,31 | 1 000 | 0,00031 | 0,00031 | 0,05 | R | O | ||
88 | Guanidine, hexamethylene-, homopolymer | 0,18 | 1 000 | 0,00018 | 0,024 | 100 | 0,00024 | 1 | P | O |
89 | CMI + MIT in mixture 3:1d | 0,0067 | 1 000 | 0,0000067 | 0,0057 | 50 | 0,000114 | 0,5 | I | O |
90 | 2-Methyl-2H-isothiazol-3-one (MIT) | 0,06 | 1 000 | 0,00006 | 0,00006 | 0,5 | I | O | ||
91 | Methyldibromoglutaronitrile | 0,15 | 1 000 | 0,00015 | 0,00015 | 0,05 | R | O | ||
92 | e-phtaloimidoperoxyhexanoic acid | 0,59 | 5 000 | 0,000118 | 0,000118 | 1 | P | O | ||
93 | Methyl-, Ethyl- and Propylparaben | 15,4 | 5 000 | 0,00308 | 0,00308 | 0,05 | R | N | ||
94 | o-Phenylphenol | 0,92 | 1 000 | 0,00092 | 0,00092 | 0,05 | R | O | ||
95 | Sodium benzoate | 128 | 1 000 | 0,128 | 0,128 | 0,05 | R | Y | ||
96 | Sodium hydroxy methyl glycinate | 36,5 | 5 000 | 0,0073 | 0,0073 | 1 | O | O | ||
97 | Sodium nitrite | 87 | 10 000 | 0,0087 | 0,0087 | 1 | NA | NA | ||
98 | Triclosan | 0,0014 | 1 000 | 0,0000014 | 0,0000014 | 0,5 | I | O | ||
Other ingredients | ||||||||||
110 | Silicon | 250 | 1 000 | 0,25 | 0,25 | 1 | P | N | ||
111 | Paraffin | 1 000 | 10 000 | 0,1 | 0,1 | 1 | P | O | ||
112 | Glycerol | 4 400 | 5 000 | 0,88 | 0,88 | 0,05 | R | Y | ||
113 | Phosphate, as STPP | 1 000 | 1 000 | 1 | 1 | 0,15 | NA | NA | ||
114 | Zeolite (insoluble inorganic) | 1 000 | 1 000 | 1 | 175 | 50 | 3,5 | 1 | NA | NA |
115 | Citrate and citric acid | 825 | 1 000 | 0,825 | 80 | 50 | 1,6 | 0,05 | R | Y |
116 | Polycarboxylates | 200 | 1 000 | 0,2 | 106 | 10 | 10,6 | 1 | P | N |
117 | Nitrilotriacetat (NTA) | 494 | 1 000 | 0,494 | 64 | 50 | 1,28 | 0,5 | I | O |
118 | EDTA | 121 | 1 000 | 0,121 | 22 | 50 | 0,44 | 0,5 | I | N |
119 | Phosphonates | 650 | 1 000 | 0,65 | 25 | 50 | 0,5 | 1 | P | N |
120 | EDDS | 320 | 1 000 | 0,32 | 32 | 50 | 0,64 | 0,05 | R | N |
121 | Clay (insoluble inorganic) | 1 000 | 1 000 | 1 | 1 | 1 | NA | NA | ||
122 | Carbonates | 250 | 1 000 | 0,25 | 0,25 | 0,15 | NA | NA | ||
123 | Fatty acids C≥ 14 | 3,7 | 5 000 | 0,00074 | 0,00074 | 0,05 | R | Y | ||
124 | Silicates | 250 | 1 000 | 0,25 | 0,25 | 1 | NA | NA | ||
125 | Polyasparaginic acid, Na-salt | 410 | 1 000 | 0,41 | 0,41 | 0,05 | R | N | ||
126 | Perborates (as boron) | 14 | 1 000 | 0,014 | 0,014 | 1 | NA | NA | ||
127 | Percarbonate (see carbonate) | 250 | 1 000 | 0,25 | 0,25 | 0,15 | NA | NA | ||
128 | Tetraacetylethylenediamine (TAED) | 250 | 1 000 | 0,25 | 500 | 100 | 5 | 0,05 | R | O |
129 | C 1-C 4 alcohols | 1 000 | 1 000 | 1 | 1 | 0,05 | R | Y | ||
130 | Mono-, di- and triethanol amine | 90 | 1 000 | 0,09 | 0,78 | 100 | 0,0078 | 0,05 | R | Y |
131 | Polyvinylpyrrolidon (PVP) | 1 000 | 1 000 | 1 | 1 | 0,5 | I | N | ||
132 | Carboxymethylcellulose (CMC) | 250 | 5 000 | 0,05 | 0,05 | 0,5 | I | N | ||
133 | Sodium and magnesium sulphate | 1 000 | 1 000 | 1 | 100 | 100 | 1 | 1 | NA | NA |
134 | Calcium- and sodiumchloride | 1 000 | 1 000 | 1 | 100 | 100 | 1 | 1 | NA | NA |
135 | Urea | 1 000 | 5 000 | 0,2 | 0,2 | 1 | NA | NA | ||
136 | Silicon dioxide, quartz (insoluble inorganic) | 1 000 | 1 000 | 1 | 1 | 1 | NA | NA | ||
137 | Polyethylene glycol, MW > 4000 | 1 000 | 10 000 | 0,1 | 0,1 | 1 | P | N | ||
138 | Polyethylene glycol, MW < 4000 | 1 000 | 10 000 | 0,1 | 0,1 | 1 | P | O | ||
139 | Cumene-, xylene- and toluene sulphonates | 66 | 10 000 | 0,0066 | 0,0066 | 0,5 | I | N | ||
140 | Na-/Mg-/KOH | 30 | 1 000 | 0,03 | 0,03 | 0,05 | NA | NA | ||
141 | Enzymes/proteins | 25 | 5 000 | 0,005 | 0,005 | 0,05 | R | Y | ||
142 | Perfume, if not other specifiedb | 2 | 1 000 | 0,002 | 0,002 | 0,5 | I | N | ||
143 | Dyes, if not other specifiedb | 10 | 1 000 | 0,01 | 0,01 | 1 | P | N | ||
144 | Starch | 100 | 1 000 | 0,1 | 0,1 | 0,05 | R | Y | ||
145 | Anionic polyester | 655 | 1 000 | 0,655 | 0,655 | 1 | P | N | ||
146 | PVNO/PVPI | 530 | 1 000 | 0,53 | 0,53 | 1 | P | N | ||
147 | Zn ftalocyanin sulphonate | 0,2 | 1 000 | 0,0002 | 0,16 | 100 | 0,0016 | 1 | P | N |
148 | Iminodisuccinat | 81 | 1 000 | 0,081 | 17 | 100 | 0,17 | 0,05 | R | N |
149 | FWA 1 | 11 | 1 000 | 0,011 | 10 | 100 | 0,1 | 1 | P | N |
150 | FWA 5 | 10 | 1 000 | 0,01 | 1 | 10 | 0,1 | 1 | P | N |
151 | 1-decanol | 2,3 | 5 000 | 0,00046 | 0,00046 | 0,05 | R | O | ||
152 | Methyl laurate | 1 360 | 10 000 | 0,136 | 0,136 | 0,05 | R | O | ||
153 | Formic acid (Ca salt) | 100 | 1 000 | 0,1 | 0,1 | 0,05 | R | Y | ||
154 | Adipic acid | 31 | 1 000 | 0,031 | 0,031 | 0,05 | R | O | ||
155 | Maleic acid | 106 | 1 000 | 0,106 | 0,106 | 0,05 | R | Y | ||
156 | Malic acid | 106 | 1 000 | 0,106 | 0,106 | 0,05 | R | O | ||
157 | Tartaric acid | 200 | 10 000 | 0,02 | 0,02 | 0,05 | R | O | ||
158 | Phosphoric acid | 138 | 1 000 | 0,138 | 0,138 | 0,15 | NA | NA | ||
159 | Oxalic acid | 128 | 5 000 | 0,0256 | 0,0256 | 0,05 | R | O | ||
160 | Acetic acid | 30 | 1 000 | 0,03 | 0,03 | 0,05 | R | Y | ||
161 | Lactic acid | 130 | 1 000 | 0,13 | 0,13 | 0,05 | R | Y | ||
162 | Sulphamic acid | 75 | 1 000 | 0,075 | 0,075 | 1 | NA | NA | ||
163 | Salicylic acid | 46 | 1 000 | 0,046 | 0,046 | 0,15 | R | O | ||
164 | Glycollic acid | 141 | 5 000 | 0,0282 | 0,0282 | 0,05 | R | O | ||
165 | Glutaric acid | 208 | 5 000 | 0,0416 | 0,0416 | 0,05 | R | O | ||
166 | Malonic acid | 95 | 5 000 | 0,019 | 0,019 | 0,05 | R | O | ||
167 | Ethylene glycol | 6500 | 1 000 | 6,5 | 6,5 | 0,05 | R | Y | ||
168 | Ethylene glycol monobutyl ether | 747 | 5 000 | 0,1494 | 0,1494 | 0,05 | R | O | ||
169 | Diethylene glycol | 4 400 | 10 000 | 0,44 | 0,44 | 0,15 | I | Y | ||
170 | Diethylene glycol monomethyl ether | 500 | 1 000 | 0,5 | 0,5 | 0,5 | I | O | ||
171 | Diethylene glycol monoethyl ether | 3 940 | 5 000 | 0,788 | 0,788 | 0,05 | R | O | ||
172 | Diethylene glycol monobutyl ether | 1 254 | 1 000 | 1,254 | 1,254 | 0,05 | R | O | ||
173 | Diethylene glycol dimethylether | 2 000 | 10 000 | 0,2 | 0,2 | 0,5 | I | O | ||
174 | Propylene glycol | 32 000 | 1 000 | 32 | 32 | 0,15 | R | Y | ||
175 | Propylene glycol monomethyl ether | 12 700 | 5 000 | 2,54 | 2,54 | 0,05 | R | O | ||
176 | Propylene glycol monobutylether | 748 | 5 000 | 0,1496 | 0,1496 | 0,05 | R | O | ||
177 | Dipropylene glycol | 1 625 | 10 000 | 0,1625 | 0,1625 | 0,05 | R | O | ||
178 | Dipropylene glycol monomethyl ether | 1 919 | 5 000 | 0,3838 | 0,3838 | 0,05 | R | O | ||
179 | Dipropylene glycol monobutylether | 841 | 5 000 | 0,1682 | 0,1682 | 0,05 | R | O | ||
180 | Dipropylene glycol dimethylether | 1 000 | 5 000 | 0,2 | 0,2 | 0,5 | I | O | ||
181 | Triethylene glycol | 4 400 | 1 000 | 4,4 | 4,4 | 0,5 | I | O | ||
182 | Tall oil | 1,8 | 1 000 | 0,0018 | 0,0018 | 0,5 | I | O | ||
183 | Ethylenebisstearamides | 140 | 5 000 | 0,028 | 0,028 | 0,5 | I | O | ||
184 | Sodium gluconate | 10 000 | 10 000 | 1 | 1 | 0,05 | R | O | ||
185 | Glycol distearate | 100 | 5 000 | 0,02 | 0,02 | 0,5 | I | O | ||
186 | Hydroxyl ethyl cellulose | 209 | 5 000 | 0,0418 | 0,0418 | 1 | P | O | ||
187 | Hydroxy propyl methyl cellulose | 188 | 5 000 | 0,0376 | 0,0376 | 1 | P | O | ||
188 | 1-methyl-2-pyrrolidone | 500 | 1 000 | 0,5 | 0,5 | 0,05 | R | O | ||
189 | Xanthan gum | 490 | 1 000 | 0,49 | 0,49 | 0,05 | R | O | ||
190 | Trimethyl pentanediol mono-isobutyrate | 18 | 1 000 | 0,018 | 3,3 | 100 | 0,033 | 0,05 | R | O |
191 | Benzotriazole | 29 | 1 000 | 0,029 | 0,029 | 1 | P | O | ||
192 | Piperidinol-propanetricarboxylate salt | 100 | 1 000 | 0,1 | 120 | 100 | 1,2 | 0,5 | I | O |
193 | Diethylaminopropyl-DAS | 120 | 1 000 | 0,12 | 120 | 100 | 1,2 | 1 | P | O |
194 | Methylbenzamide-DAS | 120 | 1 000 | 0,12 | 120 | 100 | 1,2 | 0,5 | I | O |
195 | Pentaerythritol-tetrakis-phenol-propionate | 38 | 1 000 | 0,038 | 0,038 | 1 | P | O | ||
196 | Block polymers | 100 | 5 000 | 0,02 | 0,02 | 1 | P | N | ||
197 | Denatonium benzoate | 13 | 5 000 | 0,0026 | 0,0026 | 1 | O | O | ||
198 | Succinate | 374 | 10 000 | 0,0374 | 0,0374 | 0,05 | R | O | ||
199 | Polyaspartic acid | 528 | 1 000 | 0,528 | 0,528 | 0,05 | R | N | ||
Insoluble inorganic Inorganic ingredient with very low, or no ability to dissolve in water. |
The Critical Dilution Volume is calculated according to the following equation:
CDV = 1000 * Σdosage(i)*DF(i)/TF(i)
Dosage(i) = dosage of ingredient i, expressed in g/wash, or in some cases as g/100 g product.
DF(i) = degradation factor for ingredient i.
TF(i) = toxicity factor for ingredient i.
PROCEDURE FOR ESTABLISHING PARAMETER VALUES FOR INGREDIENTS NOT ON THE DID-LIST
As a general rule the listed parameter values must be used for all ingredients on the DID-list. An exception is made for perfumes and dyes, where additional test results are accepted (see footnote in Part A).
The following approach applies for ingredients that are not listed on the DID-list.
In the European Eco-label scheme, the CDV is calculated based on the chronic toxicity and chronic safety factors. If no chronic test results are available, the acute toxicity and safety factor must be used.
Calculate the median value within each trophic level (fish, crustaceans or algae) using validated test results for chronic toxicity. If several test results are available for one species within a trophic level, a median for the species shall be calculated first, and these median values shall be used when calculating the median value for the trophic level .
The chronic toxicity factor (TFchronic) is the lowest median of the trophic levels calculated.
The TFchronic shall be used when calculating the critical dilution volume criterion.
Calculate the median value within each trophic level (fish, crustaceans or algae) using validated test results for acute toxicity. If several test results are available for one species within a trophic level, a median for the species shall be calculated first, and these median values shall be used when calculating the median value for the trophic level .
The acute toxicity factor (TFacute) is the lowest median of the trophic levels.
The TFacute shall be used when calculating the critical dilution volume criterion.
The Safety factor (SF) is depending on how many trophic levels are tested, and whether chronic test results are available or not. SF is determined as follows:
Data | Safety factor (SF) | Toxicity factor (TF) |
---|---|---|
1 short-term L(E)C50 | 10 000 | Toxicity/10 000 |
2 short-term L(E)C50 from species representing two trophic levels (fish and/or crustaceans and/or algae) | 5 000 | Toxicity/5 000 |
At least 1 short-term L(E)C50 from each of three trophic levels of the base-set1 | 1 000 | Toxicity/1 000 |
One long-term NOEC (fish or crustaceans) | 100 | Toxicity/100 |
Two long-term NOEC from species representing two trophic levels (fish and/or crustaceans and/or algae) | 50 | Toxicity/50 |
Long-term NOEC from at least three species (normally fish, crustaceans and algae) representing three trophic levels | 10 | Toxicity/10 |
The base set for testing the toxicity of substances towards aquatic organisms consists of acute tests with fish, daphnia and algae.
The degradation factor is defined as follows:
Degradation factor (DF)
a All surfactants or other ingredients consisting of a series of homologues and fulfilling the final degradation requirement of the test, shall be included in this class regardless of fulfilment of the 10-day window criterion. | |
b 10-day window criterion not fulfilled. For inorganic ingredients the DF is set according to observed degradation rate. If the ingredient degrade within five days: DF=0,05, within 15 days: DF=0,15 or within 50 days: DF=0,5. | |
DF | |
---|---|
Readily biodegradablea | 0,05 |
Readily biodegradableb | 0,15 |
Inherently biodegradable | 0,5 |
Persistent | 1 |
The ingredient must be classified into one of the following classes of compounds:
Category | Label |
---|---|
Anaerobically not biodegradable, i.e. tested and found not biodegradable. | N |
Anaerobically biodegradable i.e. tested and found biodegradable or not tested but demonstrated through analogy considerations etc. | Y |
Not tested for anaerobic biodegradability | 0 |
The ingredient must be classified into one of the following classes of compounds:
Category | Label |
---|---|
Readily biodegradable | R |
Inherently biodegradable, but not readily biodegradable | I |
Persistent | P |
Not tested for aerobic biodegradability | O |
If an inorganic ingredient has a very low water-solubility, or is not soluble in water this must be indicated in the submitted file.
The following approach may be used to provide the necessary documentation of anaerobic biodegradability in the case of ingredients that are not listed in the DID list.
Apply reasonable extrapolation. Use test results obtained with one raw material to extrapolate the ultimate anaerobic degradability of structurally related surfactants. If anaerobic biodegradability has been confirmed for a surfactant (or a group of homologues) according to the DID list (Appendix I), it can be assumed that a similar type of surfactant is also anaerobically biodegradable (for example, C 12-15 A 1-3 EO sulphate (DID No 8) is anaerobically biodegradable, and a similar anaerobic biodegradability may also be assumed for C 12-15 A 6 EO sulphate). If anaerobic biodegradability has been confirmed for a surfactant by use of an appropriate test method, it can be assumed that a similar type of surfactant is also anaerobically biodegradable (for example, literature data confirming the anaerobic biodegradability of surfactants belonging to the group alkyl ester ammonium salts may be used as documentation for a similar anaerobic biodegradability of other quaternary ammonium salts containing ester-linkages in the alkyl chain(s)).
Perform screening test for anaerobic degradability. If new testing is necessary, perform a screening test by use of OECD 311, ISO 11734, ECETOC No 28 (June 1988) or an equivalent method.
Perform low-dosage degradability test. If new testing is necessary, and in the case of experimental problems in the screening test (for example, inhibition due to toxicity of test substance), repeat testing by using a low dosage of surfactant and monitor degradation by 14C measurements or chemical analyses. Testing at low dosages may be performed by use of OECD 308 (24 April 2002) or an equivalent method provided that strict anaerobic conditions are applied. The testing and the interpretation of the test results should be conducted by an independent expert.
The performance test can be either a laboratory test or a consumer test. The conditions for both types of test are described in the following sections.
The aim of the laboratory test is to confirm that the test product cleans as well as or better than a comparative reference product and better than pure water, and to confirm that the test product does not damage the surfaces it is intended for.
The test product and the reference product shall be of the same product category.
The reference product may be either a market-leading product or a generic formulation.
If a market-leading reference product is used, it shall be one of the three or four products with the highest sales volume on the market in a region, where the eco-labelled product is to be marketed. Furthermore, the market-leading reference product must be approved by the competent body, and the trade name must be available to the public.
If a generic reference product is used, it must have a composition which is representative for the products on the market. Furthermore, the generic reference product must be approved by the Competent body and the exact formulation must be publicly available free of charge.
The dosages used shall be the recommended dosage for normal soil or normal use. If no recommended dosage is stated for the reference product, the same dosage must be used for both the test product and the reference product.
If a dosage interval is given, the lowest recommended dosage must be used in the test.
The soil mixture must be relevant for the use of the product, homogeneous and, if prepared artificially, based on well-described substances. Enough soil for the whole test must be prepared in a single batch.
For all-purpose cleaners and cleaning products for kitchens, only fat-removing effects shall be documented. For sanitary cleaners and window cleaners, both calcium and fat removing effects shall be documented.
The washing procedure must reflect realistic use conditions and can be manual or by machinery.
The assessment of cleanness must include testing and comparison of test product, reference product.
Each product must be tested in at least five parallels (see documentation requirements). Additionally, one test must be performed with water only, i.e. without any cleaning agent.
The quantity of soil applied to plates or another substrate must be the same for each plate or substrate-part, weighed in grams to one decimal point.
The order of testing of the two products shall be randomised.
The test must be capable of generating results that provide a measure of the cleanness (fat and calcium removing effects) according to the product tested. Cleanness can be measured visually, photometrically (e.g. measuring reflectance), gravimetrically or by means of another relevant method. The method of measurement, including a possible scoring system, must be decided in advance.
Testing of fat and calcium removing effects may be done either separately or jointly.
A detailed test report shall be submitted to the competent body, including information on:
The dosages used for the test product and the reference product.
Common application area(s) for the test and the reference product.
Justification of the choice of the reference product with respect to its position on the market and its function.
Type(s) of surface used in the test, their relevance and whether the products are gentle on the chosen surface(s).
Description of the soil mixture used in the test, together with an argumentation for its relevance in relation to the testing of fitness for use.
Description of the procedures for soiling, washing and measurement of cleaning performance.
Calculation and statistical comparison procedures.
All raw data used in the testing and calculations.
For the test product to be considered to have fulfilled the performance requirements its results must be positive in 100 % of the test rounds. If the result is less than 100 % positive, five new parallel tests must be performed. Of these 10 parallel tests, 80 % must be positive.
As an alternative the applicant may use statistical methods and demonstrate with a one-sided 95 % confidence range that the test product is as good as or better than the reference product in at least 80 % of the test rounds, if more than 10 parallel tests are made.
How it is shown that the product tested has a better performance than that of pure water.
The CTTN-IREN test ‘Washing of tiled floor and grease removal on kitchen surface’ fulfils the requirements for all-purpose cleaners provided that the number of tests is increased, the same amount of soil is applied in all subtests, and an assessment of the gentleness of the products on surfaces is included. The method described by the Danish Consumer Information fulfils the requirements for all-purpose cleaners provided that the number of tests with each product is increased (Testing of all-purpose cleaners, 2004; Danish title: ‘Sådan er universalrengøringsmidlerne testet’;
(www.forbrug.dk/test/testbasen/rengoering/universalrengoerings/saadan-er-de-testet/).
The IKW-test ‘Empfehlung zur Qualitätsbewertung für Badezimmerreiniger’ (SÖFW-Journal, 129, Jahrgang 3, 2003) fulfils the requirements for bathroom cleaners. The IKW-test ‘Recommendations for the quality assessment of acidic toilet cleaners’ (SÖFW-Journal, 126, 11-2000) fulfils the requirements for sanitary cleaners. The method described by the Danish Consumer Information fulfils the requirements for sanitary cleaners (Testing of sanitary cleaners, 2004; Danish title: ‘Sådan er toiletrensemidlerne testet’;
(www.forbrug.dk/test/testbasen/rengoering/toiletrensemidler/saadan-er-de-testet/).
The CHELAB test ‘Detergents for hard surfaces: washing efficiency’ (CHELAB internal test method n. 0578) fulfils the requirements for all-purpose cleaners provided that a test with pure water (without addition of detergent) is included in the procedure (www.chelab.it/).
The aim of the consumer test is to show whether the test product cleans as good as or better than a comparative reference product, and that the test product does not hurt the surfaces it is intended for.
For testing of consumer products, responses must be received from a minimum of 20 persons, randomly selected in the sales region and normally using the reference product
For testing of professional products, responses must be received from at least five professional users, randomly selected in the sales region and normally using the reference product
The test product and the reference product should be of the same product category. The reference products shall be the products normally used by the test persons.
The dosages used must be the dose recommended by the manufacturer
The test must be performed on the type(s) of surface relevant in relation to the recommendations on the label
The test period must allow for at least five uses of the test product
Effectiveness of all-purpose cleaners must be assessed by the following properties:
The ability of the products to remove soil
The gentleness of the products on the surface(s) on which it is used
Effectiveness of sanitary cleaners must be assessed by the following properties:
The ability to remove fat-based soil
The ability to remove calcium deposits (not relevant for cleaning products for kitchens)
The gentleness of the product on the surface(s) on which it is used
The test persons must reply to the question ‘How effective do you consider the test product to be compared to the product you normally use?’ — or equivalent. At least three possibilities for a response must be available, e.g. ‘poorer’, ‘as good as’ and ‘better’
At least 80 % of the test persons must assess the product to be ‘as good as’ or ‘better’ than the reference product
A detailed test report must be submitted to the competent body, including information/documentation on:
The selection of the test persons
The information provided by the test persons and a summary describing how the testing was performed
The type of surface(s) the product was tested on.
For each test person, the following information must be available, e.g. in the form of answers to a questionnaire:
The dosage used by the test person
The name of the reference product
A statement declaring that the product has been tested at least five times
The result of the comparison of the test product and the reference product
Calculation and documentation showing that at least 80 % of the test persons assess the product to be as good as or better than the reference product.
Council Directive 67/548/EEC of 27 June 1967 on the approximation of laws, regulations and administrative provisions relating to the classification, packaging and labelling of dangerous substances (OJ L 196, 16.8.1967, p. 1).
Directive 1999/45/EC of the European Parliament and of the Council of 31 May 1999 concerning the approximation of the laws, regulations and administrative provisions of the Member States relating to the classification, packaging and labelling of dangerous preparations (OJ L 200, 30.7.1999, p. 1).
Y Diweddaraf sydd Ar Gael (diwygiedig):Y fersiwn ddiweddaraf sydd ar gael o’r ddeddfwriaeth yn cynnwys newidiadau a wnaed gan ddeddfwriaeth ddilynol ac wedi eu gweithredu gan ein tîm golygyddol. Gellir gweld y newidiadau nad ydym wedi eu gweithredu i’r testun eto yn yr ardal ‘Newidiadau i Ddeddfwriaeth’.
Gwreiddiol (Fel y’i mabwysiadwyd gan yr UE): Mae'r wreiddiol version of the legislation as it stood when it was first adopted in the EU. No changes have been applied to the text.
Gallwch wneud defnydd o ddogfennau atodol hanfodol a gwybodaeth ar gyfer yr eitem ddeddfwriaeth o’r tab hwn. Yn ddibynnol ar yr eitem ddeddfwriaeth sydd i’w gweld, gallai hyn gynnwys:
Defnyddiwch y ddewislen hon i agor dogfennau hanfodol sy’n cyd-fynd â’r ddeddfwriaeth a gwybodaeth am yr eitem hon o ddeddfwriaeth. Gan ddibynnu ar yr eitem o ddeddfwriaeth sy’n cael ei gweld gall hyn gynnwys:
liciwch ‘Gweld Mwy’ neu ddewis ‘Rhagor o Adnoddau’ am wybodaeth ychwanegol gan gynnwys